PUBLIC NOTICE
Federal Communications Commission
445 12th St., S.W.
Washington, D.C. 20554
News Media Information 202 / 418-0500
Internet: http://www.fcc.gov
TTY: 1-888-835-5322
DA 09-2258
October 19, 2009
Rural Broadband Report Published in FCC Record
GN Docket No. 09-29
On May 29, 2009, the Wireline Competition Bureau (Bureau) released a public notice 
announcing that Acting Federal Communications Commission Chairman Michael J. Copps had 
delivered to Congress and released to the public a Report entitled “Bringing Broadband to Rural 
America:  Report on a Rural Broadband Strategy.”1 The public notice and the Report should 
have been published in the FCC Record pursuant to section 0.416 of the Commission’s rules.2  
Because of an administrative error, the FCC Record published the public notice without 
including the Report as an attachment.  To correct that error, pursuant to section 0.416, this 
public notice and the attached Report shall both be published in the FCC Record.3
  
1 Acting Chairman Copps Releases Report on Rural Broadband Strategy, GN Docket No. 09-29, 24 FCC Rcd 7366 
(WCB 2009) (Report). 
2 Id. (citing 47 C.F.R. § 0.416).
3 47 C.F.R. § 0.416. 
FEDERAL COMMUNICATIONS COMMISSION
ACTING CHAIRMAN MICHAEL J. COPPS
BRINGING BROADBAND TO RURAL AMERICA:  
REPORT ON A RURAL BROADBAND STRATEGY
May 22, 2009
REPORT ON A RURAL BROADBAND STRATEGY
i
TABLE OF CONTENTS
I. INTRODUCTION ........................................................................................................................... 1
II. OVERVIEW OF RECOMMENDATIONS..................................................................................... 5
III. BACKGROUND ............................................................................................................................. 7
A. Rural Broadband:  Why it Matters...................................................................................... 7
B. The State of Broadband in Rural Areas ............................................................................ 12
C. America Overcomes Its Infrastructure Challenges ........................................................... 15
1. The Postal System and Newspapers..................................................................... 15
2. The Transcontinental Railroad............................................................................. 16
3. Rural Electrification............................................................................................. 16
4. The Interstate Highway System........................................................................... 17
5. The Internet and Internet Backbone..................................................................... 18
D. Recent Legislative Developments..................................................................................... 20
1. 2008 Farm Bill—Rural Broadband Strategy ....................................................... 20
2. BDIA—Improving the Collection of Broadband Data ........................................ 21
3. Recovery Act—National Broadband Plan ........................................................... 21
IV. COORDINATION OF RURAL BROADBAND EFFORTS ........................................................ 22
A. Promoting Interagency Coordination................................................................................ 25
1. Federal Interagency Coordination........................................................................ 26
2. Additional Coordination ...................................................................................... 26
B. Streamlining, Improving, and Coordinating Existing Federal Programs.......................... 31
1. Efficient Use of Government Funds and Resources ............................................ 31
2. Coordinating Program Criteria............................................................................. 32
3. Government Websites.......................................................................................... 32
4. Delay Caused by Other Federal Requirements .................................................... 33
V. ASSESSING RURAL BROADBAND NEEDS............................................................................ 33
A. Technological Considerations........................................................................................... 33
B. Assessment of Broadband Deployment ............................................................................ 38
1. Broadband Data Collection.................................................................................. 38
2. Broadband Mapping............................................................................................. 43
C. Stimulating and Sustaining Demand for Broadband......................................................... 44
D. Addressing Network Costs................................................................................................ 48
VI. OVERCOMING CHALLENGES TO RURAL BROADBAND DEPLOYMENT ...................... 54
A. Universal Service Programs and Reform.......................................................................... 55
1. Rural Health Care Program.................................................................................. 57
2. E-rate Program..................................................................................................... 58
REPORT ON A RURAL BROADBAND STRATEGY
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3. High-Cost Program .............................................................................................. 59
4. Low-Income Program .......................................................................................... 60
5. Reform Efforts ..................................................................................................... 61
B. Network Openness............................................................................................................ 61
C. Spectrum Access............................................................................................................... 62
D. Middle Mile/Special Access ............................................................................................. 67
E. Intercarrier Compensation................................................................................................. 69
F. Access to Poles and Rights of Way .................................................................................. 69
G. Tower Siting...................................................................................................................... 70
H. Video Programming.......................................................................................................... 71
VII. CONCLUSION.............................................................................................................................. 71
APPENDIX A—List of Commenters
APPENDIX B—Selected Federal Programs Addressing Broadband Access
REPORT ON A RURAL BROADBAND STRATEGY
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I. INTRODUCTION 
1. For many Americans, a world without broadband is unimaginable.  For them, broadband 
Internet access has transformed the way they live their lives.  But we have not succeeded in bringing 
broadband to everyone.  For years, large parts of rural America have languished on the sidelines of the 
digital revolution.  Home to the homesteaders, pioneers, and the rich and diverse Native American 
cultures that contribute so much to our national identity, rural America has for most of our history been 
deemed too remote, too sparsely populated, or too inaccessible to be fully connected with our nation’s 
infrastructures.
2. As many of their fellow citizens in more densely populated parts of the country go online 
for work, education, entertainment, healthcare, civic participation, and much more, too many rural 
Americans are being left behind.  Rural governments and businesses are missing opportunities to function 
more efficiently and effectively.  Even in rural areas where broadband is available, infrastructure 
deployment has not kept pace with the growing need for faster and more reliable connectivity.  At a time 
when access to affordable, robust broadband services is a fundamental part of efforts to restore America’s 
economic well-being in both rural and urban areas, we must ensure that this capability is available to open 
the doors of opportunity for everyone.
3. In the 2008 Farm Bill, Congress recognized that the need for broadband in rural areas 
was becoming ever more critical.1 That law requires the Chairman of the Federal Communications 
Commission (Commission), in coordination with the Secretary of the U.S. Department of Agriculture 
(USDA), to submit “a report describing a comprehensive rural broadband strategy” to Congress.  Under 
the statute, this strategy must include, among other matters, recommendations for improving interagency 
coordination of broadband policies and initiatives; for assessing broadband needs in rural areas; and for 
how specific federal agency programs and resources can overcome the obstacles that currently impede 
rural broadband deployment.2 In this Report, I discharge this Congressional mandate.  
4. Upon becoming Acting Chairman in January 2009, I directed the Commission staff to 
begin developing the data and analysis to the extent possible to complete a Report in the limited time 
remaining.3 In some respects, events overtook this effort as Congress provided new direction and support 
for federal broadband policies and initiatives, guidance which frankly has reshaped our approach to the 
development of this Report.  In particular, in the recently passed American Recovery and Reinvestment 
Act of 2009,4 also known as the stimulus package, Congress appropriated $7.2 billion for broadband 
grants, loans, and loan guarantees to be administered by the USDA’s Rural Utilities Service (RUS) and 
the Department of Commerce’s National Telecommunications and Information Administration (NTIA).5  
Congress recognized that this funding initiative, though substantial, was still just a down payment on the 
  
1 Food, Conservation, and Energy Act of 2008, Pub. L. No. 110-246, § 6112, 122 Stat. 923, 1966 (2008) (2008 Farm 
Bill).
2 2008 Farm Bill § 6112; see infra Part III.D (Recent Legislative Developments).  
3 For the purposes of the preparation of this Report, staff opened a special docket (GN Docket No. 09-29) and 
solicited comments from the public.  See Comment Date Established for Report on Rural Broadband Strategy, GN 
Docket No. 09-29, Public Notice, 24 FCC Rcd 2987 (2009).  See Appendix A for a list of commenters.  Though the 
Report uses “I” and “we” interchangeably, the comments, suggestions, and recommendations contained in this 
Report reflect the views of Acting Chairman Michael J. Copps, and not of the Federal Communications 
Commission.
4 American Recovery and Reinvestment Act of 2009, Pub. L. No. 111-5, 123 Stat. 115 (2009) (Recovery Act).  The 
Recovery Act was signed into law on February 17, 2009.
5 Recovery Act, Division A, Title II, National Telecommunications and Information Administration (NTIA 
Appropriations); Recovery Act, Division A, Title I, Rural Utilities Service (RUS Appropriations).  
REPORT ON A RURAL BROADBAND STRATEGY
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broadband needs of the country, and that even after this money has been invested, many Americans, 
including those residing in rural areas, will continue to lack access to critical broadband services.  
Therefore, the Recovery Act charges this Commission with developing a national broadband plan by next 
February to ensure that every American has access to broadband capability and establishing clear 
milestones for reaching this goal.6
5. Shortly after President Obama took office, his administration began to play an important 
leadership role in the effort to expand broadband penetration throughout the nation.  Through an 
interagency working group under the auspices of the National Economic Council, the Administration has 
brought together representatives from a broad cross-section of federal agencies, including the 
Commission, to coordinate implementation of the nation’s broadband agenda.  This working group 
provides an unprecedented forum for expert staff from different federal agencies to meet, discuss, and 
harmonize various federal broadband programs and policies, and identify areas for early action.  I view 
these efforts, and other efforts on the part of the administration and Congress, as essential and vital 
components for the development of a rural broadband strategy.
6. Working together across the federal government and building on the interagency working 
group’s efforts, we view the separate mandates from Congress as an unparalleled opportunity to ensure 
that the promise of universal access to broadband services is realized for all Americans.  Making the most 
of this opportunity will require coordination of the various responsibilities with which this Commission is 
charged, as well as coordination among the federal agencies and other stakeholders with roles in 
achieving the nation’s broadband goals.  We must ensure that this Report and the national broadband 
plan, to be delivered to Congress by February 17, 2010, are not isolated outputs.  Rather, we must view 
these initiatives, along with the Commission’s other broadband responsibilities, as vital and integral steps 
in the process of achieving the end result:  affordable, value-laden broadband services for all Americans.  
7. Consistent with our coordinated approach to broadband policy, and working in particular 
with the USDA, we build here on the foundation established in the Commission’s first step toward the 
national broadband plan, its recent National Broadband Plan NOI.7 In that notice, the Commission
recognized that bold action will be necessary for the nation to achieve its goal of ubiquitous and 
affordable broadband for all, regardless of location, socioeconomic status, ethnic background, or any 
other factor.  The National Broadband Plan NOI recognized “the incredible value of ubiquitous 
broadband, and the difficulties that lie ahead in ensuring its availability.”8 The nation will need to 
overcome many obstacles in ensuring that every American citizen, American business, Tribal and local 
government, and public safety entity has full access to broadband services.  Success in this endeavor will 
require the input and cooperation of many different entities—individual consumers, businesses and 
organizations, as well as federal agencies and Tribal, state, and local governments.  We must marry the 
dynamic innovations and flexibility of the private sector with the policy vision of the public sector to 
create a model of how government and industry can partner to ensure ubiquitous broadband access.
8. I view this Report as a prelude to, and a building block for, the national broadband plan, 
which will address in greater detail and on a vastly more complete record, the input of all stakeholders 
and the steps the nation must take to achieve its broadband goals.  I also view this Report, which reflects 
input from a nevertheless substantial array of stakeholders and presents significant information about 
rural America, as a compendium of information that will be useful in the development of the national 
broadband plan.  The recommendations made today for a rural broadband strategy are a down payment on 
  
6 Recovery Act § 6001(k).
7 A National Broadband Plan for Our Future, GN Docket No. 09-51, Notice of Inquiry, 24 FCC Rcd 4342 (2009) 
(National Broadband Plan NOI).  
8 Id. at para. 123. 
REPORT ON A RURAL BROADBAND STRATEGY
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the development of the national broadband plan, as indeed many of the steps necessary for ensuring 
access to broadband capability throughout rural America also will be necessary to ensure such access in 
urban and suburban parts of the nation.  Although the national broadband plan will be broader in scope, 
this Report provides another, critical step in the Commission’s efforts to develop an effective, efficient, 
and achievable national broadband plan.  No national broadband strategy can be undertaken without due 
consideration to the rural broadband infrastructure and the people it must serve.  The likely success of 
rural initiatives is intimately linked to a sound national broadband policy that reflects the complex 
interdependencies of regulatory policies, economic issues, and technological innovations.  
9. In the end, my goal is that all rural Americans, like their counterparts in more densely 
populated areas of the country, have the opportunity to reap the full benefits of broadband services.  
Certainly the challenges of deploying broadband across vast rural lands are daunting.  But as long as a 
grade-school child living on a farm cannot research a science project, or a high school student living on a 
remote Indian reservation cannot submit a college application, or an entrepreneur in a rural hamlet cannot 
order spare parts, or a local law enforcement officer cannot download pictures of a missing child without 
traveling to a city or town that has broadband Internet access, we cannot turn back from these challenges.  
Rural America has shaped this nation’s values and institutions, given us many of our greatest leaders, and 
been an engine of our economic progress, but it will be unable to compete in the digital global 
marketplace without access to broadband services.9 Now is the time to start developing solutions for 
building the critical broadband infrastructure that all Americans will need. 
10. In developing these solutions, we are not starting from scratch.  Many of the technologies 
and resources needed for rural broadband already exist and, with American ingenuity, will become faster 
and more powerful in the years to come.  High-capacity fiber networks—once found only in dense urban 
cores—have been redesigned for residential use, and their performance continues to increase.  Cable 
networks are being upgraded to a platform that will support data rates of up to 160 megabits per second 
(Mbps).10 While issues remain, broadband over power lines (BPL) continues to emerge as a viable 
technology option.11 Wireless technologies are extending broadband into areas unreachable by cables and 
wires, and enabling consumers to be connected while on the move.  Many wireless Internet service 
providers (ISPs) have used the IEEE 802.11 wireless local area network technologies (commonly known 
as Wi-Fi) to offer fixed wireless broadband services in areas not reached by wireline technologies.12  
Wireless providers have been launching new broadband technologies that allow subscribers to access the 
Internet, while mobile, at speeds that are beginning to rival those on landline networks.13 We expect to 
  
9 See H.R. REP. NO. 110-256, pt. 1, at 231 (2007) (stating that businesses “from banks, to automotive repair shops, 
to new age technology industries need broadband service to compete in the digital global marketplace”).
10 DOCSIS (Data Over Cable Service Interface Specification) 3.0, which is capable of supporting downstream rates 
up to 160 Mbps or higher and upstream data rates of 120 Mbps, is being rolled out in cable systems across the 
country.  See Press Release, CableLabs, CableLabs Issues DOCSIS 3.0 Specification Enabling 160 Mbps (Aug. 7, 
2006), available at http://www.cablelabs.com/news/pr/2006/06_pr_docsis30_080706.html.  
11 See Amendment of Part 15 Regarding New Requirements and Measurement Guidelines for Access Broadband 
over Power Line Systems; Carrier Current Systems, Including Broadband Over Power Line Systems, ET Docket 
Nos. 04-37, 03-104, Report and Order, 19 FCC Rcd 21265, 21266, paras. 1–2 (2005).  But see ARRL Comments at 
3-6 (noting that there are obstacles to deployment of BPL systems that will need to be addressed, including 
interference with amateur radio and other licensed services).   
12 See WIRELESS BROADBAND ACCESS TASK FORCE, FCC, CONNECTED & ON THE GO 31–32 (2005), available at
http://hraunfoss.fcc.gov/edocs_public/attachmatch/DOC-257247A1.pdf (WIRELESS BROADBAND ACCESS TASK 
FORCE REPORT).
13 For example, some Code Division Multiple Access (CDMA) carriers have deployed 1xEV-DO (EV-DO) Revision 
A (Rev A) technology across their networks, which has average download speeds between 600 kilobits per second 
(kbps) and 1.4 Mbps, and average upload speeds between 350 and 800 kbps.  In addition, the data rates offered by 
one mobile WiMAX service providers average between 2 and 4 Mbps downstream and between 500 kbps and 1.5 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
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see further advancements on the wireless broadband front as wireless service providers begin to build out 
networks using advanced technologies—such as Long Term Evolution (LTE) or Worldwide 
Interoperability for Microwave Access (WiMAX)—that support data rates that may exceed 100 Mbps.14  
Finally, satellite broadband, with its near ubiquitous coverage and downstream data rates between 512 
kbps and 5 Mbps, can provide a much-needed connection in rural areas, especially where other broadband 
solutions are not viable for technical or other reasons.15  
11. The solutions for rural broadband should reflect consideration of the full range of 
technological options available, and should not elevate the need for short-term progress over longer-term 
objectives.  Rural broadband likely will include a variety of different technologies that together can 
support the state-of-the-art, secure, and resilient broadband service that should be our goal for rural 
America, just as it is for the non-rural parts of the nation.16 However the rural networks are configured, 
they should be designed on principles of durability, reliability, openness,17 scalability, and interoperability 
so that they can evolve over time to keep pace with the growing array of transformational applications 
and services that are increasingly available to consumers and businesses in other parts of the country.
12. Although we are at an early stage in the national effort, the Report makes a number of 
recommendations that I hope will facilitate the rapid and widespread buildout of state-of-the-art 
broadband access facilities to every street corner and winding road, and every home and business in 
America.  Such a transformation will rival the building of the roads, canals, and ports that made 
commerce possible in pre-Civil War America; the transcontinental railroads that made us a continental 
power in the late nineteenth century; the national highway system that opened the way for rapid 
transportation and demographic migration in the last century; and the immense efforts to extend telephone 
and electrical service to the far corners of America.  Technology, and the ability to be connected, can be 
an important part of addressing many of the problems rural America faces by, for example, enabling a 
student at a rural high school to participate in a seminar offered at a distant college, letting a patient in a 
rural clinic be examined by a specialist located in an urban hospital, or allowing a farm family to use a 
  
(...continued from previous page)
Mbps upstream.  See Implementation of Section 6002(b) of the Omnibus Budget Reconciliation Act of 1993; Annual 
Report and Analysis of Competitive Market Conditions with Respect to Commercial Mobile Services, WT Docket 
No. 08-27, Thirteenth Report, DA 09-54, paras. 134–52 (WTB rel. Jan. 16, 2009) (Thirteenth CMRS Competition 
Report); Sascha Segan, Sprint Xohm (Mobile WiMax), PC MAGAZINE, Oct. 10, 2008, 
http://www.pcmag.com/article2/0,2817,2331483,00.asp.
14 LTE can support up to 58 Mbps for upper link transmission and 173 Mbps for downlink transmission with 20 
megahertz of spectrum and a 2x2 Multiple Input Multiple Output (MIMO) antenna structure.  See RYSAVY 
RESEARCH AND 3G AMERICAS, EDGE, HSPA AND LTE—THE MOBILE BROADBAND ADVANTAGE 16 (Sept. 2007), 
available at http://www.3gamericas.com/pdfs/2007_Rysavy_091007.pdf.  Initial versions of the mobile WiMAX 
technology can support peak downlink data rates up to 63 Mbps and peak upper link data rates up to 28 Mbps in a 
10 MHz channel. See Mobile WiMAX – Part I: A Technical Overview and Performance Evaluation, Mobile WiMAX 
Forum, August 2006, at 10, available at 
http://www.wimaxforum.org/technology/downloads/Mobile_WiMAX_Part1_Overview_and_Performance.pdf (last 
visited May 19, 2009).
15 There are currently three licensed satellite operators providing satellite-based broadband Internet access services.  
See HughesNet, High Speed Internet Service Plans and Pricing, http://go.gethughesnet.com/plans.cfm (last visited 
April 13, 2009) (showing list of HughesNet service packages ranging from 1-5 Mbps downstream and 128-300 kbps 
upstream); WildBlue Communications, Detailed Package Comparison Chart, 
http://www.wildblue.com/getWildblue/details.jsp (last visited May 19, 2009) (showing list of WildBlue service 
packages ranging from 512 kbps-1.5 Mbps downstream and 128-256 kbps upstream); Starband Inc., New Starband 
Nova Series, http://starband.com/services/ (last visited April 13, 2009).
16 See, e.g., CFA/CU Comments at 2.   
17 See infra Part VI.B (Network Openness).
REPORT ON A RURAL BROADBAND STRATEGY
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smart grid to reduce its energy consumption.18 Thus, delivering ubiquitous broadband to rural areas will 
help to restore economic growth and opportunity for Americans residing and working in those areas.  
II. OVERVIEW OF RECOMMENDATIONS
13. Congress directed the Chairman of the Commission to submit this Report to Congress, 
and I am pleased to do so.  I believe the Commission should do more such reports for Congress—not 
establishing policies that require Commission approval—but putting forth recommendations, ideas, and 
options to advise Congress, government, and the public as they consider these important issues.  I look 
forward to continuing to work on these issues with my colleagues and Congress and trust that this Report 
will help inform the discussion and provide a building block as the Commission develops its national 
broadband plan.  In light of all this, the Report makes the following recommendations: 
¨ Coordination of Rural Broadband Efforts. Increasing coordination—among federal agencies; 
Tribal, state, and local governments; and community groups and individuals—is a critical preliminary 
step towards ensuring that the various government programs accomplish their broadband goals and 
objectives in an efficient and effective way.  
· Improving Federal Agency Coordination.  
o The federal interagency working group, formed by the Obama administration to 
coordinate the administration’s broadband agenda, should continue its ongoing efforts to 
enhance interagency coordination of rural broadband initiatives; and  
o The Commission and other federal agencies should consider developing their own “rural 
broadband agendas” consistent with the national broadband plan.
· Other Coordination Efforts.  
o Tribal Coordination. To ensure a truly comprehensive strategy for addressing rural 
broadband deployment and adoption, it is important to maintain a continuing dialogue to 
address the unique issues presented in Tribal areas.  As an integral part of their rural 
broadband initiatives:
(1) Federal agencies should consider how to maximize existing programs to 
improve coordination with Tribal governments; and 
(2) The Commission should consult with Tribal governments pursuant to its 
Tribal Policy Statement in developing its national broadband plan and, in 
particular, in developing the aspects of that plan that affect broadband 
deployment and subscribership specifically on Tribal lands.
o State Coordination. The Commission and its state counterparts should take advantage 
of existing coordination mechanisms, such as the Federal-State Joint Conference on 
Advanced Services (Joint Conference).  The Joint Conference should: 
(1) Provide the Commission with its own recommendations for improving 
federal-state coordination regarding rural broadband; 
(2) Include in its recommendations proposals for federal-state coordination to 
address and ameliorate the unique challenges presented to rural minority 
communities and persons with disabilities residing in rural areas; and
  
18 See Benton Foundation Comments at 16 (stating that in a smart grid, information flows within a customer’s house 
to thermostats, appliances, and other devices, and from the house back to the utility and that a smart grid includes 
smart meters, smart appliances, renewable energy resources, and energy efficiency resources).
REPORT ON A RURAL BROADBAND STRATEGY
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(3) Compile an inventory of successful state and local projects and “best 
practices.”   
o Coordination with Communities. In order to be successful in coordinating existing 
federal programs concerning rural broadband or rural initiatives, it is also critical that the 
federal government collaborate and coordinate with community and advocacy 
organizations in rural areas.  The minority, disability, and low-income communities in 
rural areas face particular challenges.  Federal agencies should work closely with 
organizations:
(1) To help ensure that all members of minority groups residing in rural areas 
have access to robust and affordable broadband services and that minority-owned 
businesses participate fully in the buildout of broadband infrastructure in those 
areas.  
(2) Representing persons with disabilities to help ensure that they have affordable 
access to broadband services capable of supporting the full array of applications 
responsive to their needs.
(3) That serve low-income residents to ensure the opportunities that affordable 
broadband offers this community do not go unrealized.
· Streamlining and Improving Existing Federal Programs. All relevant federal agencies should 
review their programs to identify what internal barriers, if any, may be making rural broadband 
deployment more difficult.  
· Promoting Efficient Use of Government Funds and Resources.  Federal agencies should 
review their non-broadband-related programs that involve rural issues to assess whether those 
programs provide opportunities to promote rural broadband deployment. 
· Coordinating Program Criteria.  So that dissimilar definitions and criteria across related or 
complementary programs do not unnecessarily hinder interagency coordination, federal agencies 
involved in rural broadband should coordinate key terminology (e.g., rural) across programs, 
consistent with their legislative mandates. 
· Government Websites.  One barrier to rural broadband deployment and adoption is a lack of 
easily-accessible and coordinated information about government resources available for 
promoting broadband.  To help address this problem, we recommend that the Commission 
expand its website to include a comprehensive set of links to all federal government programs 
related to rural broadband.  We also suggest expanding the Commission’s and USDA’s existing 
“Broadband Opportunities for Rural America” website to include a comprehensive list of all 
federal government programs related to rural broadband.  
¨ Assessing Broadband Needs. Congress directed that this Report make recommendations “to 
address both short- and long-term needs assessments” for rural broadband.  The Report does this by 
addressing the challenges of rural broadband today and the needs of rural broadband going forward.   
· Technological Considerations. Every rural area presents its own special challenges, and a 
particular technological solution may be well-suited to one situation and poorly-suited to another.
Decision makers therefore should proceed on a technology-neutral basis—by considering the 
attributes of all potential technologies—in selecting the technology or technologies to be 
deployed in a particular rural area.
· Information on Broadband Availability.  One significant challenge to ubiquitous broadband 
deployment in rural areas is obtaining accurate information on broadband service and 
infrastructure availability and the demand for broadband services.  Pursuant to the Broadband 
Data Improvement Act (BDIA) and the Recovery Act, the Commission should work to collect 
REPORT ON A RURAL BROADBAND STRATEGY
7
this information to better inform decision making, in coordination with the administration, and 
Tribal and state governments.19
· Broadband Mapping. In the rural context, broadband mapping is a necessary tool for 
identifying and tracking broadband service availability and infrastructure deployment, yet it is 
only as accurate and reliable as its underlying data.  Pursuant to the Recovery Act and the BDIA, 
the Commission and the administration should continue their efforts to coordinate federal, Tribal, 
state, local, and private mapping efforts.
· Stimulating and Sustaining Demand for Broadband.  Various factors may affect demand for 
broadband services in rural areas, including a lack of knowledge regarding the benefits of Internet 
access, lack of training on how to use a computer, socioeconomic and demographic factors, and 
affordability.  To help stimulate and sustain demand for broadband services in rural areas, both 
public and private entities should consider developing consumer education and training 
initiatives, broadband affordability programs, and other incentives to achieve sustainable 
penetration rates.
· Addressing Network Costs.  Relying on market forces alone will not bring robust and affordable 
broadband services to all parts of rural America.  Therefore, all levels of government should 
explore ways to help overcome the high costs of rural broadband deployment.
¨ Overcoming Challenges to Rural Broadband Deployment.  Because the national broadband plan 
is not due until February 2010, it is prudent for the Commission to identify any pending and proposed 
Commission proceedings affecting rural broadband.  These pending proceedings include universal service 
reform, network openness, spectrum access, middle mile/special access reform, intercarrier compensation, 
access to poles and rights of way, tower siting, and video programming proceedings.  The Commission 
should consider all these proceedings as it develops the national broadband plan, balancing the desire to 
resolve these matters with the need to address rural broadband in the context of a much broader and 
forward-looking national broadband plan. Of particular note, I continue to support comprehensive reform 
of the universal service program.  It is of great interest to Congress, consumers, industry, and the 
Commission.  I have long held the view that it is time for universal service to meet the communications 
challenge of the 21st century—broadband deployment—just as it did the communications challenge of the 
20th century—telephone service.
¨ Status Report. To help inform Congress of any needed changes to the recommendations in this 
Report in light of additional efforts to address rural broadband issues, including the completion of the 
national broadband plan, the next Commission Chairman should consider completing a status report on 
rural broadband approximately one year from now.
III. BACKGROUND
A. Rural Broadband:  Why it Matters
14. Broadband Internet access, often on small, easy-to-use devices, is rapidly transforming 
the way we communicate, work, learn, and play.20 Touch-screen mobile devices, e-books, and Voice over 
Internet Protocol (VoIP) have become standard features in many people’s daily lives.  As broadband 
speeds have increased, we use the Internet to complete our education, receive medical care, communicate 
  
19 Broadband Data Improvement Act of 2008, Pub. L. No. 110-385, 122 Stat. 4097 (2008) (codified at 47 U.S.C. 
§§ 1301–04) (BDIA).  
20 Broadband connections have grown at a remarkable rate.  See INDUST. ANALYSIS & TECH. DIV., FCC, HIGH-
SPEED SERVICES FOR INTERNET ACCESS:  STATUS AS OF DECEMBER 31, 2007, at tbl. 2 (rel. Jan. 2009) (2009 HIGH 
SPEED REPORT) (showing that Internet connections with speeds exceeding 200 kbps in both directions grew from 4 
million in 2000 to 80 million in 2007).  
REPORT ON A RURAL BROADBAND STRATEGY
8
with our government, including on matters of public health and safety, run web-based businesses, and do 
our work.  In addition, we not only surf the web, send e-mail, form social networks, and download music 
and video, but also become ourselves creators of web-based content as we blog about local or world 
events, and become publishers in our own right.  
15. In rural areas, however, many Americans have no access to these applications and 
services, and by extension, to the global community.  Rural communities have long been unserved or 
underserved by broadband technology, but the full implication of this divide has only emerged as the 
Internet has become less and less a novelty, and more and more a necessity.  The Obama administration 
and Congress recognize that broadband access will benefit all Americans in much the same way that the 
nation as a whole benefited from our past successes in overcoming infrastructure challenges.  Bringing 
ubiquitous and affordable broadband services to rural America will improve the quality of education, 
healthcare, and public safety in rural America, among other benefits.  On a larger scale, ensuring that all 
Americans, including those in rural areas, have access to such services will help to improve America’s 
economy, its ability to compete internationally, and its unity as a nation.  
16. Deploying broadband throughout rural America will fundamentally benefit the nation’s 
economy.21 One study estimates that communities having access to mass-market broadband grew 
disproportionately in employment, the number of information technology-oriented businesses, and the 
number of businesses overall.22 Economic development in rural areas, in turn, will foster demand for 
broadband subscriptions, broadband-delivered content, and broadband-capable devices.  As with the basic 
telephone network, the more people that connect to the broadband network, the more value the network 
has for everyone on it, including initial users.23 And just as rural electrification created a new group of 
home appliance consumers, so will a broadband-connected rural America want Internet Protocol (IP)-
enabled phones, smart meters, telehealth, distance learning, video relay services, online music, streaming 
movies, interactive gaming, and a host of other broadband-related products and services.  Simply put, 
broadband buildout to rural Americans promotes and encourages sustained economic development, to the 
benefit of us all.  
17. The benefits of broadband extend particularly to small businesses in rural areas.  With 
broadband, running a small web-based business in a rural location becomes a reality.24 Craftspeople, 
particularly those with a national or international following, can deal directly with their customers—
quickly and without expensive middlemen.25 Local tourism authorities can more effectively market their 
  
21 See, e.g., CONNECTED NATION, THE ECONOMIC IMPACT OF STIMULATING BROADBAND NATIONALLY (2008), 
available at http://www.connectednation.com/_documents/Connected_Nation_EIS_Study_Full_ 
Report_02212008.pdf (finding that a 7% increase in broadband penetration to underserved areas could have a direct 
economic impact of $134 billion annually). 
22 WILLIAM H. LEHR et al., MEASURING BROADBAND’S ECONOMIC IMPACT 16 (2006), http://www.andrew.cmu.edu/ 
user/sirbu/pubs/MeasuringBB_EconImpact.pdf.  There are other examples of rural communities that have benefited 
from broadband by attracting large businesses to their area.  See, e.g., Cecilia Kang, Rural Riddle:  Do Jobs Follow 
Broadband Access?, WASH. POST, Apr. 23, 2009, at A1 (noting that Lebanon, Virginia was able to attract two large 
companies, creating 700 well-paying jobs for residents, after broadband was installed throughout the town, yet a 
neighboring town that also installed broadband failed to attract large businesses and only created a “handful” of 
jobs, though some local businesses benefited).
23 This is called a “network effect” and is discussed at note 297, infra. 
24 See, e.g., Black Dinah Chocolatiers, Welcome, http://www.blackdinahchocolatiers.com (last visited May 18, 
2009) (linking to a gourmet chocolate business run from an island off the coast of Maine).
25 For example, craftspeople can build and design their own Internet store on eBay.  The eBay website allows 
merchants to track sales, provides discounting strategies, and provides a way to promote their stores on eBay or 
other Internet sites.  See eBay, Stores, http://pages.ebay.com/storefronts/shop.html (last visited May 14, 2009).  
Similarly, craftspeople can sell their goods on Amazon.com through the Amazon.com Marketplace.  See Amazon, 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
9
attractions to potential visitors, shopkeepers can better manage their inventories, and travel to commercial 
centers can be dictated more by efficiency than necessity.
18. It is clear that access to fixed and mobile broadband services also has the potential to 
enhance the efficiency and productivity of a number of agricultural activities in rural areas.  Farmers, 
particularly those with smaller operations or in more remote locations, can materially benefit from real-
time access to weather and crop reports and to databases of local and national agricultural extension
services.26 For example, farmers can be warned if there is a heightened risk of a plant blight, a livestock 
disease, or an insect infestation; examine the problem; and know immediately what they need to do to 
address it.27 They can call upon Internet-driven tools and applications to consult with experts and 
precisely calculate the additional inputs they might need to enable their fields to flourish and their animals 
to thrive—with less waste or risk to the environment.28 Detailed online market information can help 
farmers time the sales of their products more profitably.  Web-based interaction can help consumer-
focused farmers develop a personal relationship with their clientele to assist in bringing the right products 
to markets at the right time—saving time, fuel, and frustration.  
19. Broadband buildout to rural America also can enhance educational opportunities and the 
likelihood of academic achievement.  Students without access to broadband cannot do the same type of 
homework as their counterparts who enjoy access to broadband, and students in certain rural areas are 
often many miles away from advanced educational institutions, such as colleges and universities.  
Broadband can significantly improve the quality of education by providing students in rural America with 
the ability to do online research, interact with their teachers and schools from home, and obtain college 
credit and college degrees, even though they are not physically on campus.29  
  
(...continued from previous page)
Create a Product Detail Page, http://www.amazon.com/gp/help/customer/display.html/ 
ref=mm_sys_faq_create?nodeId=10683361 (last visited May 19, 2009).  Merchants can also create their own 
websites through several Internet service companies that provide a website template, an Internet address, and custom 
e-mail addresses for a monthly fee.  See, e.g., Homestead, http://www.homestead.com/ (last visited May 14, 2009). 
26 For example, the National Agricultural Statistics Service (NASS) provides weekly growing reports listing 
planting, fruiting, and harvesting progress and the overall condition of selected crops in major agricultural producing 
states.  This information is available via e-mail subscription to farmers.  See USDA, NASS, 
http://usda.mannlib.cornell.edu/MannUsda/viewDocumentInfo.do?documentID=1048 (last visited May 14, 2009). 
27 Weekly weather reports for 44 states are available from the National Agricultural Statistics Service.  The reports 
provide farmers with a summary of relevant information ranging from the number of days suitable for fieldwork, 
yearly comparisons to past harvests, and whether farmers were using alternative methods to maintain their crops. 
See USDA, NASS, Weekly Weather National Summary, 
http://usda.mannlib.cornell.edu/MannUsda/viewDocumentInfo.do;jsessionid=2889DCE2E86B04AD9EB296EC533
07AB1?documentID=1573 (last visited May 19, 2009).  See also ANIMAL AND PLANT HEALTH INSPECTION SERVICE,
USDA, FOOT-AND-MOUTH DISEASE (Feb. 2007), 
http://www.aphis.usda.gov/publications/animal_health/content/printable_version/fs_foot_mouth_disease07.pdf (last 
visited May 15, 2009) (providing a fact sheet on a particular disease).
28 For example, USDA provides reports and databases on dairy, poultry, and livestock, including chemical usage, 
losses due to animal death, and historical tracking records.  See USDA, National Agricultural Statistics Service, 
Historical Track Record—Livestock, http://usda.mannlib.cornell.edu/MannUsda/ 
viewDocumentInfo.do?documentID=1595 (last visited May 19, 2009). 
29 One non-profit organization has claimed dramatic results with its broadband efforts in one rural area.  The One 
Economy Corporation provides laptops and broadband connections throughout rural Greene County, North 
Carolina.  Among other noted improvements in student achievement, the program notes that the percentage of high 
school students applying to college was greatly improved from when the program began, and the high school 
dropout rate has been reduced.  See One Economy Corporation, Bring IT Home, http://www.one-
economy.com/sites/all/files/a_replicable_model.pdf  (last visited May 14, 2009). 
REPORT ON A RURAL BROADBAND STRATEGY
10
20. Bringing broadband to rural residents can also help improve healthcare.  Often, the full 
range of health care services is not available in rural areas, because vast distances and low population 
densities make access to care, particularly specialty care, uneconomic.  With sufficiently robust 
broadband services, clinics in rural areas can have access to facilities and specialists in more-densely 
populated areas.  At a time when rising health care costs are a national challenge, this ability to leverage 
our health care resources would benefit all Americans.  
21. Broadband also is essential to meeting our public safety and homeland security needs.  
Experience has made us acutely aware of the importance of communications in the event of an accident, 
natural disaster, or terrorist attack.  We also know that the Internet can continue to function during these 
types of disasters, providing more reliable communications for first responders and the public.30 First 
responders, public health officials, and government workers increasingly use broadband to share critical, 
time-sensitive public safety and security information with each other and with their communities.31 All 
Americans, including those in rural areas, must have access to broadband to be put on alert and kept in 
contact in the event of a local, state, or national emergency.
22. Broadband access to the Internet throughout rural America would be particularly valuable 
in assisting people with disabilities to realize their full potential.32 For example, broadband can allow 
individuals with hearing disabilities to use their computers and video equipment to communicate in real 
time in a visual and unfiltered manner, rather than on a delayed basis through a specialty device such as a 
TTY.  Broadband also can let distant sign-language interpreters assist these individuals with essential 
tasks, such as communicating with doctors or participating in business meetings.33 With broadband 
connections, people who are blind or visually impaired can use adaptive equipment that directs them to 
  
30 Benton Foundation Comments, Attach. at 28 (stating that on September 11, 2001, while 95% of cell phone calls 
made at 11:00 a.m. failed to get through, only 2% of Internet addresses remained off-line for an extended period, 
illustrating the Internet’s overall resilience).  
31 For example, today, some public safety answering points (PSAPs) can send a map showing a distressed caller’s 
location to the nearest fire department or police station or can alert Internet-connected devices to a hazardous spill or 
weather condition.  See DEP’T OF TRANSP., NEXT GENERATION 9-1-1 SYSTEM PRELIMINARY CONCEPT OF 
OPERATIONS 8–10, 17–19 (2005), http://www.its.dot.gov/NG911/pdf/ConOps.pdf; see also Department of 
Transportation, Research and Innovative Technology Administration, Intelligent Transportation Systems, Examples 
and Scenarios, http://www.its.dot.gov/NG911/ng911_ex.htm (last visited Apr. 13, 2009).
32 See Deborah Kaplan, former executive director of the World Institute on Disability, Broadband:  A Vital Link for 
People with Disabilities, available at http://www.wid.org/publications/broadband-a-vital-communications-link-for-
people-with-disabilities (last visited April 14, 2009).  Both Congress and the Commission have recognized the 
tremendous value that broadband networks bring in improving communications with and among people with 
disabilities and have undertaken efforts to bring more opportunities to them.  See, e.g., The Assistive Technologies 
Act of 2004, Pub. L. No. 108-364, 118 Stat. 1707 (2004) (codified at 29 U.S.C. §§ 3001-07) (supporting state efforts 
to improve provision of assistive technology to individuals with disabilities); The Americans with Disabilities Act of 
1990, Pub. L. No. 101-336, 104 Stat. 327, Title IV (1990) (codified at 47 U.S.C. § 225) (requiring common carriers 
to provide telecommunications relay services for individuals with hearing and speech disabilities); Amendment of 
the Commission’s Rules Governing Hearing Aid-Compatible Mobile Handsets; Petition of American National 
Standards Institute Accredited Standards Committee C63 (EMC) ANSI ASC C63®, WT Docket No. 07-250, First 
Report and Order, 23 FCC Rcd 3406 (2008) (adopting hearing aid compatibility requirements for mobile wireless 
devices); 47 C.F.R. § 64.601–06 (providing Commission’s telecommunications relay service rules).
33 The Benton Foundation urges the Commission to initiate and expand programs and policies that extend broadband 
to persons with disabilities, “those that are generally on the wrong side of the digital divide.”  Benton Foundation 
Comments at 32.  We also note that, in the recently released National Broadband Plan NOI, we sought comment on, 
among other things, what it means for a person with disabilities to “have access” to broadband capabilities, and 
whether, and if so, how, to ensure that the technical characteristics of current and future broadband networks align 
with the needs of disabled citizens.  See National Broadband Plan NOI, at para. 28.
REPORT ON A RURAL BROADBAND STRATEGY
11
the information on a web page that they are likely to find most useful.34 Broadband connections also can 
enable individuals who have difficulty walking to visit the library or shopping mall, to name two uses 
among many.
23. Furthermore, broadband offers potentially enormous environmental benefits.  Broadband 
network technology distributes information efficiently.  Its ubiquitous deployment and use would have 
immense potential to help create a greener planet through the miles not driven or flown.  Telecommuting, 
teleconferencing, and videoconferencing all could reduce drastically both commuting and general purpose 
travel, and the associated carbon emissions.35 Increased use of electronic documents lessens the need for 
paper, leaving more trees growing in forests.36 Broadband enabled smart-grid technologies help utilities 
balance their network loads more accurately, making energy distribution more efficient.37 E-commerce 
complements and simplifies physical distribution networks and can make both business and consumer 
transactions both more efficient and environmentally friendly.38  
24. Finally, broadband deployment in those rural areas where poverty is historical and 
structural is particularly important.39 Properly implemented, connection via broadband to the wider world 
offers a boost to people caught in a cycle of poverty.  The need for distance learning and telemedicine is 
most acute in such areas.  We must see that broadband infrastructure and the means to use it reach rural 
communities that have been redlined, neglected, or segregated from better-served areas.  
25. The many benefits to the public demonstrate the necessity of ensuring that robust and 
affordable broadband is available to all Americans.  Further, America’s economy depends on ensuring 
that all Americans, including those in rural areas, have access to broadband and are able to compete in 
this connected, global economy.  According to Dr. Vinton Cerf, in the future, billions of devices will be 
accessible through the Internet at ever-increasing speeds,40 using applications that, for the most part, have 
  
34 See American Foundation for the Blind, AFB Senior Site, Using Technology, http://www.afb.org/seniorsite.asp? 
SectionID=67&DocumentID=3336 (last visited May 15, 2009).
35 JOSEPH P. FUHR JR. & STEPHEN B. POCIASK, AMERICAN CONSUMER INSTITUTE, BROADBAND SERVICES:
ECONOMIC AND ENVIRONMENTAL BENEFITS 2 (2007), http://www.theamericanconsumer.org/2007/10/31/broadband-
services-economic-and-environmental-benefits/.
36 JOSEPH ROMM et al., THE CENTER FOR ENERGY AND CLIMATE SOLUTIONS, THE INTERNET ECONOMY AND GLOBAL 
WARMING:  A SCENARIO OF THE IMPACT OF E-COMMERCE ON ENERGY AND THE ENVIRONMENT 5–6 (1999), 
http://www.p2pays.org/ref%5C04%5C03784/0378401.pdf (JOSEPH ROMM et al.).
37 See, e.g., Peter Slevin and Steven Mufson, Stimulus Dollars Energize Efforts To Smarten Up the Electric Power 
Grid, WASH. POST, Mar. 10, 2009, at A1.
38 JOSEPH ROMM et al. at 6–7.
39 See generally MMTC Comments.
40 See Youtube, Dr. Vinton G Cerf, Internet, Infinity and Beyond, http://www.youtube.com/watch?v=-4R9FeBh9Kc 
(last visited May 5, 2009); see also The Connections Show, Connections #52—History of the Internet:  Part III 
(Future), at 4:40–5:00 (posted Mar. 22, 2009), http://connections.thepodcastnetwork.com/2009/03/22/connections-
052-history-of-the-internet-part-iii-future/ (last visited May 5, 2009).  See also Carl Fussman, What I Have Learned: 
Vint Cerf., ESQUIRE, Apr 24, 2008, http://www.esquire.com/features/what-ive-learned/vint-cerf-
0508?click=main_sr; Youtube, Vint Cerf on the Internet’s Future, at :38–:58 (posted Sept. 17, 2007), 
http://www.youtube.com/watch?v=Yv6igXryFSw&feature=related (last visited May 5, 2009).  Dr. Vinton G. Cerf is 
Vice President and Chief Internet Evangelist for Google where he identifies new Internet applications.  He is co-
creator of TCP/IP (with Robert Kahn) and is widely known as “Father of the Internet.”  See National Institute of 
Standards and Technology, Visiting Committee on Advanced Technology, Vinton G. Cerf, 
http://www.nist.gov/director/vcat/cerf.htm (last visited May 19, 2009).  
REPORT ON A RURAL BROADBAND STRATEGY
12
yet to be conceived.41 Broadband is the interstate highway of the 21st century for small towns and rural 
communities, the vital connection to the broader nation and, increasingly, the global economy.  Our 
nation as a whole will prosper and benefit from a concerted effort to bring broadband to rural America.  
B. The State of Broadband in Rural Areas 
26. Our efforts to bring robust and affordable broadband to rural America begin with a 
simple question:  what is the current state of broadband in rural America?  We would like to answer this 
question definitively, and detail where broadband facilities are deployed, their speeds, and the number of 
broadband subscribers throughout rural America.  Regrettably, we cannot.  The Commission and other 
federal agencies simply have not collected the comprehensive and reliable data needed to answer this 
question.  As the Commission has indicated, more needs to be done to obtain an accurate picture of 
broadband deployment and usage in America, including its rural areas.42 As discussed below, Congress 
recently enacted legislation that will help us obtain more complete data on the deployment and adoption 
of broadband service:  the BDIA and the Recovery Act.43  
27. While these two pieces of commendable legislation together will improve the federal 
government’s ability to collect broadband data, the information we have today demonstrates that 
broadband service in rural America is generally inadequate.44 Although inexact, currently available data 
and studies suggest that, in comparison to non-rural areas, broadband services are less extensively 
adopted in rural areas generally, and that this stems in part from less extensive deployment of broadband 
capability in rural areas.  The 2008 Pew Broadband Adoption Study found that a much larger proportion 
of urban and suburban residents have broadband at home (57-60 percent) than rural residents do (38 
percent).45 And according to NTIA, while 54 percent of urban households had broadband in the home in 
2007, only 39 percent of rural households did.46 Mobile broadband networks also cover more urban than 
rural areas.  We estimate that, although mobile broadband networks cover 95.6 percent of the total U.S. 
  
41 See Youtube, Vint Cerf on the Internet’s Future, at 2:20–3:15 (posted Sept. 17, 2007), 
http://www.youtube.com/watch?v=Yv6igXryFSw&feature=related (last visited May 5, 2009).
42 See, e.g., Development of Nationwide Broadband Data to Evaluate Reasonable and Timely Deployment of 
Advanced Services to All Americans, Improvement of Wireless Broadband Subscribership Data, and Development of 
Data on Interconnected Voice over Internet Protocol (VoIP) Subscribership, WC Docket No. 07-38, Notice of 
Proposed Rulemaking, 22 FCC Rcd 7760, 7765–66, para. 10 (2007).  
43 See supra Parts III.D (Recent Legislative Developments) & V.B (Assessment of Broadband Deployment).
44 See, e.g., CFA/CU Comments at 2 (“[R]ural Americans are severely disadvantaged in broadband access”).  
45 See PEW INTERNET & AMERICAN LIFE PROJECT, HOME BROADBAND ADOPTION 2008, at 3 (2008), available at
http://www.pewinternet.org/~/media/Files/Reports/2008/PIP_Broadband_2008.pdf (2008 PEW BROADBAND 
ADOPTION STUDY).  The survey was conducted by phone from April 8, 2008 to May 11, 2008 among 2,251 
American adults, 1,153 of whom were broadband users.  Id. at 22.      
46 Compare NTIA, HOUSEHOLDS USING THE INTERNET IN AND OUTSIDE THE HOME, BY SELECTED 
CHARACTERISTICS: TOTAL, URBAN, RURAL, PRINCIPAL CITY, 2007 (2008), tbl. 3, 
http://www.ntia.doc.gov/reports/2008/Table_HouseholdInternet2007.pdf (last visited Apr. 10, 2009) (NTIA,
HOUSEHOLDS USING THE INTERNET) (providing broadband statistics for urban areas from the U.S. Census Bureau’s 
(Census Bureau) Current Population Survey) with id. tbl. 5 (providing broadband statistics for rural areas).  State 
surveys also suggest that people who live in rural areas lack broadband service more often than urban dwellers do, 
but results vary widely, and, again, may reflect different definitions and methodologies.  See, e.g., CONNECT OHIO 
TECHNOLOGY ASSESSMENT:  EXECUTIVE SUMMARY at 9 (June 27, 2008), 
http://connectoh.org/_documents/Res_OHExecutiveSummary06252008_FINAL.pdf; CALIFORNIA BROADBAND 
TASK FORCE, THE STATE OF CONNECTIVITY, BUILDING INNOVATION THROUGH BROADBAND, FINAL REPORT at 18 
(Jan. 2008), www.calink.ca.gov/pdf/CBTF_FINAL_Report.pdf (last visited Apr. 1, 2009) (CALIFORNIA 
BROADBAND REPORT). 
REPORT ON A RURAL BROADBAND STRATEGY
13
population, they cover only 82.8 percent of the U.S. rural population compared with 99.0 percent of the 
non-rural population.47  
28. We also are unable to provide the state of broadband deployment in rural areas among, 
for example, minorities, those with disabilities, and those residing on Tribal lands.  Broadband 
deployment to these groups is of particular concern because they may benefit the most from broadband 
deployment and adoption.48 With respect to minorities, the data we have show that minorities typically 
have lower adoption rates than non-minorities.49 Low subscription rates may be explained partly by a 
lack of computer ownership.50 However, the most accurate marker for low broadband adoption is most 
likely low income.51
29. Similarly, we know even less about broadband access in rural areas for people with 
disabilities, in part because we lack properly disaggregated information.  Some research data show that 
fewer than 30 percent of people with disabilities over the age of 15 use the Internet; by comparison, more 
than 60 percent of those with no disability use the Internet.52 Moreover, data also show that people with 
disabilities, both inside and outside metropolitan areas, use the Internet less than their geographic 
counterparts with no disability, and people with disabilities outside metropolitan areas have a very low 
rate of Internet use (26.7 percent).53  
30. Many Tribal lands also lack broadband service, but we lack data describing availability or 
subscribership.54 Many Native Americans are still struggling to receive basic telephone service and, 
  
47 These estimates are based on an analysis of network coverage maps submitted to the Commission by American 
Roamer in February 2009 and on 2000 Census Block information.  American Roamer is an independent consulting 
firm that tracks service provision for mobile voice and mobile data services.  The Commission describes how it 
analyzes mobile network coverage in the Thirteenth CMRS Competition Report.  See Thirteenth CMRS Competition 
Report, paras. 37–39, 144–47.
48 See, e.g., Benton Foundation Comments, Attach. at 32; MMTC Comments at 2.
49 For example, the 2008 Pew Broadband Adoption Study found that African-Americans had a lower broadband 
adoption rate than similarly situated whites (43% versus 57%).  2008 PEW BROADBAND ADOPTION STUDY at 3.  
Connected Nation found a broadband adoption rate of 33% for rural minorities and 40% for rural non-minorities.  
See CONNECTED NATION, THE CALL TO CONNECT MINORITY AMERICANS: A CONNECTED NATION POLICY BRIEF, at 
1 (2009) (CONNECTED NATION POLICY BRIEF),
http://www.connectednation.org/_documents/cn_minority_policybrief_final_031609.pdf. Internet for Everyone 
reported that “40% of racial and ethnic minority households subscribe to broadband, while 55% of non-Hispanic 
white households are connected.”  INTERNETFOREVERYONE.ORG, ONE NATION ONLINE at 1 (2008), 
http://www.freepress.net/files/IFE_Brochure.pdf (last visited May 14, 2009).
50 See CONNECTED NATION POLICY BRIEF at 1 (showing computer ownership and subscription rates of 76% and 52% 
among Whites, 70% and 47% among Hispanics, and 65% and 46% among African-Americans); U.S. CENSUS 
BUREAU, COMPUTER AND INTERNET USE IN THE UNITED STATES:  2003, at tbl. A (2005) (showing that overall 62% 
of households have a computer compared to 44% of Hispanic households), 
http://www.census.gov/prod/2005pubs/p23-208.pdf. 
51 Overall, fewer than 35% of households earning a family income of less than $50,000 subscribe to broadband 
services, compared to 76% of households earning a family income more than $50,000.  NTIA, HOUSEHOLDS USING 
THE INTERNET at tbl. 1.  See also Connected Nation Comments at 9; Verizon Comments at 13.  
52 See JENIFER SIMPSON, TELECOMMUNICATIONS & TECHNOLOGY POLICY, AMERICAN ASSOCIATION OF PEOPLE WITH 
DISABILITIES (AAPD), FACTORS PROMOTING BROADBAND USE BY PEOPLE WITH DISABILITIES at 1 (2008), 
www.aapd.com/TTPI/Broadband_Policies_and__PWDs_by_Jenifer_Simpson.pdf. 
53 Id.  
54 For purposes of this Report, the term “rural areas” includes Indian Country, although not all of Indian Country is 
rural.  To the extent that sections of Indian Country are rural in nature, they are likely to face the same—and some 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
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based on the Commission’s data, have the lowest percentage of basic telephone service subscribers by 
group.55 Indeed, 2007 data from the Census Bureau’s Current Population Survey reveal that nationwide, 
American Indian/Alaskan Native households have a broadband subscription rate of only 30 percent, by 
far the lowest subscription rate among any ethnic group identified.56 The situation is likely to be even 
worse in rural areas.57  
31. Although we do not have accurate data on broadband deployment in rural America, 
MMTC presents one community, Weirwood, Virginia, and through Weirwood gives “rural broadband 
deployment” a human face.58 As MMTC describes it, Weirwood is an isolated rural community on 
Virginia’s Eastern Shore, on the site of a former cotton plantation.59 Weirwood is only a mile and a half 
from U.S. Route 13, along which lies a broadband Internet backbone.60 The residents of Weirwood, 
however—mostly African-American descendents of former slaves—lack access to broadband.  MMTC 
states that Weirwood has “absolutely no ability to raise internally” the funds needed to build a broadband 
node to the community from the existing backbone line.61 Pending acquisition of thorough, reliable, and 
disaggregated data, we glimpse through Weirwood the state of broadband deployment in impoverished 
rural areas. 
32. Even without detailed maps of broadband service availability, we know that Weirwood is 
not unique.  Whether we are discussing a historically African-American community like Weirwood, 
Tribal lands that even now lack access to voice telephone service, or individuals with disabilities whose
access to broadband is essential, overall, there needs to be an active federal governmental role if all 
Americans are to have access to robust and affordable broadband services.  The challenge we face is 
determining ways to adjust our efforts to ensure that the residents in places like Weirwood, or anywhere 
in rural America, are able to take advantage of the opportunities that come with broadband.  As we have 
  
(...continued from previous page)
additional—difficulties in achieving increased broadband deployment as faced by “rural areas.”  Generally, we 
recognize that Indian Country is politically distinct and as a result historical and legal circumstances pose unique 
barriers to expanded broadband deployment.  “Indian Country” means:  (a) all land within the limits of any Indian 
reservation under the jurisdiction of the United States Government, notwithstanding the issuance of any patent, and, 
including rights-of-way running through the reservation; (b) all dependent Indian communities within the borders of 
the United States whether within the original or subsequently acquired territory thereof, and whether within or 
without the limits of a state; and (c) all Indian allotments, the Indian titles to which have not been extinguished, 
including rights-of-way running through the same.  18 U.S.C. § 1151. For the purpose of this document Indian 
Country also includes Alaska Native Villages, Native Hawaiian Homeland, and Trust lands.  While section 1151 is a 
criminal statute, its definition of Indian Country applies in the civil context as well.  In this Report, we use “Indian 
Country,” “Tribal areas,” and “Tribal lands” interchangeably.
55 See INDUS. ANALYSIS & TECH. DIV., FCC, TRENDS IN TELEPHONE at tbl. 16.5 (2008), 
http://hraunfoss.fcc.gov/edocs_public/attachmatch/DOC-284932A1.pdf (2008 TRENDS IN TELEPHONE); Standing 
Rock Sioux Tribe Comments at 2 (discussing comparable lack of basic telephone service for Indian households). 
56 NTIA, HOUSEHOLDS USING THE INTERNET at tbl. 1.
57 For example, whereas 39.6% of American Indian/Alaskan Native urban households using the Internet subscribe to 
broadband service, only 16.9% of American Indian/Alaskan Native rural households using the Internet subscribe to 
broadband service. Id. at tbls. 3, 5. 
58 MMTC Comments at 2–3; see also Letter from Jocelyn Tate, Chair, Rural Broadband Working Group, Minority 
Media and Telecommunications Council, to Marlene H. Dortch, Secretary, FCC, GN Docket 09-29, at 1 (filed Mar. 
30, 2009). 
59 MMTC Comments at 2.  
60 Id.
61 Id. at 2–3.
REPORT ON A RURAL BROADBAND STRATEGY
15
done in the past, America will overcome our broadband infrastructure challenges and reach our goal of 
providing broadband to all Americans, including those in rural areas.  
C. America Overcomes Its Infrastructure Challenges
33. From the country’s earliest days, building the nation’s infrastructure has required federal 
resources and leadership, and this federal role continues.  In generations past, the United States has faced 
and solved the challenges of connecting a vast and growing nation.  In its earliest days, the young republic 
subsidized the delivery of newspapers by having the Postal Service deliver them for a fraction of the 
postal rate for letters.  In the 1800s, the federal government partnered with private industry to lay the first 
transcontinental railroad.  Beginning in the 1930s, the Rural Electrification Administration (REA) and its 
successor agency, the RUS financed hundreds of locally-owned utility cooperatives, enabling them to 
bring electric power and telephone service to rural America.  The next generation saw the federal 
government work with the states to build the interstate highway system. Federal agencies also cooperated 
with scientists and universities, first to seed the Internet and later to grow its first backbone.  At their 
inceptions, some of these projects were controversial.  Many considered them too expensive; others 
doubted their efficacy.  Today, few would question their value, but each of these undertakings depended 
on a strong and coordinated national vision.  
1. The Postal System and Newspapers
34. America’s founders believed that a postal system—the communications network of the 
eighteenth century—was vital to a democracy where people would govern themselves.  The federal 
government passed laws and advanced policies to bring postal service even to remote areas of the 
country.  From the United States government’s early actions, we know the importance it attached to the 
postal system and the newspaper industry.  As Benjamin Rush wrote, “[f]or the purpose of diffusing 
knowledge, as well as extending the living principle of government to every part of the united states—
every state—city—county—village—and township in the union, should be tied together by means of the 
post-office. . . .  It should be a constant injunction to the postmasters, to convey newspapers free of all 
charge for postage.  They are not only the vehicles of knowledge and intelligence, but the centinels of the 
liberties of our country.”62  
35. To that end, President Washington signed into law the Post Office Act of 1792, which not 
only established the U.S. Postal Service, but also heavily subsidized newspaper delivery and exchange.63  
Abandoning the principle that each post office must be self-sustaining, Congress used the more-
established post offices to subsidize postal roads and offices in remote areas of the expanding nation.64 In 
less than fifty years, this prescient national vision had created the greatest postal system and news 
network in the world.65 Newspapers, easily obtainable because of discounted postage rates, enjoyed 
  
62 See BENJAMIN RUSH, ADDRESS TO THE PEOPLE OF THE UNITED STATES (1787), available at 
http://teachingamericanhistory.org/library/index.asp?document=1779; see also THE FEDERALIST NO. 84, at 517 
(Alexander Hamilton) (Clinton Rossiter ed., 1961) (foreseeing that “public papers will be expeditious messengers of 
intelligence to the most remote inhabitants of the Union”).
63 “The 1792 postal law, modified slightly in 1794, allowed newspapers—regardless of size, weight, or advertising 
content—to circulate within one hundred miles, or anywhere in the state of publication, for 1 cent; those mailed 
outside the state and beyond one hundred miles paid 1.5 cents.  Letter postage, in contrast, was divided into nine 
zones, ranging from a minimum of 6 cents per sheet for delivery up to thirty miles to a maximum of 25 cents per 
sheet for any distance beyond 450 miles. . . .  The privilege accorded the press was striking, especially considering 
the differences in size.”  See STEVEN L. VAUGHN, ED., ENCYCLOPEDIA OF AMERICAN JOURNALISM 399 (2007).  
64 Id. 
REPORT ON A RURAL BROADBAND STRATEGY
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rapidly expanding subscribership, leading to the creation of still more newspapers.66 The young 
government’s policy quickly built a delivery system that rapidly expanded the newspaper industry, did 
not run a deficit, and reached “towns and villages deep in the interior” of the country.67
2. The Transcontinental Railroad
36. A visionary public-private partnership also produced the world’s first transcontinental 
railroad.68 In 1862, in a nation divided by civil war, President Lincoln signed the Pacific Railway Act to 
connect gold-rich California to the Union.69 Combining government bonds and land grants, the Pacific 
Railway Act commissioned two start-up rail companies to build the line:  the Central Pacific starting from 
the west, and the Union Pacific, starting from the east.70 In 1869, six years after the project began, a 
transcontinental rail line connected America across its harsh backland and challenging terrain, allowing 
travelers to go coast-to-coast in seven days.  The next transcontinental railway lines would not be 
completed until 12 years later.71
3. Rural Electrification
37. Today we take the pervasiveness of electricity largely for granted, but in 1936, electricity 
reached only 11.6 percent of U.S. farms.72 Private investment had dried up as a result of the Depression, 
  
(...continued from previous page)
65 See PAUL STARR, THE CREATION OF THE MEDIA:  POLITICAL ORIGINS OF MODERN COMMUNICATIONS 86–90 
(2004) (CREATION OF THE MEDIA).  The number of U.S. post offices per 100,000 residents skyrocketed from 4.5 in 
1775 to 74 in 1828.  This 1828 number far exceeded the post offices per 100,000 persons in Great Britain at the 
time, 17, and France, 4.  Id. at 87–88.  In the mid-1800s, the French authorized a new post office only where it could 
generate $200 in revenue annually, a principle that would have closed 90% of the post offices in the United States.  
RICHARD R. JOHN, SPREADING THE NEWS:  THE AMERICAN POSTAL SYSTEM FROM FRANKLIN TO MORSE 52 (1996).
66 See CREATION OF THE MEDIA at 87–88. British historian Michael G. Mulhall claimed that by 1840 the total 
weekly circulation of newspapers for the 17 million residents of the United States surpassed the weekly circulation 
for all of Europe, which had 233 million inhabitants at the time. Id.; MICHAEL G. MULHALL, THE PROGRESS OF THE 
WORLD 90 (Adamant Media Corp. 1998) (1880).  
67 See CREATION OF THE MEDIA at 86. 
68 See DEBORAH CADBURY, DREAMS OF IRON AND STEEL 153 (2005). 
69 See Pacific Railway Act of 1862, ch. 120, 12 Stat. 489 (1862) (Pacific Railway Act), available at
http://memory.loc.gov/cgi-bin/ampage?collId=llsl&fileName=012/llsl012.db&recNum=520 (last visited Apr. 28, 
2009).  The Pacific Railway Act also commissioned a transcontinental telegraph, which was built alongside the 
transcontinental rail line.  See id. at 490–92.  A telegraph network serving much of the country had emerged in the 
1840s and 1850s out of commercial need, in part due to the large newspaper industry that the country had created.  
See CREATION OF THE MEDIA at 169–71.
70 Kathy Weiser, Legends of America, Old West Legends (Feb. 2009), http://www.legendsofamerica.com/rr-
railroadcompanies.html (last visited Apr. 24, 2009) (Weiser, Old West Legends).  In 1885, the Central Pacific 
Railroad was leased by the Southern Pacific Company, though it technically remained a corporate entity until 1959 
when it was formally merged into Southern Pacific, which in turn formally became a part of Union Pacific in 1996.  
See STUART DAGGETT, CHAPTERS ON THE HISTORY OF THE SOUTHERN PACIFIC 153 (1922); Weiser, Old West 
Legends.  
71 The Atchison, Topeka, and Santa Fe; Southern Pacific; and Northern Pacific lines were completed between 1881 
and 1883.  Weiser, Old West Legends.
72 RUS, USDA, A BRIEF HISTORY OF THE RURAL ELECTRIC AND TELEPHONE PROGRAMS at A-1 (1982), 
http://www.rurdev.usda.gov/rd/70th/rea-history.pdf (last visited Apr. 20, 2009) (A BRIEF HISTORY OF THE RURAL 
ELECTRIC AND TELEPHONE PROGRAMS).
REPORT ON A RURAL BROADBAND STRATEGY
17
and private utility companies believed that rural, low-density areas were insufficiently profitable.73 In 
response, President Franklin Roosevelt signed the Rural Electrification Act, envisioning a nationwide 
electric power generation, transmission, and distribution network.  The Act created the REA, which 
financed rural electrification through federal low interest rate loans and loan guarantees.74 Hundreds of 
locally-owned utility cooperatives formed across rural America and became the chief mechanism to 
compensate for the lack of private investment in low-profit rural areas.75 The project was wildly 
successful; nearly 100 percent of U.S. farms and rural households now have electrical services.76 The 
early successes of the rural electrification program led Congress in 1949 to expand the REA’s mission to 
include the financing of rural telephone networks.  People in rural areas would not have adequate, 
dependable, or urban-quality telephone service without federal government initiative and support.77  
38. The REA public-private partnership is a distinguished chapter in the economic 
development of the United States.  It transformed rural life by boosting the productivity of rural farms and 
businesses, and allowing rural families to stay connected to the rest of the nation through telephone calls 
and radio broadcasts.  Virtually all industries, businesses, and homes benefited.  A shortsighted policy 
that brought the convenience, innovation, and new opportunities of electricity and telephone service only 
to urban and a smattering of rural areas could have created two Americas of utility haves and have-nots.  
We cannot make this mistake today.  
4. The Interstate Highway System
39. The interstate highway system provides another example of the success public-private 
partnerships have had in stimulating infrastructure development.  The Federal-Aid Highway Act of 1956 
initially funded construction of the nation’s interstate highways.78 Funding continued until 1996, when 
the originally-planned network was near completion.79 State governments received the bulk of the funds, 
owned the interstate highways, and awarded contracts to the private sector to construct the segments that 
lay within their boundaries.  President Eisenhower, recognizing the capacity of a highway system to unify 
the country, said of the project, “[t]ogether, the uniting forces of our communication and transportation 
  
73 Id.
74 REA was RUS’s predecessor.
75 USDA, USDA MARKS 70TH ANNIVERSARY OF LANDMARK RURAL LEGISLATION (2005), 
http://www.rurdev.usda.gov/rbs/pub/jul05/70th.htm (last visited Apr. 20, 2009).  In the words of Wally Beyer, 
former administrator for the Utilities Program, during 1999 Congressional testimony, “Our agency exists in large 
part because the commercial marketplace was unable or unwilling to serve many rural Americans at a price that was 
affordable and conducive to economic development.”  As of 2005, about 37 million people in 47 states still received 
their electricity through cooperatives. Id. Of the rural electric systems established and supported by the 
approximately $57 billion dollars in USDA debt financing between 1935 and 2000, about 96% were nonprofit 
cooperatives owned and operated by the consumers they served.  RUS, USDA, CONNECTING RURAL AMERICA
(2000), http://www.rurdev.usda.gov/rd/pubs/pa1684.pdf.
76 A BRIEF HISTORY OF THE RURAL ELECTRIC AND TELEPHONE PROGRAMS at A-1. 
77 Id.  The 2002 Farm Bill established the USDA Rural Development Broadband program under a similar debt 
financing system.  USDA, USDA RURAL DEVELOPMENT:  BRINGING BROADBAND TO RURAL AMERICA 4 (2007),
http://www.rurdev.usda.gov/rd/pubs/RDBroadbandRpt.pdf.
78 Facts on the construction, funding, and ownership of the interstate highways are available at the Department of 
Transportation website.  U.S. Department of Transportation, Federal Highway Administration, History of the 
Interstate Highway System, http://www.fhwa.dot.gov/interstate/history.htm (last visited Apr. 20, 2009).
79 Id.
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systems are dynamic elements in the name we bear—United States.  Without them, we would be a mere 
alliance of many separate parts.”80  
40. A concrete goal and steadfast leadership helped overcome the challenges that faced the 
interstate highway project in its early years.  Many viewed it as an untried and risky project, immense in 
scope, impact, and cost.81 Advocates emphasized its necessity for economic growth and national unity.82  
As it became obvious that the private sector and state governments could not keep pace with the needs of 
the country, debate grew over how to build and fund the project.83 Different urban and rural needs and 
the existing patchwork of state-by-state approaches led to disagreements.84 Stakeholders bickered over 
the mix of federal and state subsidies, fuel and other excise taxes, tolls, and financing through loans and 
bonds.  Leaders were constantly challenged to adequately explain the project’s nuances and address 
public concerns in an informative and diplomatic manner.85 The project moved forward despite these 
disagreements, and eventually became the interconnected network of roadways that Americans use 
extensively every day.
5. The Internet and Internet Backbone
41. The story of the Internet also starts with federal vision and funding.  Responding to the 
1957 launch of Sputnik, President Eisenhower started the Advanced Research Projects Agency (ARPA, 
renamed the Defense Advanced Research Projects Agency (DARPA) in 1972).86 About a decade later, 
DARPA created ARPANet to link university computers, which created a network for communication 
among research centers.87 Although decentralized, the ARPANet used the existing AT&T phone system, 
with DARPA leasing dedicated lines to avoid cumbersome dial-up connections.88 The network 
infrastructure required that each participating research institution have dedicated computers to route the 
  
80 Press Release, White House, Address to Congress on the Interstate Highway System (Feb. 22, 1955), available at
http://www.eisenhower.utexas.edu/Research/Digital_Documents/InterstateHighways/New%20PDFs/1955_02_22_
Message_to_Congress.pdf.
81 W.L. Mertz and Joyce Ritter report that when President Eisenhower signed a 1954 highway act that preceded the 
main 1956 act he said, “That gets us started, but we must do more.”  See W.L. MERTZ & JOYCE RITTER, U.S. DEP’T 
OF TRANSP., BUILDING THE INTERSTATE 3–4 (2006), available at http://www.fhwa.dot.gov/infrastructure/build.pdf 
(last visited Apr. 24, 2009) (BUILDING THE INTERSTATE).
82 See Remarks of Senator Edward Martin, as reported by BUILDING THE INTERSTATE at 4–5.
83 See Remarks of Senator Francis Case at the 1957-1958 meeting of the American Association of State Highway 
Officials, as reported by BUILDING THE INTERSTATE at 20–21.
84 See id.
85 See Remarks of Rep. George Fallon at the 1957-1958 meeting of the American Association of State Highway 
Officials, as reported by BUILDING THE INTERSTATE at 22–23.  “An enlightened and understanding public is not only 
essential to the success of your local highway programs but of immense help to members of Congress in their efforts 
to shape acceptable legislation.  We need the support of the folks back home.”  See id. at 23.
86 See DARPA, DARPA History, http://www.darpa.mil/history.html (last visited Apr. 20, 2009); see also Mitch 
Waldrop, DARPA and the Internet Revolution, in DARPA:  50 YEARS OF BRIDGING THE GAP 83 (2008), available at 
http://www.darpa.mil/Docs/Internet_Development_200807180909255.pdf (last visited Apr. 28, 2009) (Waldrop, 
DARPA and the Internet Revolution).  
87 The four-node network was completed December 5, 1969, and connected the University of California, Los 
Angeles (UCLA), the Stanford Research Institute, the University of California–Santa Barbara, and the University of 
Utah.  UCLA sent the first transmission to the Stanford Research Institute on October 29, 1969 at 22:30 PST.  The 
first network e-mail using the “username@hostname” format was sent in 1971.  See Waldrop, DARPA and the 
Internet Revolution at 83.
88 “[N]o one master computer [was] responsible for sorting the packets and routing them to their destination.”  Id..
REPORT ON A RURAL BROADBAND STRATEGY
19
traffic—the interface message processor (IMP)—to save the universities’ main computers from having to 
handle the burden.89 In other words, DARPA was in charge of the backbone:  it designed and 
implemented the network, leased the dedicated data lines, and financed the construction and 
implementation of the IMPs.90 Each research institution was responsible for hooking up its computer to 
its respective IMP.91 By 1973, the number of entities using the network had grown from four to 40.92  
42. The federal government also played a role in the first Internet backbone when the 
National Science Foundation’s NSFNet became the de facto Internet backbone in 1986.93 The networks 
created by and in response to DARPA’s efforts, and the “internetworking” capability offered by TCP/IP, 
made NSFNet the first network available to every U.S. campus.94 Usage exploded.95 Because NSFNet 
could not be used for profit,96 the need for commercial Internet backbones arose.  As a result, several 
commercial, interconnecting, national Internet backbone networks comprise the Internet backbone 
today.97 Federal funding and visionary federal agencies created a noncommercial enterprise that would 
ultimately generate enormous sums of money, transform nearly every aspect of our daily lives, and 
change how the entire world communicates.  This is the heritage we bring to the current challenge of 
comprehensive broadband deployment in rural areas.
  
89 See id. 
90 See id. 
91 See id. 
92ARPANet was the first of several packet-switched DARPA networks that would be created in the following 15 
years.  In order to allow these networks to talk to each other, traffic from each discrete network would go through a 
gateway computer—a “router”—that translated digitized packets from the originating network to the receiving 
network, so long as both networks met the interface standards.  This was achieved January 1, 1983, when ARPANet 
began using version 4 of DARPA members Robert Kahn and Vinton Cerf’s Transmission Control Protocol/Internet 
Protocol (TCP/IP), allowing “inter-networking,” and arguably marking the birth of the Internet.  Another 
government funded project—NSFNet—made ARPANet obsolete and ARPANet was formally discontinued in 1989.  
See id. at 83–85; see generally VINTON G. CERF, PACKET SATELLITE TECHNOLOGY REFERENCE SOURCES, REQUEST 
FOR COMMENTS:  829 (1982), available at http://community.roxen.com/developers/idocs/rfc/rfc829.html.
93 See Waldrop, DARPA and the Internet Revolution at 85.  The purpose of this TCP/IP-based network was to link 
the existing regional networks to a new high-speed network of supercomputer centers.  Id.
94 See id. 
95 See id.  The logarithmic increase in traffic caused the lines among the supercomputer centers to require two 
upgrades in four years.  The capacity of the lines was upgraded from 56 kbps in 1987, to 1.5 Mbps in 1988, to 45 
Mbps in 1991.  See NSF, The Launch of NSFNet, http://www.nsf.gov/about/history/nsf0050/internet/launch.htm 
(last visited Apr. 20, 2009).
96 See THE NSFNET BACKBONE SERVICES ACCEPTABLE USE POLICY § 10 (June 1992), available at 
http://w2.eff.org/Net_culture/Net_info/Technical/Policy/nsfnet.policy (last visited Apr. 23, 2009).
97 The interconnection of the commercial Internet backbones first occurred at a “Commercial Internet eXchange,” or 
CIX, router in 1991.  Although this particular router has been retired, there currently are over 150 similar types of 
nodes worldwide, referred to as Internet eXchange Points or IXPs.  See generally Farooq Hussain, Historic Role of 
The Commercial Internet eXchange Router And Its Impact On the Development of Internet eXchange Points [IXs]
(Oct. 3, 2003), http://www.farooqhussain.org/projects/Historic%20Role%20of%20the%20CIX%20Router%2010-
03-03.pdf (last visited Apr. 22, 2009); see also EP.NET, llc Information, Exchange Point Information, 
http://www.ep.net/ep-main.html (last visited May 15, 2009) (providing a worldwide repository of IXPs); Packet 
Clearing House, Resources, Internet Exchange Directory, https://prefix.pch.net/applications/ixpdir/ (last visited May 
19, 2009).
REPORT ON A RURAL BROADBAND STRATEGY
20
D. Recent Legislative Developments
43. Recognizing the benefits of universal broadband access to the nation as a whole and the 
concomitant lack of robust broadband deployment in many parts of the country, Congress passed several 
important pieces of legislation in 2008 and 2009 to address the issue.  Below, we discuss the 2008 Farm 
Bill, the BDIA, and the Recovery Act.  Collectively, these pieces of legislation require the development 
of a rural broadband strategy, improvements in broadband data collection, and a national broadband plan.  
1. 2008 Farm Bill—Rural Broadband Strategy
44. On June 19, 2008, Congress enacted the 2008 Farm Bill, which includes a provision 
requiring the Chairman of this Commission, in coordination with the Secretary of the USDA, to submit “a 
comprehensive rural broadband strategy” to Congress by May 22, 2009.98 This strategy must include the 
following:  
(1) recommendations—
(A) to promote interagency coordination of Federal agencies in 
regards to policies, procedures, and targeted resources, and to 
streamline or otherwise improve and streamline the policies, 
programs, and services;
(B) to coordinate existing Federal rural broadband or rural 
initiatives;
(C) to address both short- and long-term needs assessments and 
solutions for a rapid build-out of rural broadband solutions and 
application of the recommendations for federal, state, regional, 
and local government policymakers; and
(D) to identify how specific Federal agency programs and 
resources can best respond to rural broadband requirements and 
overcome obstacles that currently impede rural broadband 
deployment; and
(2) a description of goals and timeframes to achieve the purposes of the 
report.99
The Chairman of this Commission must also, in coordination with the Secretary of the USDA, update and 
evaluate the rural broadband report during the third year after enactment of the 2008 Farm Bill.100  
  
98 We note that the 2008 Farm Bill was initially enacted on May 22, 2008.  See Pub. L. No. 110-234, 122 Stat. 923 
(May 22, 2008) (May 22, 2008 Bill).  The May 22, 2008 Bill, as enacted, however, did not include one title (i.e., 
Title III—Trade) that Congress had intended to include.  The June 18, 2008 Bill corrected this omission by repealing 
the May 22, 2008 Bill and enacting a statute that includes Title III but otherwise is identical to the May 22, 2008 
Bill.  See Pub. L. No. 110-246, 122 Stat. 1651 (June 18, 2008) (June 18, 2008 Bill or 2008 Farm Bill).  The June 18, 
2008 Bill specified that it would take effect on the earlier of the enactment date of that Bill or the enactment date of 
the May 22, 2008 Bill.  See Pub. L. No. 110-246, § 4(b), 122 Stat. at 1664.  We treat May 22, 2009, as the deadline 
for the rural broadband strategy report required by the Act.  
99 2008 Farm Bill § 6112(a).  
100 Id. § 6112(b).
REPORT ON A RURAL BROADBAND STRATEGY
21
2. BDIA—Improving the Collection of Broadband Data
45. On October 10, 2008, Congress passed the BDIA, which provides for improved federal 
data on the deployment and adoption of broadband services.101 The BDIA mandates improvements in the 
Commission’s Section 706 Reports.102 Previously, that section directed the Commission to conduct a 
regular inquiry as to whether advanced telecommunications capability is being deployed to all Americans 
in a reasonable and timely fashion.103 The BDIA now requires the Commission to issue its Section 706 
Reports “annually” instead of “regularly” and adds several types of data regarding broadband services 
that the Commission must produce and evaluate.104 On March 31, 2009, the Commission released a 
Public Notice seeking comment on how it should implement certain of the requirements in the BDIA.105  
3. Recovery Act—National Broadband Plan
46. On February 17, 2009, Congress passed the Recovery Act.106 The Recovery Act charges 
the Commission with developing a national broadband plan that “shall seek to ensure that all people of 
the United States have access to broadband capability and shall establish benchmarks for meeting that 
goal.”107 By February 17, 2010, the Commission must deliver to Congress a national broadband plan that 
seeks to ensure that every American has access to robust broadband capability and establishes clear 
benchmarks for meeting that goal.  The Commission’s plan must include an analysis of several specific 
elements of broadband deployment.  First, the Commission must analyze “the most effective and efficient 
mechanisms for ensuring broadband access by all people of the United States.”108 Second, the 
Commission must include “a detailed strategy for achieving affordability of such service and maximum 
utilization of broadband infrastructure and service by the public.”109 Third, the Commission must include 
“an evaluation of the status of deployment of broadband service, including progress of projects supported 
by the grants made pursuant to this section.”110 Finally, the Commission must include “a plan for use of 
broadband infrastructure and services in advancing” a broad array of public interest goals.111  
47. The Recovery Act also provides significant support for programs that will accelerate the 
deployment of and subscription to broadband services throughout the nation.  The Recovery Act charges  
RUS and the NTIA with making grants and loans to expand broadband deployment and for other 
  
101 BDIA § 101.  See infra Part V.B (providing additional information on the BDIA).
102 BDIA § 103(a).   
103 47 U.S.C. § 157 nt.  Since 1996, the Commission has initiated and completed five Section 706 Reports to 
Congress.  See, e.g., Inquiry Concerning the Deployment of Advanced Telecommunications Capability to All 
Americans in a Reasonable and Timely Fashion, and Possible Steps to Accelerate Such Deployment Pursuant to 
Section 706 of the Telecommunications Act of 1996, GN Docket No. 07-45, Fifth Report, 23 FCC Rcd 9615 (2008) 
(Section 706 Fifth Report), pet. for recon. pending.  In all five Section 706 Reports, the Commission has found that 
advanced services are being deployed in a reasonable and timely fashion.  Id. at 9616, para. 1.  
104 BDIA § 103(c).  See infra para. 97.
105 Comment Sought on International Comparison and Consumer Survey Requirements in the Broadband Data 
Improvement Act, GN Docket No. 09-47, Public Notice, 24 FCC Rcd 3908 (2009) (BDIA Public Notice).
106 See supra para. 4 (describing passage of the Recovery Act).
107 Recovery Act § 6001(k)(2).
108 Id. § 6001(k)(2)(A).
109 Id. § 6001(k)(2)(B).
110 Id. § 6001(k)(2)(C).
111 Id. § 6001(k)(2)(D).
REPORT ON A RURAL BROADBAND STRATEGY
22
important broadband projects.  As noted above, by February 2011, the Recovery Act also directed NTIA 
to create a “comprehensive nationwide inventory map of existing broadband service capability and 
availability” that shows the geographic extent to which that capability is deployed and available for each 
state.112 NTIA must make this inventory map accessible by the public on an NTIA website in a form that 
is interactive and searchable.  These programs are discussed in detail below.113  
IV. COORDINATION OF RURAL BROADBAND EFFORTS  
48. As part of its mandate to develop a rural broadband strategy, Congress tasked us with 
developing recommendations to promote interagency coordination and to streamline and improve federal 
agencies’ policies, programs, and services.114 Congress also tasked the Commission with developing 
recommendations for coordinating existing federal rural broadband initiatives.115 These legislative 
requirements were established before the 2008 election and before the enactment of the Recovery Act.  
As there has been considerable interagency coordination in the weeks following the passage of the 
Recovery Act, the recommendations here are to support and promote the continued interagency 
coordination that now exists with the expectation that this will result in improvements to existing and new 
federal programs.
49. Much like extending the reach of railroads across the country or bringing electricity and 
telephones to rural areas, ensuring that broadband service is available to all Americans is a massive 
undertaking in which there is a significant role for government.  In fact, a number of federal agencies 
have already developed and implemented programs related to the buildout of broadband in rural areas.  
50. The Role of the USDA’s RUS.  The USDA’s RUS plays a particularly important role in 
administering programs that aim to expand utilities and new technologies to rural communities.  In 
particular, RUS administers three programs aimed specifically at improving broadband access:  the Rural 
Broadband Access Loan and Loan Guarantee Program;116 the Community Connect Grant Program;117 and 
  
112 Id. § 6001(1).
113 See infra Parts IV, V.C (discussing the Recovery Act).  
114 2008 Farm Bill § 6112(a)(1)(A).
115 Id. § 6112(a)(1)(B).
116 The Rural Broadband Access Loan and Loan Guarantee Program provides loans and loan guarantees to fund the 
“cost of construction, improvement, or acquisition of facilities and equipment for broadband service,” with priority 
given to areas where broadband service is not available or is inadequate.  RUS is in the process of promulgating 
regulations to implement program requirements mandated by the 2008 Farm Bill.  See 7 C.F.R. § 1738.10–11; 
USDA Telecommunications Program:  Rural Development Broadband Loan and Loan Guarantee Program, 
http://www.usda.gov/rus/telecom/broadband.htm (last visited May 19, 2009).  We note that on April 13, 2009, 
USDA’s Inspector General released an audit report regarding RUS’s broadband loan program, finding that the 
agency had not implemented eight of fourteen recommendations from a 2005 audit report and expressing concerns 
about the future of the program. See OFFICE OF INSPECTOR GENERAL, USDA, REPORT NO. 09601-8-Te, AUDIT 
REPORT: RURAL UTILITIES SERVICE BROADBAND LOAN AND LOAN GUARANTEE PROGRAM 4, 10 (2009), available 
at http://www.usda.gov/oig/webdocs/09601-8-TE.pdf. We understand that the 2008 Farm Bill addressed six of 
these recommendations, and RUS is taking responsive action to the extent it can, regarding the remaining two 
recommendations. See id. at 4.
117 The Community Connect Grant Program provides financial assistance to unserved areas to connect critical 
community facilities, such as schools, libraries, hospitals, law enforcement, emergency services, and public safety 
organizations. Funds may be used to finance the construction and acquisition of facilities to deploy broadband and 
to purchase end-user equipment. At a minimum, a project must deploy basic broadband to critical community 
facilities free of charge for two years; offer basic broadband to all residential and business customers within the 
service area; and provide free access at a community center for at least two years.  See Broadband Grant Program, 
69 Fed. Reg. 44,896, 44,897 (Jul. 28, 2004); 7 C.F.R. § 1739.11–.12.
REPORT ON A RURAL BROADBAND STRATEGY
23
the Distance Learning and Telemedicine Loan and Grant Program.118 The funding available under these 
programs to expand broadband coverage helps offset prohibitively high deployment costs that plague 
many rural areas.  As part of the Recovery Act, Congress authorized an additional $2.5 billion in funding 
for these programs.119  
51. Numerous RUS programs have already started to increase rural broadband deployment.  
For example, as early as 2004, RUS began to work with International Broadband Electric 
Communications, Inc. (IBEC) in Huntsville, Alabama, to fund deployment of broadband solutions in a 
number of rural locations.120 As a result, residents in the targeted communities will be able, many for the 
first time, to access the Internet at speeds of up to 5 Mbps.  Another company that has successfully 
worked with the RUS is Rural Telephone Service Co. (Rural Telephone), a Lenora, Kansas-based 
incumbent local exchange carrier (LEC) that began working with the RUS shortly after its incorporation 
in 1951.  Rural Telephone has used RUS funding to become an operator of 29 exchanges in a rural area 
that averages two households per square mile.121 Through its competitive LEC affiliate, Nex-Tech, Rural 
Telephone also has used RUS funding to deploy fiber to the home infrastructure in neighboring towns.  In 
many cases, Nex-Tech is bringing broadband to customers for the very first time.122  
52. RUS also has worked with Air Advantage LLC (Air Advantage), a wireless ISP 
headquartered in Frankenmuth, Michigan.  Air Advantage uses a broad portfolio of wireless solutions to 
deliver reliable and secure broadband connectivity to thousands of rural businesses and residents in rural 
Eastern Michigan.123 Over the past six years, the company has secured three RUS Community Connect 
Broadband Grants and used the Broadband Loan Program to expand the footprint of its wireless network 
and increase broadband connectivity to local businesses and residents.124 Related developments include 
the creation of computer labs in two local community centers that provide the residents with free 
broadband Internet access125 and the deployment of distance learning technologies throughout seven 
  
118 The Distance Learning and Telemedicine programs provide a combination of loans and grants to improve 
educational and health care opportunities.  The grant program focuses primarily on connecting students and teachers 
or medical providers and patients at separate locations, while the loan and combination loan/grant program seeks to 
fund additional resources to improve medical care and education.  Funds generally are used to finance broadband 
infrastructure, purchase land and buildings, acquire end-user and other equipment, and provide technical assistance 
and instruction.  See 7 C.F.R. §§ 1703.121, 1703.130, 1703.140; USDA Telecommunications Program:  Loans and 
Grants, http://www.usda.gov/rus/telecom/RDtelecom-loansandgrants.htm (last visited May 19, 2009).
119 Recovery Act, Division A, Title I, Rural Utilities Service (RUS Appropriations).
120 See, e.g., Press Release, IBEC (Feb. 2, 2004), 
http://www.ibec.net/pdf/IBEC%20Achieves%20Conditional%20RUS%20approval%20for%20its%20BPL%20Solut
ion.pdf.
121 See Joan Engebretson, Funding Fiber to the Farm, TELEPHONY ONLINE, Feb. 5, 2007, 
http://telephonyonline.com/mag/telecom_funding_fiber_farm/ (quoting Larry Sevier, Rural Telephone CEO and 
General Manager, “‘As we grew from one rural exchange to 29, we put in the latest technology,’ he said.  ‘All 
through the process, we used the RUS program.  This area is extremely sparsely populated, with an average of two 
households per square mile.’”).
122 Id.
123 See generally Presentation of Scott Zimmer, President of Air Advantage, Using Broadband To Make Rural 
Michigan A Better Place to Live and Work, http://wireless.fcc.gov/outreach/presentations/saginaw2008/ 
SuccessStories/SAGINAW%20-%20Air%20Advantage%20Success%20Story.pdf (last visited May 8, 2009).  
124 See Press Release, Motorola Corporation (May 7, 2009), http://news.prnewswire.com/ 
DisplayReleaseContent.aspx?ACCT=104&STORY=/www/story/05-07-2009/0005021331&EDATE.
125 Id.
REPORT ON A RURAL BROADBAND STRATEGY
24
partner rural school systems using funding from an RUS Distance Learning/Telemedicine Grant.126 In 
addition, the Air Advantage network has linked several rural hospitals to enable data and record sharing, 
as well as enabling the Saginaw Valley State University to establish distance learning professional 
development courses at these healthcare facilities.127 Air Advantage is using its most recent Community 
Connect Broadband Grant, approved in 2008, to provide wireless broadband access to the small 
community of Applegate, Michigan, where it is working with local officials to expand the village hall to 
include a new community center that will host a computer lab with free Internet access.
53. The RUS broadband programs face several challenges.  Unlike some of RUS’s other 
infrastructure programs, the RUS broadband programs only have a limited ability to offer projects 
combining loan and grant funds.  The primary RUS broadband program is the Broadband Loan Program.  
Under the Broadband Loan Program, it is difficult for RUS to reach small remote places, like Weirwood, 
Virginia, because the community lacks the needed resources to make a broadband loan work.  Places like 
Weirwood are better candidates for the Community Connect Broadband Grant program, but the funding 
for that program is severely limited ($13.4 million for the 2009 fiscal year).  However, the Recovery Act 
provides RUS the resources to administer a broadband program that offers assistance in the form of grants 
and loan/grant combinations designed to assist communities like Weirwood.
54. NTIA. The NTIA also has an important role to play in broadband development.  The 
Recovery Act appropriates $4.7 billion to the NTIA to “establish a national broadband service 
development and expansion program” called the “Broadband Technology Opportunities Program” 
(BTOP).128 This program will award grants129 to states, non-profit organizations, and broadband 
providers to fulfill the broadband deployment goals of the Recovery Act.130 The NTIA must award, “to 
the extent practical,” at least one grant in each state,131 and in doing so must consider a variety of factors, 
  
126 Id.
127 Id. 
128 Recovery Act, Division A, Title II, National Telecommunications and Information Administration (NTIA 
Appropriations); Recovery Act § 6001.  The BTOP has five enumerated purposes in the Recovery Act:  “(1) provide 
access to broadband service to consumers residing in unserved areas of the United States; (2) provide improved 
access to broadband service to consumers residing in underserved areas of the United States; (3) provide broadband 
education, awareness, training, access, equipment, and support to [organizations including schools, libraries, health 
care providers, and outreach organizations]; (4) improve access to, and use of, broadband service by public safety 
agencies; and (5) stimulate the demand for broadband, economic growth, and job creation.”  Recovery Act 
§ 6001(b); see also United States Department of Commerce, Information Related to the American Recovery and 
Reinvestment Act of 2009, http://www.commerce.gov/Recovery/ (last visited May 19, 2009).
129 NTIA may award competitive grants to:  “(1) acquire equipment, instrumentation, networking capability, 
hardware and software, digital network technology, and infrastructure for broadband services; (2) construct and 
deploy broadband service related infrastructure; (3) ensure access to broadband service by community anchor 
institutions; (4) facilitate access to broadband service by low-income, unemployed, aged, and otherwise vulnerable 
populations in order to provide educational and employment opportunities to members of such populations; (5) 
construct and deploy broadband facilities that improve public safety broadband communications services; and (6) 
undertake such other projects and activities as the Assistant Secretary finds to be consistent with the purposes for 
which the program is established.”  Recovery Act § 6001(g).
130 Specifically, the Recovery Act states, “To be eligible for a grant under the program, an applicant shall—(1)(A) be 
a State or political subdivision thereof, the District of Columbia, a territory or possession of the United States, an 
Indian tribe (as defined in section 4 of the Indian Self-Determination and Education Assistance Act (25 U.S.C. 
450(b)) or native Hawaiian organization; (B) a nonprofit—(i) foundation, (ii) corporation, (iii) institution, or (iv) 
association; or (C) any other entity, including a broadband service or infrastructure provider, that the Assistant 
Secretary finds by rule to be in the public interest.  In establishing such rule, the Assistant Secretary shall to the 
extent practicable promote the purposes of this section in a technologically neutral manner.”  Id. § 6001(e).
131 Id. § 6001(h)(1).
REPORT ON A RURAL BROADBAND STRATEGY
25
including affordability and speed, as well as improved access for healthcare, education, and children,132
and “whether the applicant is a socially and economically disadvantaged small business concern.”133  
Grantees under this program will also be subject to “non-discrimination and network interconnection” 
obligations.134  
55. In addition, the Recovery Act requires NTIA to “develop and maintain a comprehensive 
nationwide inventory map of existing broadband service capability and availability in the United States 
that depicts the geographic extent to which broadband service capability is deployed and available from a 
commercial provider or public provider throughout each State.”135 Such a map is required to be made 
accessible in an interactive and searchable format on the web by February 17, 2011.136
56. Other Agencies. There are several other programs run by various federal agencies, 
including the Commission, that provide or have provided broadband-related funding.137 Developed 
essentially in administrative silos and existing in parallel within their respective administrative agencies, 
these programs are responsible for significant annual spending.  We believe that in enacting the 2008 
Farm Bill, Congress implicitly recognized that many of these programs do share common broadband 
purposes and goals; however, coordination between federal agencies has been lacking.  As Congress 
recognized, greater coordination among agencies, policies, programs, and staff is needed to realize the full 
benefit of federal resources that have already been dedicated to bringing broadband to rural America and 
to best leverage further investments of both taxpayer monies and private capital.  We recognize positive 
changes that have occurred in recent months with regard to broadband coordination to address these prior 
shortcomings.
A. Promoting Interagency Coordination  
57. Lack of interagency coordination is a significant challenge to the deployment of 
broadband in rural areas.  Consequently, we believe that increasing coordination—among federal 
departments and agencies; Tribal, state, and local governments; community groups; and individuals—is a 
critical preliminary step toward ensuring that the various government programs accomplish their 
broadband goals and objectives in an efficient and effective way.  Promoting and fostering a culture that 
encourages the exchange of information within and between federal agencies and, where appropriate, 
with non-federal government organizations, Tribal governments, and the public lie at the core of effective 
coordination.  Successfully implemented, the coordination strategy we outline below should enable the 
federal government and other stakeholders to work together to maximize resources, harness expertise, and 
avoid duplication of effort in facilitating the deployment of broadband in rural areas.  
58. In highlighting areas where better coordination may be needed, we hope to underscore 
the particular challenges faced by rural America in the deployment and adoption of broadband services 
that should be considered in conjunction with every agency’s broadband policy.  To this end, the 
  
132 Id. § 6001(h)(2).
133 Id. § 6001(h)(3).
134 Id. § 6001(j).  Section 6001(j) of the Recovery Act states, “Concurrent with the issuance of the Request for 
Proposal for grant applications pursuant to this section, the Assistant Secretary shall, in coordination with the 
Commission, publish the non-discrimination and network interconnection obligations that shall be contractual 
conditions of grants awarded under this section, including, at a minimum, adherence to the principles contained in 
the Commission’s broadband policy statement (FCC 05-15, [1] adopted August 5, 2005).”  Id.   
135 Recovery Act § 6001(l).
136 Id.
137 Appendix B provides a non-exhaustive list of these programs.  
REPORT ON A RURAL BROADBAND STRATEGY
26
Commission has invited suggestions from the public on both formal and informal means of coordination 
among federal departments and agencies; Tribal, state, and local governments; and community groups 
and individuals to achieve Congress’s goal that all Americans have access to broadband.138  
1. Federal Interagency Coordination
59. Shortly after President Obama took office, his administration undertook an important 
leadership role in the effort to expand broadband penetration throughout the nation.  In early 2009, the 
Obama administration formed an interagency working group under the auspices of the National Economic 
Council to bring agencies together to discuss broadband issues of common interest.  
60. This interagency working group is focused on coordinating the country’s broadband 
agenda and has sought input from agencies regarding their broadband programs to this end.  The 
formation of this group gives expert staff in different federal agencies an unprecedented opportunity to 
meet, discuss, and coordinate complementary federal broadband programs and policies, and prioritize 
agency actions to avoid wasted resources.  Thus far, a significant focus of the group has been on ensuring 
that the Recovery Act stimulus programs related to broadband are implemented in a coordinated manner.  
It also facilitated discussions among federal agencies and the submission of information in connection 
with the development of this Report.  The administration should be commended for these efforts.  We 
recommend that the interagency working group continue, devoting special attention as appropriate to 
enhancing interagency coordination on rural broadband initiatives.139 We believe, at a minimum, that 
such a focus could serve as a vital step in ensuring that federal agencies do not work at cross purposes and 
form an important component of a national broadband plan. 
61. In addition to the interagency working group, we believe that there are additional steps 
that can be taken to promote interagency coordination.  For example, joint hearings, such as those held 
recently by the NTIA and USDA regarding the Recovery Act’s broadband provisions, can help to 
promote interagency coordination and provide a forum for the public to provide input toward the shaping 
and implementation of complementary federal programs.  Joint hearings may also facilitate federal, 
Tribal, state, and local cooperation.  To that end, we suggest, for example, that the Commission may want 
to hold joint public meetings or hearings with USDA and NTIA to gain valuable public input regarding 
their complementary broadband agendas.  We further recommend that the Commission and other federal 
agencies consider developing their own “rural broadband agendas,” consistent with the national 
broadband plan.  This agenda could include the agency’s pending (and perhaps planned) proceedings 
affecting rural broadband.  The agencies could share these agendas with each other and, to the extent they 
do not include confidential information, with the public.  
2. Additional Coordination 
a. Coordination with Tribal Governments
62. It is critical that federal agencies devote increased attention to improving coordination 
and collaboration with Tribal governments,140 consortia, and organizations regarding broadband 
  
138 See National Broadband Plan NOI at paras. 113–22.
139 See, e.g., AFBF Comments at 2; NASUCA Comments at 6; NATOA Comments at 5; Nebraska Commission 
Comments at 5–6; Pennsylvania Comments at 2; USTA Comments at 2; WISPA Comments at 4.
140 The terms “Tribal Nation,” “Indian Tribe[s],” or “Tribes” refer to any Indian or Alaska Native tribe, band, nation, 
pueblo, village, or community that is acknowledged by the federal government to constitute a governmental entity 
necessary to enter into a government-to-government relationship with the United States and thereby be eligible for 
the programs and services established by the United States for Indians.  See The Federally Recognized Indian Tribe 
List Act of 1994, Pub. L. 103-454, 108 Stat. 4791 (1994) (Indian Tribe Act) (requiring the Secretary of the Interior 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
27
deployment in rural Tribal areas.141 Encouraging broadband deployment in these areas presents unique 
issues.142 To ensure a truly comprehensive strategy for addressing rural broadband, it is important that the 
federal government maintain a continuing dialogue with Tribal governments to address these issues.  The 
Commission has taken a series of steps, through regulatory action, the publication of consumer 
information, and Tribal outreach, to address the lack of communications deployment and subscribership 
throughout Indian Country.  For example, in the Tribal Policy Statement, the Commission reaffirmed its 
recognition of Tribal sovereignty and the trust relationship between the Commission as part of the federal 
government and Tribal Nations.143 This policy statement indicates the Commission values a government-
to-government relationship with federally recognized Indian Tribes and Alaska Native communities.  
Close consultation between the Commission and the Tribes is the Commission’s principal means of 
identifying and working to resolve communication policy issues relevant to Indian Country.  The Tribal 
Policy Statement describes the Commission’s consultative and trust responsibilities toward the Tribes.  It 
also expresses the Commission’s commitment to work cooperatively with Tribal, state, and local 
governments as well as other federal departments and agencies to address and remedy communication 
problems in Indian Country, such as low telephone and broadband penetration rates and poor service 
quality.  
63. In addition to the Tribal Policy Statement, the Commission created Tribal Land bidding 
credits to assist those Tribal communities with the greatest need for telecommunications services.  The 
Tribal Land bidding credits provide winning bidders in spectrum auctions that agree to deploy facilities 
and provide service in certain Tribal areas with a discount on their spectrum.144 The Commission also 
established the Indian Telecommunications Initiative (ITI) to help improve telecommunications services 
on Tribal lands.  The ITI seeks to increase telephone subscribership rates on Tribal lands, upgrade the 
telecommunications infrastructure on those lands, and inform Tribal consumers about the financial 
support available through federal programs, such as the Universal Service programs.145 The ITI also 
  
(...continued from previous page)
to publish in the Federal Register an annual list of all Indian Tribes which the Secretary recognizes to be eligible for 
the special programs and services provided by the United States to Indians because of their status as Indians).  
141 See supra note 54 (concerning the definition of Indian Country).
142 For example, Sacred Wind explains that some federal rules and practices fail to recognize the “special 
characteristics” of Tribal lands.  See Sacred Wind Comments at 1–2.  Sacred Wind states, for example, that the 
definition of a rural community for the USDA’s RUS Community Connect Grant Program “excludes communities 
that are not registered as Census Designated Places” and only a handful of the 111 chapters of the Navajo Nation are 
registered.  Sacred Wind further explains that federal law requires environmental and archeological surveys before 
any federally-financed construction on Tribal lands, even if the lands already have been surveyed or are within 
utility easements.  See Sacred Wind Comments at 2.
143 See Statement of Policy on Establishing a Government-to-Government Relationship with Indian Tribes, Policy 
Statement, 16 FCC Rcd 4078 (2000) (Tribal Policy Statement).  
144 See infra Part VI.C (providing a detailed discussion of Tribal Land bidding credits). 
145 See FCC, ITI, http://www.fcc.gov/indians/iti.html (last visited May 19, 2009).  Since its inception, ITI has 
organized informational workshops to provide Tribes and Tribal organizations with information about Commission 
rules and policies, such as cellular tower siting procedures and broadband deployment that affect the deployment of 
telecommunications infrastructure and services on Tribal lands.  The ITI seeks to offer clear, practical, solution-
oriented information the Tribes can use to benefit their communities and enhance their economic and social 
development regarding deployment and subscribership challenges.  In addition, the Commission’s Consumer and 
Governmental Affairs Bureau, through its Liaison to Tribal Governments and the ITI, seeks to:  (1) educate and 
inform Tribes about telecommunications; (2) confer with Tribal representatives about the Commission’s rules, 
regulations, and policies; (3) assist Tribes in networking with each other to develop viable telecommunications 
systems; and (4) engage in dialogue with Tribes how to overcome about barriers to obtaining telecommunications 
technologies.  The Commission also conducts outreach through various other mechanisms, including publications 
or advisories tailored specifically to consumers living on Tribal lands, attendance and participation at Tribal 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
28
seeks to promote understanding, cooperation, and trust among Tribal Nations, government agencies, and 
the communications industry in addressing issues facing Tribal lands.  As part of the ITI, Commission 
staff maintains regular contact with Tribal telecommunications professionals and Tribal representatives.
Commission senior officials and other staff also attend and participate in a variety of meetings on 
telecommunications issues with Tribal officials and representatives. 
64. Although much has been done to foster cooperation, collaboration, and communication 
with Tribal governments, much work remains.  Not only are residents of Tribal lands lagging behind the 
country as a whole in broadband access, but many still do not even have access to voice service;146 Native 
American communities have the lowest reported levels of telephone subscribership in the country.147  
Thus, as an initial matter, we suggest that federal agencies consider how to maximize already existing 
programs to improve coordination with Tribal governments.  We also recommend that the Commission 
consult with Tribal governments pursuant to the Tribal Policy Statement in developing its national 
broadband plan and, in particular, in developing the aspects of that plan that affect broadband deployment 
and subscribership specifically on Tribal lands.  Further, before promulgating any regulation, agencies 
may want to consider conducting formal consultations with Tribal governments as may be required under 
Executive Order No. 13175.148  
b. Coordination with State and Local Authorities
65. As part of the nation’s rural broadband strategy, we believe that federal agencies should 
seek to establish an ongoing dialogue with state and local authorities.  State and local governments have 
knowledge unique to their areas.  Many states have broadband initiatives, and in some cases, entities are 
already working to address the broadband needs of unserved and underserved rural areas.149 A dialogue 
  
(...continued from previous page)
conferences and events, and periodic meetings with Tribal representatives.  In response to feedback received directly 
from the Tribes, the Commission has conducted targeted outreach regarding telecommunications issues of interest to 
Tribes, such as the Lifeline/Link Up programs and broadband deployment.
146 See supra Part III.B (noting a lack of broadband service on Tribal lands); see also GAO, CHALLENGES TO 
ASSESSING AND IMPROVING TELECOMMUNICATIONS FOR NATIVE AMERICANS ON TRIBAL LANDS, GAO-06-189, at 
10–13 (2006) http://www.gao.gov/new.items/d06513t.pdf (2006 GAO TRIBAL LANDS REPORT) (explaining that 
according to the 2000 census, the telephone subscribership rate for Native American households on Tribal lands in 
the lower 48 states was 68.6%, while for Alaska Native Villages it was 87.0%—both substantially below the 
national rate of 97.6%).   
147 See, e.g., Sacred Wind Communications, Inc. and Qwest Corporation, Joint Petition for Waiver of the Definition 
of “Study Area” Contained in Part 36, Appendix-Glossary of the Commission’s Rules, Sacred Wind 
Communications, Inc., Related Waivers of Parts 36, 54, and 69 of the Communication’s Rules, CC Docket No. 96-
45, Order, 21 FCC Rcd 9227, 9231, para. 9 (2006); see also Federal-State Joint Board on Universal Service, CC
Docket No. 96-45, Memorandum Opinion and Order, and Further Notice of Proposed Rulemaking, 15 FCC Rcd
12208, 12217–18, para. 16 (2000) (amending Lifeline and Link-Up assistance rules applicable to eligible residents 
of Tribal lands, consisting of qualifying low-income consumers living on or near reservations, as defined in 25 
C.F.R. § 20.1(r), (v)); Federal-State Joint Board on Universal Service; Promoting Deployment and Subscribership 
in Unserved and Underserved Areas, Including Tribal and Insular Areas, CC Docket No. 96-45, Order and Further
Notice of Proposed Rulemaking, 15 FCC Rcd 17122 (2000) (seeking additional comment on extending the
enhanced Lifeline and Link-Up measures to qualifying low-income consumers living in areas near reservations to
target support to underserved, geographically isolated, and impoverished areas that are characterized by low 
subscribership).
148 Consultation and Coordination with Indian Tribal Governments, Exec. Order No. 13175, 65 Fed. Reg. 67249 
(Nov. 9, 2000).
149 See infra Part V.B (discussing state initiatives regarding mapping and data collection); see also Massachusetts 
Commission Comments at 4–5; Michigan Commission Comments at 5; NGA CTR. FOR BEST PRACTICES, STATE 
EFFORTS TO EXPAND BROADBAND ACCESS 4 (2008), http://www.nga.org/Files/pdf/ 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
29
among state and local entities and federal agencies enables state and local governments to gain valuable 
information concerning federal resources and initiatives.  At the same time, federal-state coordination 
allows the federal government access to the states’ valuable knowledge and experience,150 helps inform 
the federal government in establishing rural broadband policies and initiatives, and prevents wasted time 
and resources from duplicating states’ efforts.  
66. When the Commission is fully constituted, we recommend that the states take full 
advantage of existing mechanisms for coordination, such as the Joint Conference on Advanced 
Services.151 We further recommend that the Joint Conference provide the Commission with its own 
recommendations for improving federal coordination with states regarding rural broadband 
deployment.152 We understand that the state members of the Joint Conference have already begun the 
process of compiling an inventory of “best practices” and successful state and local projects as an aid to 
industry, consumers, and fellow governmental entities.153 We recommend that the Joint Conference 
continue this program.  We further suggest that the government at all levels work to develop an inventory 
of resources, “best practices,” and success stories to inspire and motivate others to undertake the difficult 
but ultimately rewarding task of bringing broadband to rural communities across this nation.  Finally, we 
also recommend that the Joint Conference include in its recommendations suggested proposals to address 
and ameliorate the unique challenges presented to rural minority communities, rural low-income 
communities, and persons with disabilities residing in rural areas.
c. Coordination with Communities
67. Our goal of ubiquitous, affordable, and robust broadband for all will be achieved faster 
and more easily when everyone involved has access to the essential information and resources necessary 
to make informed decisions.  Thus, in order to be successful in coordinating existing federal programs 
concerning rural broadband or rural initiatives, it is critical that the federal government collaborate and 
  
(...continued from previous page)
0805BROADBANDACCESS.PDF (NGA, STATE EFFORTS TO EXPAND BROADBAND) (explaining that California, 
Missouri, Hawaii, and Maryland have used state task forces to evaluate the current state of broadband deployment 
and identify possible regulatory changes to increase service availability in their states).
150 For example, the Commonwealth of Virginia’s Office of Telework and Broadband Assistance has produced a 
community guidebook or “toolkit” containing specific tools and resources that communities can leverage when they 
are assessing how to deploy broadband in their communities.  See, e.g., Virginia.gov, Office of Telework Promotion 
and Broadband Assistance, Community Broadband Toolkit, http://www.otpba.vi.virginia.gov/ 
roundtable_toolkit.shtml (last visited May 19, 2009) (Virginia.gov Toolkit); see also Karen Jackson, Director of the 
Telework Promotion and Broadband Access for the Commonwealth of Virginia, Address at the National Governors 
Association:  State Efforts to Expand Broadband Access (Dec. 18, 2008), (transcript available at 
http://www.apt.org/events/2008/1218broadband.txt (last visited May 19, 2009)) (describing the efforts of the 
Commonwealth of Virginia’s Center for Innovative Technology, and addressing related broadband issues such as 
“broadband-friendly zoning,” along with expediting the permitting process and waiving or reducing fees, as well as 
mapping and engaging local communities).  
151 The Joint Conference serves as a forum for an ongoing dialogue among the Commission, state regulators, and 
local and regional entities regarding the deployment of advanced telecommunications capabilities.  It was convened 
in 1999 as an early step in the Commission’s efforts to ensure that advanced services are deployed as rapidly as 
possible to all Americans, and reconstituted by the Commission on March 19, 2008.  See Commission Seeks 
Nominations for Federal-State Joint Conference on Advanced Services, CC Docket No. 99-294, News Release (rel. 
Mar. 19, 2008); Federal-State Joint Conference on Advanced Telecommunications Services, CC Docket No. 99-294, 
Order, 14 FCC Rcd 17622 (1999).  The Joint Conference is comprised of commissioners from state public utilities 
commissions and from the Commission, and is chaired by the Commission Chairman or his designee.  
152 2008 Farm Bill § 6112(a)(1)(C).
153 Joint Conference Comments at 5.
REPORT ON A RURAL BROADBAND STRATEGY
30
coordinate with community and advocacy organizations in rural areas.  The federal government should 
work closely with these organizations to help ensure that all minority group members residing in rural 
areas have access to robust and affordable broadband services and that minority-owned businesses 
participate fully in the buildout of broadband infrastructure in those areas.  The federal government also 
should work closely with organizations representing persons with disabilities to help ensure that they 
have affordable access to broadband services capable of supporting the full array of applications 
responsive to their needs.  Finally, the federal government should work closely with organizations that 
serve low-income residents to ensure the opportunities that affordable broadband offers this community 
do not go unrealized.
68. We know that community and local advocacy groups are an essential component to the 
success of deploying broadband in rural areas.154 Further, public-private partnerships can play a critical 
role in bringing broadband to rural areas.155 Community and advocacy groups and public-private 
partnerships can function as valuable information sources for local communities, businesses, and 
consumers in rural areas, and various groups have developed guidance on how to deploy broadband in 
those areas.  For example, the Commonwealth of Virginia has produced an online “Community 
Broadband Tool-Kit” that provides step-by-step guidance on how a community can deploy broadband 
services.156 This tool-kit has information on broadband applications and case-studies from Virginia 
localities that have successfully deployed broadband facilities.  Another group, called Connecting Rural 
Communities, publishes a guidebook that explains in detail how to bring broadband services to rural 
communities.157 The Michigan Department of Information Technology has released its own “Action Plan 
for Deploying Broadband Internet to Michigan Local Governments,” which similarly details how 
developing goals is essential for building a broadband network.158  
  
154 Connected Nation Comments at 13. 
155 The key to many success stories was the formation of a core local group or team comprised of individuals from 
both the public and private sectors.  For example, a local businessman who partnered with the community and local 
government succeeded in bringing to Stevenson, Washington, a municipality with a population of 1,300, a Wi-Fi 
network that blankets the entire downtown area.  See, e.g., City of Stevenson, Washington, Wi-Fi Project, 
http://www.cityofstevenson.com/wifi.html (last visited May 19, 2009).  The Blacksburg Electronic Village, an 
online community center serving the needs of a diverse population, began with a collaboration among the Town of 
Blacksburg, Virginia Tech, Bell Atlantic (now Verizon), and other interested members of the community.  See 
Blacksburg Electronic Village, http://www.bev.net/ (last visited May 19, 2009).  In addition, Connected Nation’s 
local leadership teams, comprised of community leaders from key sectors such as healthcare, education, security, 
and the local private and public sectors, were integral in creating a large public wireless broadband project in a very 
rural area, the Green River Area Development District of Kentucky.  Connected Nation Comments at 13.
156 See Virginia.gov Toolkit, http://www.otpba.vi.virginia.gov/roundtable_toolkit.shtml.
157 The Connecting Rural Communities project was developed by the Penn State University and University of 
Minnesota Extension and was funded by the Southern Rural Development Center/Mississippi State University, in 
partnership with Cooperative State Research, Education, and Extension Service (CSREES)/USDA, as part of  “The 
Rural e-Commerce Extension Initiative:  A National Demonstration Project.”  See Connecting Rural Communities, 
Welcome to Connecting Rural Communities,  http://www.connectingcommunities.info/index.cfm (last visited Apr. 
29, 2009).  This guidebook simplifies the process to several discrete steps:  (1) create a team, either an individual or 
small group, that realizes how connectivity can help future economic and social well-being; (2) learn about 
broadband; (3) assess what one has, such as what infrastructure and people skills one already has in the  community; 
(4) design a network that can accommodate future growth; (5) create an action plan; (6) implement and evaluate; 
and (7) tell the story.  See Connecting Rural Communities, Getting Started,
http://www.connectingcommunities.info/article.cfm?id=198 (last visited Apr. 29, 2009).
158 See MICH. DEP’T OF INFO. TECH., ACTION PLAN FOR DEPLOYING BROADBAND INTERNET TO MICHIGAN LOCAL 
GOVERNMENTS, http://www.michigan.gov/documents/dit/Broadband_Reference_Guidebook_FINAL_212166_7.pdf 
(last visited May 19, 2009).    
REPORT ON A RURAL BROADBAND STRATEGY
31
69. The federal government should collaborate with these organizations and ones like them to 
fully understand the challenges in deploying broadband in rural areas and develop solutions that 
overcome those challenges.  We suggest that the federal government continue to take a leadership role 
alongside individuals, groups, businesses and other governmental organizations seeking to fit together all 
the pieces needed to bring state-of-the-art broadband services to rural areas.  
B. Streamlining, Improving, and Coordinating Existing Federal Programs
70. Given the numerous federal programs currently addressing rural broadband, it is critical 
that those programs function efficiently and effectively to maximize consumer benefits.  With so many 
programs addressing mostly complementary, but occasionally overlapping, aspects of rural broadband 
deployment there is the risk of duplication of effort and inefficient use of government resources.  Given 
this, all relevant federal agencies should review their programs to identify what internal barriers, if any, 
may be making rural broadband deployment more difficult.  Further, all federal agencies with 
responsibility for rural issues may wish to consider the need and opportunity for rural broadband 
deployment in designing their programs, as well as how their programs support the ability of minority-
owned and small or disadvantaged businesses to employ broadband services.  We note that all federal 
agencies have an opportunity to learn from the grantees and recipients of RUS and NTIA broadband 
funds and should identify the business models most successful in rural areas.159  
71. In addition to these overarching strategic elements to streamline and improve existing 
federal programs, we believe that there are additional specific considerations that should be taken into 
account.  We discuss some of these considerations below.   
1. Efficient Use of Government Funds and Resources
72. We recommend that federal agencies review their non-broadband programs regarding 
rural issues to see if those programs provide opportunities to promote rural broadband deployment.  For 
example, given that one of the largest deployment costs of underground fiber networks is the expense 
associated with digging the trenches to lay the fiber, some commenters suggest that costs of those 
networks could be reduced if fiber could be installed at a time when roads are already being constructed 
or repaired.  Thus, these commenters suggest that agencies responsible for road construction or repair 
should consider how these projects can be used to facilitate broadband deployment in rural areas.160 In 
addition, relevant agencies could consider offering collocation space in federally-owned buildings to rural 
broadband providers that wish to interconnect with broadband facilities terminating in those buildings,161  
developing expedited procedures for granting rights of way on public lands for broadband projects,162 or  
wiring government-supported housing for broadband.163 We also suggest federal agencies consider how 
existing federal programs and resources can be maximized to spur rural broadband deployment.  
  
159 See, e.g., Lone Eagle Consulting Comments at 2 (suggesting the creation of an Office of Broadband Innovation 
Best Practices to focus on the identification and dissemination of best practices as they emerge); see also supra Part 
IV.A.2 (discussing coordination with state and local authorities).
160 See, e.g., NMMLP Comments at 1; Mimi Pickering Comments at 1–2; Rural Broadband Policy Group Comments 
at 7; Pennsylvania Comments at 6; New America Foundation Comments, Attach. at 3; see also Broadband Conduit 
Deployment Act of 2009, H.R. 2428, 111th Cong. § 2 (2009) (requiring the installation of broadband conduit 
in highway construction projects).
161 See Benton Foundation Comments, Attach. A at 4.
162 See Access Humboldt Comments at 3; CTEF Comments at 1.
163 See, e.g., ONE ECONOMY CORPORATION, ANNUAL REPORT 2007, at 4, available at http://www.one-
economy.com/sites/all/files/report2007-low-res.pdf (last visited May 14, 2009) (stating that One Economy has 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
32
2. Coordinating Program Criteria
73. Federal agencies involved in rural broadband initiatives should consider coordinating key 
terminology, such as the term “rural,” across their programs, consistent with their legislative mandates.164  
Dissimilar definitions and criteria across complementary programs can complicate the flow of funds to 
rural broadband users and hinder federal interagency coordination.  Coordinating key terminology across 
related programs will help to ensure that federal programs work consistently and in concert with one 
another.    
3. Government Websites 
74. One of the challenges to rural broadband deployment and adoption is a lack of easy 
public access to comprehensive information about all the government resources available to help 
communities and individuals obtain access to broadband services.  Although the federal agencies involved 
have attempted, under great time pressures, to publicize and educate the public about the programs 
implementing the Recovery Act, other broadband-related programs exist that would benefit from the same 
type of information dissemination.  Further, the public would benefit enormously from the availability of 
one access point that serves as a central repository for information about all federal programs addressing 
rural broadband deployment.  Consequently, to improve the efficiency and effectiveness of federal 
broadband initiatives and programs, and enable the public to take full advantage of available federal 
resources, we recommend the Commission, in coordination with other federal agencies, consider the 
development of a comprehensive website that will provide a centralized access portal for information 
concerning all federal programs addressing broadband.165  
75. In the meantime, as an aid in these efforts, we recommend that the Commission expand 
its website to include a comprehensive set of links to all federal government rural broadband-related 
programs.166 The Commission and USDA have already taken some preliminary steps toward this end.  In 
2005, the Commission’s Wireless Telecommunications Bureau and RUS created the Joint Federal Rural 
Wireless Outreach Initiative to coordinate activities and essential information on programs and financial 
and other assistance regarding telecommunications opportunities for rural communities.  This initiative 
seeks to encourage greater access and deployment of wireless services to enhance economic development 
throughout rural America. Since February 2008, the Commission and USDA have launched the 
“Broadband Opportunities for Rural America” website and held four regional educational workshops on 
rural broadband.167 The website is designed to provide those in rural America looking to bring the 
benefits of broadband services to their communities with the expertise and resources of the Commission 
  
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worked to change the affordable housing finance policies in 42 states to foster the inclusion of affordable broadband 
into the homes of low-income individuals). 
164 See John Cromartie & Shawn Bucholtz, Defining the “Rural” in Rural America, 28 AMBER WAVES 28, 29 
(2008), available at http://www.ers.usda.gov/AmberWaves/June08/Features/RuralAmerica.htm (stating that there 
are more than two dozen rural definitions currently used by Federal agencies); see also, e.g., AT&T Comments at 2–
3; NCTA Comments at 7–8; NRTC Comments at 8; Nebraska Commission Comments at 4; SBA Comments at 7; 
WISPA Comments at 5.  
165 See National Broadband Plan NOI at paras. 116–18.
166 See 2008 Farm Bill § 6112(a)(2).
167 The workshops provide communities and organizations in rural America seeking to bring the benefits of 
broadband to their communities with an opportunity to learn about the resources, programs, and policies of the 
Commission and USDA.  FCC and USDA to Conduct Regional Educational Workshops on Rural Broadband 
During 2008, Public Notice, 23 FCC Rcd 1263 (2008).
REPORT ON A RURAL BROADBAND STRATEGY
33
and USDA in a single, easily-accessible location and user-friendly format.168 We propose that the 
existing “Broadband Opportunities for Rural America” website be expanded to include a comprehensive 
list of all federal government programs related to rural broadband.  This list could later be incorporated in, 
or linked to, a central website.
4. Delay Caused by Other Federal Requirements
76. The 2008 Farm Bill directs that this Report recommend ways to “address short- and long-
term needs assessments and solutions for a rapid build-out of rural broadband solutions”169 and “identify 
how specific Federal agency programs can best . . . overcome obstacles that currently impede rural 
broadband deployment.”170 Meeting the goal of rapid deployment of broadband to rural areas will require 
federal agencies not only to resolve numerous issues, but also to implement their decisions quickly.  We 
recommend that federal agencies having responsibility for addressing rural broadband matters consider 
reviewing their rules, regulations, or other requirements to identify those that might impede quick 
implementation of rural broadband.  Agencies also might consider whether any of their routine processes 
or functions could be streamlined when rural broadband deployment is implicated.
V. ASSESSING RURAL BROADBAND NEEDS
77. While the Commission and USDA, as well as other federal, Tribal, state, and local 
government agencies have made efforts in recent years to address the lack of broadband in rural areas—
through funding programs, regulatory actions, and outreach and data gathering initiatives—the need for 
rural broadband remains.  The 2008 Farm Bill directs that this Report include recommendations “to 
address both short- and long-term needs assessments and solutions for a rapid buildout of rural broadband 
solutions and application of the recommendations for Federal, State, regional, and local government 
policymakers.”171 We set forth below our analysis of the most common problems that have been brought 
to our attention.  We discuss activity to date with respect to each issue and offer recommendations.
A. Technological Considerations
78. The number and range of technological solutions available to speed the deployment of 
affordable broadband in rural areas is increasing.  As in other parts of the country, a number of 
technologies are available to provide the various components of broadband access in rural areas.172 Each 
technology has specific cost and performance attributes that, coupled with compatibility and 
appropriateness of existing infrastructures and demand expectations, have an impact on its suitability for 
  
168 FCC and USDA Launch Web Site Focused on Rural Broadband Opportunities, News Release, FCC, Feb. 1, 
2008.  The site provides information on the different technology platforms that can be used to provide broadband 
service, how to access spectrum necessary for delivery of wireless broadband services, government funding for 
broadband services, relevant Commission and USDA proceedings and initiatives, including the programs and 
initiatives created as a result of the recent broadband legislation, and data on broadband deployment.  In addition, 
the site provides instructions on how to locate companies already licensed to provide wireless services in or near 
specific rural communities, as well as helpful links to other government and private resources related to encouraging 
broadband opportunities in rural America.  Id.
169 2008 Farm Bill § 6112(a)(1)(C).
170 Id. § 6112(a)(1)(D).
171 Id. § 6112(a)(1)(C).
172 These include “wired” technologies, using fiber, coaxial cable, copper wires, or BPL; a variety of terrestrial 
wireless technologies; and also satellite technologies.
REPORT ON A RURAL BROADBAND STRATEGY
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deployment in a particular rural area.173 In particular, the introduction of new technologies and broadband 
deployment approaches increasingly enables providers using wireless, wireline, or satellite-based 
networks, or a combination thereof, to realize significant savings.  This is particularly true with respect to 
providers building new networks in previously unserved rural areas.174  Nevertheless, every technology 
has inherent capabilities and limitations.  Those characteristics vary greatly among technologies.  
Similarly, every rural area presents its own special challenges, and a particular technological solution may
be well-suited to one situation and poorly-suited to another.  Therefore, decision makers should proceed 
on a technology-neutral basis—by considering the attributes of all potential technologies—in selecting the 
technology or technologies to be deployed in a particular rural area.  
79. Rural broadband networks are fundamentally similar to broadband networks in other 
areas in that, in order to have broadband access to the Internet, they must include local access, or last-
mile, broadband access to the end user and backhaul, or middle-mile, capabilities to an available Internet 
peering point.  The last-mile network connects residential and business end users to a local ISP.  In this 
configuration, the middle-mile or backhaul component connects the local ISP to an Internet peering point 
or node.175 In rural settings, either or both of these components may not support robust broadband 
connectivity.176 The choice of any local access or “middle-mile” technology in a rural setting must take 
into account factors including desired capacity, cost, reach, and the need for additional resources like 
radiofrequency spectrum, electronic equipment, access to poles and rights of way, and power.  
80. The best choice for any particular area in all likelihood will reflect, in addition to the 
population density and terrain of the area, the capabilities and limitations of the technology or 
technologies under consideration.  The technology choice should take into account the ability of each 
feasible solution to provide cost-effective broadband connectivity in a given area based on consistent, 
high-quality performance that ideally will be capable of evolving over time to meet the growing 
requirements of Internet access and may well combine a variety of wireline and wireless elements.  Some 
of the technology issues to consider are discussed below. 
81. Latency.  Latency is the time delay from when an end user sends a signal to the moment 
that the signal reaches its intended destination and vice versa.  It is relevant in all parts of the network.  
Network technologies that create significant time delay can arguably degrade the performance of many 
  
173 We also note that there are a wide variety of broadband applications requiring different functionalities.  Some of 
the next-generation broadband applications require functionalities such as, for example, dramatically faster file 
transfer speeds for both uploads and downloads, and the ability to transmit streaming video.  See INFORMATION 
TECHNOLOGY & INNOVATION FOUNDATION, THE NEED FOR SPEED:  THE IMPORTANCE OF NEXT-GENERATION 
BROADBAND NETWORKS (March 5, 2009), available at http://www.itif.org/files/2009-slides-needforspeed.pdf (last 
visited Apr. 30, 2009).  
174 See generally Letter from Michele C. Farquhar, Counsel, LEMKO Corporation, to Marlene H. Dortch, Secretary, 
FCC, GN Docket No. 09-29 (filed Apr. 16, 2009) (describing advanced wireless network architectures for rural 
deployments); see also Letter from Thomas Cohen, Counsel, Calix, to Marlene H. Dortch, Secretary, FCC, GN 
Docket No. 09-29 (filed Apr. 7, 2009) (describing new approaches to fiber deployments, particularly in rural areas).
175 Rural broadband networks are typically in locations that are geographically removed from Internet peering points 
or nodes.  As a consequence, there may be no dedicated, high-capacity middle-mile line available to connect the 
local ISP with a peering point, and a rural ISP may therefore not be capable of providing robust broadband Internet 
access to its customers.  See NECA Comments at 5–6 (finding that 55% of rural telephone companies are located 
more than 70 miles from a node and 10% are more than 200 miles away).
176 See DigitalBridge Comments (“The lack of middle-mile infrastructure is one of the greatest obstacles to building 
sustainable rural broadband networks.  Many middle-mile facilities were originally built by telephone and cable 
companies for ordinary telecommunications or cable television services.  Rural communities are often still reliant 
upon these antiquated copper telephone and cable infrastructures, which lack the capabilities to deliver high-speed, 
broadband access.”). 
REPORT ON A RURAL BROADBAND STRATEGY
35
interactive Internet applications.177 The extent of the degradation increases with the extent of the delay.  
Latency is particularly important for voice applications such as VoIP178 and Video Relay Service 
(VRS)179 where a high degree of latency can degrade voice communication to an unintelligible level.  
Other non-voice, interactive Internet applications may also be less tolerant of the effects of latency.  
These include some educational applications,180 some telework applications,181 telepresence,182 many 
telemedicine applications,183 and interactive online gaming.184 We note that these industries currently 
represent only a small portion of total Internet traffic.185 However, all are burgeoning and have the 
potential to employ thousands of Americans and generate tremendous economic activity.186 Latency 
therefore should be important in considering the best options for rural America.
  
177 See Letter from Stephen L. Goodman, Counsel, ADTRAN, Inc., to Marlene H. Dortch, Secretary, FCC, WC 
Docket No. 09-40, app.1 at 3 (filed Apr. 13, 2009) (discussing allowable latency requirements for networks to retain 
an interactive experience for applications) (ADTRAN April 13, 2009 Ex Parte Letter); STUART CHESHIRE, VOLPE,
WELTY, ASSET MGMT, LLC, LATENCY AND THE QUEST FOR INTERACTIVITY (Nov. 1996) (finding in 1996 that a 
signal can move through the Internet backbone from Stanford to Boston and back in less than 80 milliseconds (ms) 
and discussing theoretical speeds as a matter of physics), http://www.stuartcheshire.org/papers/LatencyQuest.html, 
cited in ADTRAN April 13, 2009 Ex Parte Letter, app. 1 at 6 n.5. See also Letter from C. Douglas Jarrett, Counsel, 
API, to Marlene H. Dortch, Secretary, FCC, GN Docket No. 09-51 at 1 (filed May 12, 2009) (stating that the 
petroleum industry needs “more robust broadband infrastructure . . . in rural areas” and that “the industry’s 
operational/critical infrastructure industry requirements” “operate most efficiently with a maximum latency of 20 
ms, and that latency approximating 100 ms adversely impacts these applications”).
178 Interconnected VoIP providers made $514 million in 2006, the first year that the Commission has data for that 
type of provider.  See 2008 TRENDS IN TELEPHONE at tbl. 15.4.
179 VRS is a form of telecommunications relay service that allows individuals with a hearing disability to 
communicate with voice telephone users using sign language that is transmitted through video equipment connected 
to a broadband Internet connection. The video link allows a relay agent to view and interpret the user’s signed 
conversation and relay the conversation back and forth with a voice telephone user. See 47 C.F.R. 64.601(a)(26); 
see generally 47 C.F.R. 64.601 et seq.
180 Educational industries have emerged that are capable of supplying interactive educational experiences, such as 
for music lessons, over broadband connections.  See, e.g., Internet2, Internet2 Member Community Education 
Initiatives, http://www.internet2.edu/arts/member-education.html (last visited May 20, 2009).  
181 See, e.g., Cisco, WebEx, How it Works for Meetings, http://www.webex.com/how-it-works/for-meetings.html 
(last visited Apr. 23, 2009) (describing interactive video conferencing that allows users to share files virtually, show 
presentations, mutually browse, and record the meeting, among other features).
182 Youtube, Cisco Telepresence Magic, http://www.youtube.com/watch?v=rcfNC_x0VvE (last visited Apr. 23, 
2009) (demonstrating telepresence and claiming $1 billion in sales in 3 years for this “green” product).
183 See, e.g., American Telemedicine Association, Home Telehealth & Remote Monitoring SIG, 
http://www.americantelemed.org/i4a/pages/index.cfm?pageID=3320 (last visited Apr. 24, 2009) (discussing its 
home telemonitoring program and providing links that list various abstracts of peer reviewed articles involving 
interactive home telemedicine applications).
184 Interactive online gaming is a billion dollar per year industry for one American-based video game developer 
alone.  Seth Schiesel, An Online Game, Made in America, Seizes the Globe, N.Y.TIMES, Sept. 5, 2006, at A1 (noting 
that Blizzard Entertainment, Inc. made over $1 billion the previous year mostly for ongoing subscriptions from the 
interactive massive multiplayer online game, World of Warcraft). See also Alex Pham, The Work of Play: Video 
Games Grow Up, L.A.TIMES, Oct. 19, 2008 (reporting that interactive online gaming is expected to make $8 billion 
over the next ten years and that the video game industry employs thousands in California); Hiawatha Bray, 
Computer vs. The Console:  Downloads Give PC Games a Boost Battle for Buyers, BOSTON GLOBE, Jun. 17, 2008.
185 See CISCO SYSTEMS, INC., CISCO VISUAL NETWORKING INDEX—FORECAST AND METHODOLOGY, 2007–2012, at 
4, tbl. 3 (2008), http://www.cisco.com/en/US/solutions/collateral/ns341/ns525/ns537/ns705/ns827/ 
white_paper_c11-481360.pdf (last visited May 15, 2009).  
186 See, e.g., supra notes 178–184 (discussing current and emerging revenue-generating network applications).
REPORT ON A RURAL BROADBAND STRATEGY
36
82. Scalability.  Some technologies are easier to upgrade than others.  An amply sized 
conduit can be filled with more cables to increase capacity; a conduit that is too small has to be 
supplemented with a new conduit to increase capacity.  Fiber networks can easily be upgraded by 
swapping out the optoelectronic equipment.  Copper broadband loops may be capable of economically 
feasible upgrades with new network and consumer premises equipment.  Certain wireless networks can be 
upgraded with the latest technology through the relatively simple replacement of the network’s software 
cards rather the entire cell sites.  In addition, an existing, multi-use radio tower may be able to support 
additional wireless infrastructure that helps provide new services, improve coverage, and increase the bit 
rate and efficiency of spectrum usage.  Remote software upgrades are easier to accomplish than 
corresponding hardware upgrades, particularly in remote areas.  Given the high fixed costs of constructing 
broadband networks, once built, they are not likely to be replaced, especially in rural areas that are 
unserved today.  As a consequence, we believe that networks deployed in rural areas should not merely be 
adequate for current bandwidth demands.  Instead, they also should be readily upgradeable to meet 
bandwidth demands of the future.  An international comparison suggests significant additional capacity 
may be necessary.  For example, while the average download speed for residential broadband subscribers 
in the United States is currently 2.3 Mbps, residential subscribers in Japan now average 63 Mbps.187  
Moreover, service providers in Hong Kong, Japan, South Korea, and Singapore either offer 1 Gbps 
residential service now or are planning to have comprehensive 1 Gbps residential service in the near 
future,188 and South Korea is complementing its fiber rollout with 10 Mbps wireless 4G services for 
mobility.189 Bandwidth-intensive applications could very quickly become the norm in the U.S.—even in 
rural areas.  Technologies that cannot be upgraded easily could make Internet applications less than five 
years from now look like the dial-up downloads of today.  
83. Weather and Environmental Conditions.  Unfavorable weather and environmental 
conditions can affect transmission technologies.  Rain, snow, extreme temperatures, salt, pollution, and 
wind can degrade some technologies’ broadband performance or even render a technology unusable until 
the conditions change.  However, these weather conditions are considered in the design phase of each 
system, and service outages are typically very limited in duration, on the order of a few minutes or less 
per month.190 Technologies that are adversely affected by typical weather conditions are less useful than 
  
187 See ROBERT D. ATKINSON et al., INFO. TECH. & INNOVATION FOUND., EXPLAINING INTERNATIONAL BROADBAND 
LEADERSHIP app. D at D1, D3 n.5 (May 2008), http://www.itif.org/files/ExplainingBBLeadership.pdf (last visited 
May 19, 2009) (providing the average data speeds for Japan based on advertised speeds of several major carriers in 
the country).
188 See Amit Roy Choudhury, Platform for Next Level of Growth:  The Next Generation National Broadband 
Network Will Change the Way Singaporeans Work, Play and Live, BUS. TIMES. (SINGAPORE), Mar. 30, 2009 
(discussing Singapore’s plans to have 100 Mbps to 95% of homes and businesses by 2012 with consideration to 
upgrade to 1 Gbps shortly thereafter); BBC Monitoring Service, South Korea:  Super-Speed Internet Planned by 
2012, BBC INT’L REP. (MEDIA), Feb. 2, 2009 (reporting that South Korea has committed to have 1 Gbps to the home 
with 10 Mbps wireless overlay by 2012); Richard Mumford, RF and Microwaves in Asia:  Economies of Scale, 51
MICROWAVE J., INT’L ED. 118 (2008) (noting that Japan and Hong Kong already have 1 Gbps services to many 
homes and that South Korea is not far behind); see also Leslie Cauley, FCC Pursues Goal of a Nationwide 
Affordable, Fast Internet, USA TODAY, Apr. 8, 2009, at 5B (noting that Australia recently committed to 100 Mbps 
nationwide).  
189 Korea to get 1Gbps Wired Internet by 2012, ELECTRONISTA, Feb. 2, 2009, 
http://www.electronista.com/articles/09/02/02/korea.to.get.1gbps.web/ (last visited May 15, 2009); see also Sung 
So-young, IT Plan Calls for Big Spending, Jobs, JOONGANG DAILY, Feb. 2, 2009, 
http://joongangdaily.joins.com/article/view.asp?aid=2900490.
190 The International Telecommunication Union has published many recommendations concerning the availability 
and performance of various wireless services such as the fixed and mobile services, as well as satellite services. For 
example, ITU-R Recommendation F.1400 provides information on the performance and availability requirements 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
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alternatives that are not affected by weather.191
84. Survivability, Redundancy, and Security.  As noted, investment in rural technologies will 
be for the long term.  Ideally, decision makers should consider the survivability of the technology under 
adverse conditions.  Extreme weather conditions can damage broadband infrastructure and could be 
especially devastating to the extent that a rural area might not have the resources to repair broadband 
facilities disrupted over a wide region. Disasters such as Hurricane Katrina have shown that 
infrastructure that is vulnerable to adverse weather events can leave large numbers of people without 
critical communications capability for long periods of time.192 Overall economics should be balanced 
with planning to ensure that critical facilities supporting large numbers of subscribers are adequately 
protected from foreseeable weather events.  Middle mile and backhaul facilities specifically should be 
capable of surviving harsh environments and foreseeable disaster events.  However, this may be difficult 
in rural environments.  For example, there may be only a single right of way, making implementation of 
diverse strategies difficult.  In such instances, hardening of critical facilities, e.g., trenching fiber to a 
depth of 3 feet or more, may be an alternative in building critical infrastructure.  Moreover, all 
technologies present security concerns.  America’s future broadband network will be used for everything 
from our electrical grid to our emergency systems and will require infrastructure that is secure at every 
step.193
85. Distance and Topography. How well a technology performs over extended distances and 
in the context of the local topography could be a critical factor in many rural areas. For instance, because 
some wireless technologies need uninterrupted lines of sight between nodes, terrain can block the proper 
transmission of signals:  a technology that works well on an open plain may not be appropriate if 
mountains or dense forests occupy a significant portion of the transmission route.  In addition, wireless 
signals using frequency bands below 1 GHz generally penetrate environmental obstructions better than 
signals using higher bands, making the lower-band technologies particularly well-suited for rural 
deployment.194 Furthermore, wireless technologies that rely on additional infrastructure, such as a series 
  
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and objectives for fixed wireless access to the public switched telephone network. ITU-R Recommendation S.1783 
provides similar data for the satellites. There are numerous other Recommendations available for each service.  
191 See Kodiak-Kenai Cable Comments at 3–4 (discussing satellite’s frequent service disruptions as justification for 
building the “all weather” Northern Fiber Link); JOHN S. SEYBOLD, INTRODUCTION TO RF PROPAGATION 257 
(2005) (discussing satellite rain fade and rain attenuation); SAMI TABBANE, HANDBOOK OF MOBILE RADIO 
NETWORKS 32 (2000) (discussing how wireless technologies are affected by rain).
192 See SELECT BIPARTISAN COMMITTEE TO INVESTIGATE THE PREPARATION FOR AND RESPONSE TO HURRICANE 
KATRINA, US HOUSE OF REPRESENTATIVES, A FAILURE OF INITIATIVE:  THE FINAL REPORT OF THE SELECT 
BIPARTISAN COMMITTEE TO INVESTIGATE THE PREPARATION FOR AND RESPONSE TO HURRICANE KATRINA (Feb. 15, 
2006), http://katrina.house.gov/full_katrina_report.htm (noting that Katrina’s destruction of pole mounted backhaul 
facilities was a major contributing factor to the long-term disruption of communications in the wake of that 
hurricane).
193 See, e.g., Ellen Nakashima & R. Jeffrey Smith, Electric Utilities May Be Vulnerable to Cyberattack, WASH.
POST, Apr. 9, 2009, at A4.  
194 JOHN S. SEYBOLD, INTRODUCTION TO RF PROPAGATION 2, 6 (2005).  See Valerie Fast Horse Comments at 3 
(urging the Commission to allow the use of new low-frequency spectrum that can penetrate trees and make non-line-
of-site communication possible).  For example, as compared to providing service at higher frequencies, the unique 
propagation characteristics of the 700 MHz band mean that fewer towers will be needed to serve a given license 
area, thereby lowering infrastructure costs.  See Service Rules for the 698-746, 747-762 and 777-792 MHz Bands;
Revision of the Commission’s Rules to Ensure Compatibility with Enhanced 911 Emergency Calling Systems;
Section 68.4(a) of the Commission’s Rules Governing Hearing Aid-Compatible Telephones; Biennial Regulatory 
Review—Amendment of Parts 1, 22, 24, 27, and 90 to Streamline and Harmonize Various Rules Affecting Wireless 
Radio Services; Former Nextel Communications, Inc. Upper 700 MHz Guard Band Licenses and Revisions to Part 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
38
of repeaters or amplifiers, to regenerate a signal over long distances may not be appropriate in some 
settings. Wireline technologies typically require poles or trenches for deployment, which may be more 
costly in areas of permafrost and rocky terrain.
86. Maintenance and Repair.  Some technologies are more expensive to maintain and repair 
than others.  All structures eventually deteriorate over time, but some materials and technologies are 
naturally more durable than others.  Because sustainability is a serious consideration for many rural areas, 
the lower the maintenance and repair costs, the more likely the technology will prove to be cost-effective 
over time.  For example, optical technology, because of its lack of outside plant electronics, relative 
immunity to moisture, and sophisticated diagnostic capabilities, offers significant maintenance 
advantages.
87. Resource Contention and “Micro-Congestion.” Some technologies operate on a shared 
last-mile platform and some offer dedicated last-mile capacity.  Shared technologies often provide greater 
peak performance than dedicated technologies.  However, when the access network is congested, the 
performance an individual user experiences on a shared-technology network can be significantly worse 
than that over a dedicated last-mile network.  When comparing the speed of broadband access networks, it 
is important to consider peak performance, typical performance, and minimum performance.  Resource 
contention may also exist in the backhaul or middle-mile portions of the network.  Moreover, some 
technologies are more susceptible to “micro-congestion” or “jitter,” which occurs “whenever a large 
number of packets come from a faster network link to a slower network link or where several networks 
links merge to a single link.”195 High jitter can make use of interactive applications difficult.196
B. Assessment of Broadband Deployment
1. Broadband Data Collection
88. As recognized above,197 we do not have comprehensive and reliable data on the extent of 
broadband availability and subscribership in rural areas.  Nor do we have sufficient information on rural 
broadband demand, transfer speeds, and prices, or on the infrastructure available to help provide 
broadband services to unserved and underserved rural areas.  This lack of information constitutes a
significant challenge to ubiquitous and robust broadband deployment in rural areas.198 Policymakers, 
entrepreneurs, community groups, and consumers all need accurate information in these information 
categories in order to make informed decisions.  We recommend that the Commission work to collect this 
  
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27 of the Commission’s Rules; Implementing a Nationwide, Broadband, Interoperable Public Safety Network in the 
700 MHz Band; Development of Operational, Technical and Spectrum Requirements for Meeting Federal, State and 
Local Public Safety Communications Requirements Through the Year 2010, WT Docket Nos. 06-150, 96-86, 03-
264, 01-309, 06-169, CC Docket No. 94-102, PS Docket No. 06-229, Report and Order and Further Notice of 
Proposed Rulemaking, 22 FCC Rcd 8064 (2007) (700 MHz Report and Order); Second Report and Order, 22 FCC 
Rcd 15289, 15348, para. 154 (2007), recon. pending (700 MHz Second Report and Order).
195 See GEORGE OU, THE INFORMATION TECHNOLOGY AND INNOVATION FOUNDATION, MANAGING BROADBAND 
NETWORKS:  A POLICYMAKER’S GUIDE 10 (2008).
196 See id.
197 See supra Part III.B (discussing the current dearth of data regarding the state of broadband in America).
198 ACS Comments at 4; Connected Nation Comments at 4 (“[I]dentifying and mapping unserved and underserved 
areas—is a necessary factual guide for any rural broadband strategy.”); NASUCA Comments at 5 (“Another key to 
a national rural broadband strategy is knowing where broadband service is available, and at what speeds and at what 
prices.”); NATOA Comments at 6.  
REPORT ON A RURAL BROADBAND STRATEGY
39
information, in coordination with the administration and Tribal and state governments.  We provide a 
brief overview of each of these information categories below.  
89. Availability and Subscribership.  Determining the extent to which broadband service is 
available in rural areas, and the extent to which consumers and businesses subscribe in areas where it is 
offered, are key elements of assessing broadband needs and deployment.  Data collected for smaller 
geographic areas and for discrete population subgroups, such as Tribal Nations, minority groups, and 
persons with disabilities, are generally more informative than data collected for larger areas or groups.  In 
addition, provider-specific and technology-specific data on broadband availability and subscribership 
would help policymakers evaluate issues such as the level of broadband competition in rural areas and the 
extent to which certain technology platforms are better suited to serve certain types of rural markets.  It 
may also be important to identify the availability and subscribership of broadband at typical “anchor 
institutions,” such as schools, libraries and health institutions, which play a unique role in both 
introducing the benefits of broadband to a community as well as stimulating further subscriber growth.  
Furthermore, overlaying or correlating granular availability and subscribership data with data for other 
metrics, such as population density, income, and terrain, will allow policymakers to understand the steps 
needed to increase broadband availability and subscribership in particular rural areas.
90. Speeds.  Information on the data transfer speeds available to and experienced by rural 
broadband users is an important component in assessing rural broadband deployment.  The Commission 
has recognized that the broadband connection speeds that customers experience are neither constant nor 
identical to the advertised speeds or the theoretical maximums of a given network or particular service 
configuration.199 Ideally, data collected on broadband speeds would acknowledge such differences and 
attempt to accurately reflect the average or typical data transfer rates that broadband users experience.
91. Prices. Because the price of broadband service affects the consumer’s decision whether 
or not to subscribe, detailed pricing information could be helpful in analyzing the lack of broadband 
subscribership in rural areas.  We recognize that collecting and analyzing pricing information raises 
various complexities, such as how to determine the price of broadband service offered as part of a service 
bundle, how to account for introductory offers and promotions, and how to keep pace with frequent price 
fluctuations.200 Nevertheless, we believe information on broadband prices, including how prices vary 
among rural communities and service tiers, could be helpful because of the key role that prices play in 
broadband demand and adoption.  
92. Demand.  Policymakers also should consider obtaining detailed information on the 
demand for broadband services.  As discussed in detail below,201 promoting broadband deployment will 
require steps to increase broadband demand as well as supply. Addressing broadband demand effectively 
likely will require specific survey data on the interest or lack of interest in broadband service among non-
subscribers, and the reasons for that interest or lack of interest.  Such data ideally would be available for 
various demographics such as age, location, and income; for businesses; and for certain classes of 
institutional users, such as schools, libraries, public safety agencies, and hospitals.202 A special focus also 
  
199 See Development of Nationwide Broadband Data to Evaluate Reasonable and Timely Deployment of Advanced 
Services to All Americans, Improvement of Wireless Broadband Subscribership Data, and Development of Data on 
Interconnected Voice over Internet Protocol, WC Docket No. 07-38, Report and Order and Further Notice of 
Proposed Rulemaking, 23 FCC Rcd 9691, 9709–11, para. 36 (2008) (2008 Broadband Data Gathering Order).   
200 See id. at 9710, para. 37.
201 See infra Part V.C.
202 See Microsoft Comments at 2 (arguing that schools need capacity sufficient to deliver high-quality video to the 
classroom, but noting that currently, there is no reliable data on the number or type of schools that have such 
capacity).
REPORT ON A RURAL BROADBAND STRATEGY
40
must be given to Tribal members and minorities, where the lack of broadband subscribership appears 
particularly acute.
93. Infrastructure.  The metrics described above focus on evaluating the different 
components of the rural broadband marketplace.  In addition to examining data for these metrics, a needs 
assessment also could examine information on the existing infrastructure in rural areas that is or could be 
used to provide broadband service.  For example, policymakers could consider gathering data on the 
Internet backbone and middle-mile Internet access points,203 including fiber routes and fiber-lit locations; 
locations of base stations, towers, switches, and collocation facilities; and locations of non-
communications infrastructure, such as water towers, railroads, and highways, that could support 
broadband network facilities.
94. Federal Efforts to Assess Broadband Availability.  The Commission has been tracking 
broadband subscribership and deployment since 2000 through its Form 477 local competition and 
broadband deployment reporting program.  Providers of high-speed Internet access service—formerly 
defined as data speeds exceeding 200 kbps in at least one direction—are required to submit to the 
Commission semi-annually data regarding several metrics, including their number of broadband 
subscribers, data rates, and technology platforms.  In its Section 706 Reports, the Commission has used 
these data to assess whether “advanced telecommunications capability” is being deployed to all 
Americans in a reasonable and timely manner.204  
95. Although past Section 706 Reports included an incomplete analysis of the broadband 
market and relied on data that lacked sufficient granularity,205 the changes to the Commission’s 
broadband data collection rules adopted in the 2008 Data Gathering Order and the new requirements for 
Section 706 Reports included in the BDIA should improve those reports going forward.  In the 2008 Data 
Gathering Order, the Commission required most broadband providers to file subscribership information, 
including their number of subscribers—broken down by technology, speed tier, and 
business/residential—on a Census Tract level.206 That order increased the number of speed tiers (both 
upload and download) for broadband reporting purposes in order to provide a more granular depiction of 
the data rates at which broadband consumers access the Internet.207 Providers of mobile wireless 
broadband services must submit their broadband subscriber totals on a state-by-state basis as well as a list 
of the Census Tracts covered by their mobile broadband networks.208 In addition to reporting their 
number of broadband-capable mobile devices in use, mobile broadband providers now must specify the 
  
203 As discussed above, this backbone is part of the foundation needed to make broadband services available in all 
areas.  See supra Part V.A (regarding technological considerations).
204 See supra note 103 (regarding the Commission’s section 706 Reports).  
205 See, e.g., Section 706 Fifth Report, 23 FCC Rcd at 9685 (Commissioner Copps, dissenting).
206 See 2008 Broadband Data Gathering Order, 23 FCC Rcd at 9695–99, paras. 10–15.
207 The Commission updated the broadband reporting tiers to include upload and download speeds of:  (1) greater 
than 200 kbps but less than 768 kbps; (2) equal to or greater than 768 kbps but less than 1.5 Mbps; (3) equal to or 
greater than 1.5 Mbps but less than 3.0 Mbps; (4) equal to or greater than 3.0 Mbps but less than 6.0 Mbps, (5) equal 
to or greater than 6.0 Mbps but less than 10.0 Mbps; (6) equal to or greater than 10.0 Mbps but less than 25.0 Mbps; 
(7) equal to or greater than 25.0 Mbps but less than 100.0 Mbps; and (8) equal to or greater than 100 Mbps—for a 
total of 72 tiers.  2008 Broadband Data Gathering Order, 23 FCC Rcd at 9700–01, para. 20.  The previous five 
“speed tiers” were based on the transfer rate of the connection’s faster direction and were divided as follows:  (1) 
greater than 200 kbps but less than 2.5 Mbps; (2) greater than or equal to 2.5 Mbps but less than 10 Mbps; (3) 
greater than or equal to 10 Mbps but less than 25 Mbps; (4) greater than or equal to 25 Mbps but less than 100 
Mbps; and (5) greater than or equal to 100 Mbps. Local Telephone Competition and Broadband Reporting, WC 
Docket No. 04-141, Report and Order, 19 FCC Rcd 22340, 22347–48, para. 14 (2004).
208 See 2008 Broadband Data Gathering Order, 23 FCC Rcd at 9698–99, para. 16.
REPORT ON A RURAL BROADBAND STRATEGY
41
percentage of those users that have devices and subscription packages that permit them to access the 
lawful Internet content of their choice.209 Broadband providers subject to these reporting requirements 
must file Form 477 twice each year.  The Commission staff is in the process of analyzing the first round 
of Form 477 filings under these new rules, which were due March 16, 2009.  The next Form 477 data 
filings are due on September 1, 2009.
96. In addition to collecting the Form 477 broadband data, the Commission tracks the 
deployment of mobile wireless broadband networks in its Annual CMRS Competition Reports.210 With 
this information, the Commission is able to estimate, at the Census Block level, the percentage of the U.S. 
population covered by various mobile broadband network technologies.211 The Commission annually 
collects data on cable system broadband capability, including subscriber numbers and capacity, using 
FCC Form 325.212 The Commission also collects data on the satellite industry for its Annual Satellite 
Competition Reports, which examine the reach of satellite-based, two-way broadband to the home.213
97. In October 2008, Congress passed the BDIA, which provides for improved federal data 
on the deployment and adoption of broadband services.214 That Act requires the Commission to issue its 
Section 706 Reports “annually” instead of “regularly” and adds several types of data regarding broadband 
services that the Commission must produce and evaluate.  Specifically, the BDIA requires that the 
Commission’s Section 706 Report discretely identify “unserved” areas, as well as the population, 
population density, and average per capita income of each of these areas.215 Further, the Commission 
must conduct a consumer survey at least annually that includes questions regarding broadband technology 
choices, prices, speeds, applications, consumer decisions and options.216 The BDIA also requires the 
Commission to conduct and evaluate an international comparison of broadband speeds and prices.217 On 
March 31, 2009, the Commission released a Public Notice seeking comment on how it should implement 
the BDIA’s consumer survey and international comparison requirements.218
98. Broadband-Related Efforts in the States. Many efforts have been made at the state level 
to review and improve broadband deployment.  For example, in California, Governor Schwarzenegger 
commissioned a Broadband Task Force to “remove barriers to broadband access, identify opportunities 
for increased broadband adoption, and enable the creation and deployment of new advanced 
  
209 See id. at 9703–04, para. 23.
210 These maps are provided through a contract with American Roamer. See supra note 47.
211 Id.
212 See 1998 Biennial Regulatory Review—Annual Report of Cable Television Systems, Form 325, filed Pursuant to 
Section 76.403 of the Commission’s Rules, CS Docket No. 98-61, Report and Order, 14 FCC Rcd 4720 (1999).
213 E.g., Annual Report and Analysis of Competitive Market Conditions with Respect to Domestic and International 
Satellite Communications Services, IB Docket No. 07-252, Second Report, 23 FCC Rcd 151570 (2008).
214 See supra Part III.D (regarding recent legislative developments).
215 BDIA § 103(a).
216 Id. § 103(c).
217 Specifically, section 103(b) of the BDIA states:  “As part of the assessment and report required by section 706 of 
the Telecommunications Act of 1996 (47 U.S.C. 157 note), the Federal Communications Commission shall include 
information comparing the extent of broadband service capability (including data transmission speeds and price for 
broadband service capability) in a total of 75 communities in at least 25 countries abroad for each of the data rate 
benchmarks for broadband service utilized by the Commission to reflect different speed tiers.”  Id. § 103(b)(1).  
218 See Comment Sought on International Comparison and Consumer Survey Requirements in The Broadband Data 
Improvement Act, GN Docket No. 09-47, Public Notice, 24 FCC Rcd 3908 (2009).
REPORT ON A RURAL BROADBAND STRATEGY
42
communications technologies.”219 This Task Force’s final report, issued in January 2008, includes 
broadband availability and speed maps as well as recommendations for improving broadband deployment 
throughout California.220 Similarly, in the Commonwealth of Virginia, Governor Kaine established a 
Broadband Roundtable to advance the goal of broadband access for all Virginia businesses by 2010.221  
The Roundtable has met with local and regional leaders and collected information concerning broadband 
deployment, community needs, and barriers to deployment throughout Virginia.  As discussed above, in 
response to those meetings, the Roundtable created an online resource to guide participants in 
community-led broadband initiatives,222 and in September 2008 issued a final report on broadband issues 
facing Virginia.223
99. Other efforts at the state level have focused on using public-private partnerships to 
expand access to broadband, while also assessing the demand for broadband services.224 These efforts 
include ConnectKentucky’s efforts to bring broadband services to previously unserved areas within 
Kentucky.225 Other states, including Minnesota, Ohio, South Carolina, Tennessee, and West Virginia, 
have adopted public-private partnerships following the ConnectKentucky model.226
100. Some states have provided tax incentives to encourage investment in broadband 
infrastructure and other related equipment and expenses;227 created dedicated funding that leverages 
private sector funds to increase investment in broadband infrastructure;228 and engaged local communities 
to identify and increase demand for broadband deployment in unserved areas.229 Finally, there have been 
a number of regional efforts to increase rural broadband deployment.  For example, in Southeastern 
  
219 CALIFORNIA BROADBAND REPORT at 7.
220 Id.
221 XO/Nextlink Comments at 2.
222 See supra at 65; see also Virginia.gov Toolkit. 
223 COMMONWEALTH’S BROADBAND ROUNTABLE, FINAL REPORT (Sept. 9, 2008) available at
http://www.otpba.vi.virginia.gov/pdf/Governor_report.pdf (last visited May 18, 2009) (VIRGINIA BROADBAND 
ROUNDTABLE FINAL REPORT); see also XO/Nextlink Comments at app. A.
224 See, e.g., Connected Nation Comments at 1–3.  
225 Connected Nation at Comments at 1.  ConnectKentucky, a pilot program that led to Connected Nation, worked 
with the private sector to create an online map of broadband availability in Kentucky and to conduct consumer 
surveys to identify barriers to broadband adoption in that state.  Connected Nation Comments at 1, 12–13.
226 Connected Nation Comments at 8; see Harris Corporation Comments at 4 (supporting public-private partnerships 
because private companies can contribute “managerial efficiencies and technological proficiency,” while 
government can “provide the economic incentive for private companies to deploy broadband in rural areas, 
especially where such an incentive has never previously existed”).  
227 See infra Part V.C (regarding stimulating demand).
228 See, e.g., NGA, STATE EFFORTS TO EXPAND BROADBAND (stating that the California Public Utilities Commission 
allocated $100 million to provide matching funds of up to 40% of the total project cost of broadband infrastructure 
deployment projects in California); id. (stating that the Vermont Telecommunications Authority has the authority to 
issue up to $40 million in state-backed bonds to finance the construction of broadband infrastructure in Vermont).
229 See Pennsylvania Comments at 2.  See generally BROADBAND INVESTMENT FOR ECONOMIC RECOVERY:  
PERSPECTIVES OF AN AD-HOC GROUP OF STATE BROADBAND ENTITIES 5–6 (Feb. 9, 2009), attached to
Massachusetts Comments (describing a variety of approaches that states have used to encourage broadband 
deployment, including creating specific agencies to focus on broadband; fostering public-private cooperation and 
co-investment; funding access with grants or loans; streamlining rights of way; mapping broadband facilities; 
promoting education efforts; encouraging inclusion of telecommunications infrastructure in the planning and 
deployment of capital improvement projects; and setting goals for broadband deployment and use). 
REPORT ON A RURAL BROADBAND STRATEGY
43
Wisconsin, an advisory committee was established to implement a regional broadband plan covering 
seven counties, of which about 64 percent of the land area is rural.230 The Appalachian Regional 
Commission and the Delta Regional Authority also have made efforts to encourage broadband 
deployment in their respective regions.231
2. Broadband Mapping
101. Mapping provides a powerful and expressive way to convey information, and may be 
uniquely suited to explaining the status and progress of the evolution of broadband deployment and to 
targeting deployment obstacles.  In the rural context, broadband mapping is a necessary tool 
for identifying and tracking broadband service availability and infrastructure deployment.  However, as 
with any visualization or other presentation of information, the utility of a map is only as good as the 
underlying data, and the accuracy and reliability of such data must be verifiable.  Similarly, broadband 
mapping efforts must reconcile the sometimes competing concerns of technical limitations, 
confidentiality, and infrastructure security.
102. The Recovery Act directs NTIA to create a “comprehensive nationwide inventory map of 
existing broadband service capability and availability” that shows the geographic extent to which that 
capability is deployed and available for each state. 232 By February 2011, NTIA should to the extent 
practical make this inventory map accessible by the public on an NTIA website in a form that is 
interactive and searchable.233
103. A number of different organizations have begun to map broadband availability in several 
states.234 The entities vary, although most of them are public-private partnerships,235 or task forces 
established by a governor and similarly comprised of community, government, and broadband industry 
representatives.236 In addition, a handful of state public utility commissions also map broadband 
availability,237 as do certain state-sponsored initiatives.238 Apart from mapping, these organizations 
generally seek to promote broadband deployment throughout their states, particularly in rural areas.  
These organizations typically rely on voluntary submissions of data on residential broadband availability, 
and the entities collocating the data often sign non-disclosure agreements and make other commitments 
(such as agreeing to depict only aggregated data) in response to providers’ requests for confidentiality.239  
  
230 HierComm Comments at 2–3.
231 Connected Nation Comments at 8.
232 Recovery Act § 6001(l).
233 Id.
234 See, e.g., Connected Nation Comments at 8 (identifying Alabama, Arkansas, California, Colorado, Hawaii, 
Illinois, Kansas, Kentucky, Maine, Massachusetts, Minnesota, North Carolina, Ohio, Tennessee, Virginia, and West 
Virginia); see Broadband Access in Illinois, Institute for Regulatory Policy Studies, Illinois State University, August 
2007, available at http://www.irps.ilstu.edu/broadband/IRPS%20Broadband%20Report%20080907.pdf (last visited 
March 20, 2009); e-NC, Broadband Access in North Carolina, http://e-ncbroadband.org/ (last visited April 1, 2009).
235 See, e.g., Connected Nation Comments at 1, 7 (explaining that Connected Nation is a non-profit organization 
with operations in nine states that grew out of the ConnectKentucky pilot initiative).
236 See, e.g., CALIFORNIA BROADBAND REPORT; VIRGINIA BROADBAND ROUNDTABLE FINAL REPORT.
237 See, e.g., VT DEP’T OF PUB. SERV., APPROXIMATE BROADBAND AVAILABILITY IN VERMONT—2006 (2007), 
http://publicservice.vermont.gov/cable/broadband_availability_map.html.pdf (providing a map of broadband 
availability).
238 See, e.g., e-NC Authority, Who We Are, http://www.e-nc.org/WhoWeAre.asp (last visited April 1, 2009).
239 See, e.g., Comments of Connected Nation, WC Docket No. 07-38 at 35.
REPORT ON A RURAL BROADBAND STRATEGY
44
Many of these mapping efforts have resulted in useful maps of network broadband availability, although 
we are aware of no state mandate that all broadband providers must submit broadband availability data.  
We note also that certain commenters in the Commission’s availability mapping proceeding question the 
independence and effectiveness of many of the non-governmental broadband mapping organizations.240  
104. Several federal agencies have mapping programs for various initiatives. Federal mapping 
efforts can and should play a pivotal role in overcoming the challenges that currently impede rural 
broadband deployment.  Elsewhere in this Report, we discuss in detail the importance of coordination 
among governmental organizations and private parties.241 Such coordination will be critical to making the 
best use of the data being gathered through the efforts discussed above.242 We recognize the importance 
of including all rural areas, particularly Tribal lands, in federal mapping efforts.  Pursuant to the Recovery 
Act and the BDIA, the Commission and the Administration should continue their efforts to coordinate 
federal, Tribal, state, local, and private mapping efforts.  
C. Stimulating and Sustaining Demand for Broadband
105. A critical component in addressing solutions to promote rural broadband deployment is 
ensuring the sustainability of rural broadband networks.  That is, once built, the networks must generate 
enough revenue to cover their costs.  Several surveys show that a substantial percentage of consumers in 
the United States have access to broadband services, but choose not to subscribe.243 Given that sustained 
deployment of broadband services is unlikely without sufficient consumer demand for broadband 
services, a strategy designed to promote rural broadband adoption must examine and address the 
discrepancy between broadband availability and broadband adoption.  Rural areas have diverse 
populations and varied terrains.244 They also have variable access to resources, and are served, if at all, 
by various types of providers (e.g., a large incumbent LEC, a small local cooperative, or a WISP), each of 
which may have differing levels of technical expertise, business experience, and access to capital markets.  
We discuss below the various factors that may affect demand for, and sustainability of, broadband 
services in rural areas.    
  
240 See, e.g., American Public Power Ass’n. Comments, WC Docket No. 07-38, at 5; Consumers Union Comments, 
WC Docket No. 07-38, at 6–7 n.4, 17; Kentucky Municipal Utilities Reply, WC Docket No. 07-38, at 6, 13.  But see
Connected Nation Comments, WC Docket No. 07-38, at 6, 10, 12-13 (stating that the vast majority of Connected 
Nation’s funding is from public sources and it is unbiased and that its ability to keep data confidential increases 
voluntary disclosures by providers); Connected Nation Reply, WC Docket No. 07-38, at ii–iii, 12–18.
241 See supra Part IV.A (discussing interagency coordination).
242 See supra Part V.B.1 (discussing broadband data collection).
243 See Connected Nation Comments at 9 (stating that according to a Connected Nation study, approximately 90% of 
households in the U.S. have access to some form of broadband service, but only 50% of households choose to 
subscribe); NCTA Comments at 15, Attach. 1 at 2 (estimating that there are approximately 35 million households in 
the U.S. that have access to broadband but do not currently use it).
244 See, e.g., Rural Broadband Policy Group at 5 (noting the diversity of rural America in “terrains, cultures, foods, 
peoples, and knowledge” and opining that there is no “one size fits all solution”); Access Humboldt Comments at 1 
(agreeing with the Rural Broadband Policy Group).
REPORT ON A RURAL BROADBAND STRATEGY
45
106. Several factors may contribute to low consumer demand for broadband services.245 First, 
a lack of training and knowledge regarding the benefits of Internet access may hinder broadband 
adoption.246 Many individuals in non-broadband households view broadband as either unimportant or 
difficult to use.247 For example, TIA claims that approximately 42 percent of rural residents without 
broadband at home fail to subscribe because of a “perceived lack of need.”248 The Pew American Home 
Life Project survey found similar perceptions among those that did not have Internet access, finding that 
an estimated 40 percent of non-users do not use the Internet because “they are not interested” or view it as 
“a waste of time.”249  
107. Another demand and sustainability factor is the affordability of broadband services to 
consumers, which may include continuing subscription costs, computer equipment costs,250 and the costs 
of other customer premises equipment necessary to access broadband services.251 Some studies show that 
many dial-up users believe they cannot afford broadband services.252 According to CFA/CU, only 15 
percent of rural households with annual incomes less than $25,000 have broadband subscriptions whereas 
45 percent of rural households with annual incomes greater than $25,000 have broadband access in the 
home.253 These studies demonstrate that the inability of consumers to afford either broadband service or 
the computer equipment necessary to access broadband service at current market prices is a likely barrier 
to broadband adoption and sustainability in certain rural markets.  
  
245 For example, one estimate of the demand for Internet access services indicates that approximately 29% of the 
U.S. population in 2007 did not use the Internet.  Internet use is defined as a household with a subscription to either 
broadband or dial-up or use of a terminal outside the home to access the Internet.  See U.S. CENSUS BUREAU, TABLE 
1118. HOUSEHOLD INTERNET USAGE IN AND OUTSIDE OF THE HOME, BY SELECTED CHARACTERISTICS: 2007, 
http://www.census.gov/compendia/statab/tables/09s1118.pdf (last visited May 19, 2009) (TABLE 1118).  TIA, citing 
to the Pew Internet and American Life Project, claims that approximately one quarter of the population does not use 
the Internet.  TIA Comments at 4.
246 See, e.g., NCTA Comments at 15; TIA Comments at 4.    
247 See, e.g., NCTA Comments, Attach. at 10 (citing John B. Horrigan, Obama’s Online Opportunities II:  If You 
Build It, Will They Log On?, at iii, 12 (2009))
248 See CONNECTED NATION, CONSUMER INSIGHTS TO AMERICA’S BROADBAND CHALLENGE 11 (Oct. 13, 2008),
available at http://www.connectednation.com/_documents/ConsumerInsightsBroadbandChallenge_20081013.pdf 
(CONNECTED NATION REPORT), cited by TIA Comments at 4.  According to NCTA, nearly half of the population 
that does not subscribe to broadband says it does not need such a connection.  NCTA Comments, Attach. at 10 
(citing CONNECTED NATION REPORT at 2).
249 See 2008 PEW BROADBAND ADOPTION STUDY at 12–13.
250 According to TIA, 34% of rural consumers do not have Internet access due to the lack of a computer.  TIA 
Comments at 4.
251 In the National Broadband Plan NOI, the Commission sought comment on the extent to which it should 
encourage or subsidize broadband subscription in areas where service is already available.  National Broadband 
Plan NOI at paras. 27, 39–41, 54.
252 See NCTA Comments, Attach. A at 11 (citing 2008 PEW BROADBAND ADOPTION STUDY at ii, 11, to show that 35 
percent of consumers surveyed responded that the price of broadband would have to fall for them to subscribe).
253 See CFA/CU Comments at 2.  Another estimate shows that for households with an income in the $20,000 to 
$24,999 range, 28.9% had broadband subscriptions, whereas 77% of the households with incomes in the $75,000 to 
$99,999 range subscribed to broadband services.  See NTIA, HOUSEHOLDS USING THE INTERNET. The Benton 
Foundation also provides an estimate of decreasing broadband adoption by income.  For Americans with incomes 
under $20,000 annually, broadband penetration has fallen from 29% in 2007 to 25% in 2008.  Benton Foundation 
Comments at 6.  
REPORT ON A RURAL BROADBAND STRATEGY
46
108. Demand-side programs can effectively promote the adoption and use of broadband 
among underserved and rural populations.254 Congress already has taken important steps in this regard.  
For example, the BTOP program, established by the Recovery Act, provides funding for, among other 
measures, grants to provide broadband education, awareness, training, access, equipment, and support to 
educational institutions, libraries, healthcare providers, and other community support organizations to 
facilitate greater use of broadband.  The Recovery Act also directs grants to support organizations and 
agencies that provide outreach, access, equipment, and support services to facilitate greater use of 
broadband service by low-income, unemployed, aged, and otherwise vulnerable populations.255 The 
Recovery Act provides, in addition, at least $250 million in funding for innovative programs to encourage 
sustainable adoption of broadband service.256 In singling out these purposes, Congress recognized the 
importance of consumer affordability and education in ensuring the adoption and sustainability of rural 
broadband networks.
109. In its National Broadband Plan proceeding, the Commission is exploring long-term 
solutions to address the lack of demand for broadband services.257 Specifically, the National Broadband 
Plan NOI sought comment on improving digital literacy and media literacy skills, increasing broadband 
access device ownership, and the effect of content and copyright protections on broadband network 
deployment and usage.258 The National Broadband Plan NOI also sought comment on the extent to 
which a centralized clearinghouse for outreach and computer and broadband training initiatives should be 
a component of the national broadband plan.259  
110. Some training and education programs are already underway to increase adoption of 
broadband in local communities.260 Rural libraries, which currently serve as an access point for 
broadband Internet service, can provide another avenue for Internet training and education, as librarians 
are well-positioned to educate and train individuals on the benefits of Internet access.261 Further, libraries 
can stimulate demand for broadband services by hosting community fora and providing training on 
accessing specific information.262 Rural libraries can also function as public computing centers, providing 
broadband Internet access to patrons, which in turn can help stimulate further demand for consumer 
broadband services.263 We suggest that Internet education focus on general digital literacy as well as the 
  
254 See, e.g., Benton Foundation Comments at 8, Attach. at 7, 10; Rural Broadband Policy Group Comments at 1; 
Connected Nation Comments at 3, 9; NASUCA Comments at 5–6; NCTA Comments at 15, Attach. at 1–2, 4.
255 Recovery Act § 6001(b).
256 Recovery Act, Division A, Title II, National Telecommunications and Information Administration (Broadband 
Technology Opportunities Program Appropriations).
257 National Broadband Plan NOI at paras. 55–57. 
258 Id.
259 Id. 
260 For example, Connected Nation operates community-based organizations that sponsor computer training and 
education to increase the value of accessing the Internet for businesses.  Connected Nation Comments at 10.  
Connected Nation also sponsors grassroots “eCommunity Leadership Teams” comprised of community leaders from 
key sectors that develop and implement technology promotion plans within their communities.  Connected Nation 
Comments at 11–12.  However, we note that these programs are not necessarily specifically directed to rural areas.   
261 See ALA Comments at 3.
262 See ALA Comments at 3, 6.
263 Public computing facilities can provide numerous benefits to users in the community.  See generally U.S. Dep’t 
of Hous. and Urban Dev., Multifamily Housing – Neighborhood Networks,  http://www.hud.gov/offices/hsg/ 
mfh/nnw/nnwaboutnn.cfm (last visited May 19, 2009) (describing HUD’s Neighborhood Networks initiative, which 
encourages property owners and managers to open onsite, multiservice technology centers, which has resulted in 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
47
many Internet-based resources that can benefit users, such as access to healthcare information, education 
of children and adults, financial planning, online banking, online shopping, and electronic mail.  Further, 
it is imperative that education and training initiatives be forward-looking to ensure continued and 
sustained subscription to broadband services in rural areas.    
111. Both public and private entities, including broadband providers, should consider 
programs designed to stimulate broadband adoption and sustainability among targeted groups.  
Pennsylvania has established a special program that aggregates demand in communities looking to 
achieve an agreed-upon deployment threshold.264 This program provides state grants for outreach and 
demand aggregation activities, including programs on the benefits and use of broadband services.265  
Communities may also want to consider ways to aggregate or consolidate demand as part of developing a 
strategy for a sustainable broadband network.266 Participants in this effort could include individual 
consumers, businesses, educational institutions, health care facilities, and government agencies.  Entities 
that can function as anchor tenants with adequate demand to both spur broadband infrastructure 
investment and ensure sustainability can function as an integral part of a rural broadband strategy.  
112. Furthermore, public and private entities also should consider programs, such as making 
computers or laptops available at a discount to qualifying households or discounting monthly service, 
designed to make broadband affordable to those with low incomes.267 The Commission has also sought 
comment on establishing a Broadband Lifeline/Link Up pilot program to examine how the low-income 
universal service support program can be used to enhance access to broadband Internet access services for 
low-income Americans.268  
  
(...continued from previous page)
more than 1,400 Neighborhood Networks centers across the U.S. that offer job-training classes in computer skills, 
resume writing, and interviewing techniques; job placement services; General Educational Development (GED) 
preparation; English as a Second Language (ESL) classes; programs that allow seniors to become familiar with 
computers and use them to better their lives, whether through staying in touch with family and friends via e-mail or 
searching for healthcare benefits online; and computer access for children whose families cannot afford their own).
264 See Pennsylvania Comments at 2.
265 See PA. DEP’T OF CMTY. AND ECON. DEV., BROADBAND OUTREACH AND AGGREGATION FUND, PROGRAM 
GUIDELINES 1 (June 2006), http://www.newpa.com/download.aspx?id=989.  
266 For example, Pennsylvania has established a special program that aggregates demand in communities looking to 
achieve an agreed upon deployment threshold.  See Pennsylvania Comments at 2.
267 See, e.g., NCTA Comments at 15.  For example, recognizing that customer premises equipment (CPE) costs can 
be a barrier to broadband implementation and adoption, the National Rural Telecommunications Cooperation 
(NRTC) recently announced a subsidized leasing program for its members to pass on to customers in their rural 
markets.  Thus, WildBlue satellite service customers can now gain access to the service for just $99, which includes 
CPE and installation.  Under this program, the actual CPE cost of $400 is subsidized by NRTC and its members.  
This program has been launched as a test to help expand access to broadband.  NRTC Comments at 6.
268 See High-Cost Universal Service Support; Federal-State Joint Board on Universal Service; Lifeline and Link Up; 
Universal Service Contribution Methodology; Numbering Resource Optimization; Implementation of the Local 
Competition Provisions in the Telecommunications Act of 1996; Developing a Unified Intercarrier Compensation 
Regime; Intercarrier Compensation for ISP-Bound Traffic; IP-Enabled Services, CC Docket Nos. 01-92, 99-200, 
99-68, 96-98, 96-45, WC Docket Nos. 06-122, 05-337, 04-36, 03-109, Order on Remand and Report and Order and 
Further Notice of Proposed Rulemaking, FCC 08-262, para. 40; app. A, paras. 64–91; app. C, paras. 60–87 (rel. 
Nov. 5, 2008) (November 2008 Further Notice).  Specifically, the Commission sought comment on making 
available $300 million each year for three years to enable eligible telecommunications carriers to provide discounts 
on broadband Internet access service and the necessary access devices to low-income consumers.  See id. The 
Commission’s existing Low-Income program, discussed infra, helps ensure that the costs of starting and continuing 
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REPORT ON A RURAL BROADBAND STRATEGY
48
D. Addressing Network Costs 
113. As a general matter, the costs involved in deploying a broadband network are significant, 
requiring providers to purchase electronic equipment,269 obtain access to rights of way,270 interconnect 
with other networks, and construct the actual network.271 Yet, rural networks can often be even more 
expensive to deploy and potentially more expensive to maintain than networks in non-rural areas for a 
variety of reasons, which can serve as a formidable barrier to rural broadband deployment.272 Rural 
broadband networks typically serve far fewer customers per square mile than urban and suburban 
networks,273 and often cover larger land areas that may include challenging topographies and climate 
conditions,274 making it extremely costly to provide broadband service to remote areas.275 For example, 
the topography in such areas may limit the reach of wireless transmission facilities on individual towers, 
and, consequently, more towers may need to be built, thereby increasing the cost of wireless broadband 
deployment.  Similarly, because radio signals using spectrum below 1 GHz generally penetrate 
environmental obstructions better than signals using higher bands,276 licensees with spectrum only in the 
higher frequency bands may need to deploy more infrastructure, including towers, to cover the same land 
area, which can also lead to higher deployment costs in rural areas.  In addition, the cost of extending 
telecommunications lines to remote areas contributes to higher deployment costs in rural areas.  It is 
notable that costs may vary among, for example, fiber,277 digital subscriber line (DSL),278 and cable 
deployment.279  
  
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telephone service do not prevent low-income consumers from receiving telephone service.  See infra Part VI.A 
(discussing Universal Service).
269 See HierComm Comments, Attach. 3, tbl. 18 (listing equipment and costs for wireless broadband deployers).
270 See generally Fibertech/KDL Comments (discussing pole make ready costs and rents).
271 See generally HierComm Comments, Attach. 1 (discussing assessments made by deployers). 
272 See GAO, BROADBAND DEPLOYMENT IS EXTENSIVE THROUGHOUT THE UNITED STATES, BUT IT IS DIFFICULT TO 
ASSESS THE EXTENT OF DEPLOYMENT GAPS IN RURAL AREAS, GAO-06-426, at 19 (May 2006) (GAO BROADBAND 
REPORT); Embarq Comments at 3 (stating that the high cost of deployment remains the “principal barrier to rural 
advanced services”); MSS/ATC Coalition Comments at 3 (asserting that both wireline access and terrestrial wireless 
networks are economically impractical in remote areas).
273 See, e.g., Embarq Comments at 12 n.18 (noting the cost differences per line between rural customers that live in a 
cluster and those in outlying areas); Stephouse Networks Comments at 2 (describing the low population densities 
and mountainous terrain of its service areas).
274 For example, commenters point out that deployment in rural areas can be especially expensive and complicated 
because of relatively inaccessible, rugged terrain.  See Valerie Fast Horse Comments at 3 (describing low and 
thickly forested areas where there are “no possible means to deliver broadband”); PBIA Comments at 6 (stating that 
because of their remoteness and challenging terrain, the communities of western Alaska have not been accessible to
fiber networks).  This terrain often includes mountains or forests that can obstruct wireless technologies that require 
line-of-sight transmission.  GAO BROADBAND REPORT at 19; see also supra Part V.A (discussing Technological 
Considerations).
275 See, e.g., NRECA Comments at 1 (stating that “[l]ow population densities coupled with the issue of traversing 
vast expanses of remote and often rugged topography” create a financial barrier to rural broadband deployment); 
Embarq Comments at 13 (“In rural America, however, high-costs and low population densities make investment and 
provision of broadband service uneconomic (just as has been and still is the case with basic voice service pursuant to 
carrier-of-last-resort obligations).”).
276 See supra Part V.A (discussing Technological Considerations).
277 See, e.g., VT. DEP’T OF PUB. SERV., UNDERSTANDING BROADBAND DEPLOYMENT IN VERMONT 14 (2007), 
http://publicservice.vermont.gov/Broadband/Broadband%20Deployment%20in%20Vermont%20Final.pdf (VT.
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REPORT ON A RURAL BROADBAND STRATEGY
49
114. Access to adequate and affordable “middle-mile” broadband facilities—the facilities that 
are commonly used to connect the “last mile” ISP with an Internet backbone service provider—is a 
necessary precursor to a provider’s being able to deploy broadband services to its customers.  Although 
rural broadband networks are fundamentally similar to broadband networks in non-rural areas in that they 
involve both a local access or distribution network280 and a backhaul component,281 rural broadband 
networks are also typically built in locations that are geographically more removed from Internet 
backbone nodes.282 In many cases, because of this more distant location, the rural broadband provider 
will need to obtain backhaul transport, or “middle mile” facilities, from more than one provider, often 
over facilities that were designed for voice telephone or cable television services.283 Some of these 
“middle mile” facilities may have insufficient capacity, causing the transmission speed on otherwise 
adequate last-mile broadband facilities to come to a crawl or stall before the data reach the Internet 
backbone.284 Overcoming this may require the construction of a dedicated facility, which drives up costs 
and can deter last-mile broadband investments.285 Moreover, even when the last-mile provider acquires 
access to adequate middle-mile facilities, that access may be prohibitively expensive.286 Consequently, 
backhaul transport costs in rural areas can be significantly higher than for networks in other areas.287
  
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BROADBAND REPORT) (stating that in many rural areas of Vermont the average build-out cost for fiber-to-the-
premise networks would likely be close to $4,000 per subscriber).
278 NATIONAL EXCHANGE CARRIER ASSOCIATION, THE PACKET TRAIN NEEDS TO STOP AT EVERY DOOR 13 (2006) 
(estimating the cost of upgrading a traditional telephone line to DSL as follows:  $988 per line for the telephone 
company’s central office service area; $1,083 per line for the mid-range service area; and $4,865 per line for areas 
not served by central offices).
279 See, e.g., VT. BROADBAND REPORT at 13 (estimating the cost for cable line extensions in Vermont at $20,000 per 
mile).
280 The local access network, either wireline (e.g., cable, DSL, fiber) or wireless (e.g., WiMAX, EV-DO), connects a 
local network in a particular area, which could range in size from a single house or farm in a rural area to a small 
town.
281 The backhaul network, which can be either wireline or wireless, connects the local network to an Internet 
backbone connection point.
282 See NECA Comments at 5–6 (noting from its 2001 study that 55% of rural switches are more than 70 miles from 
an Internet Backbone Provider node and 10% are more than 200 miles away).
283  See DigitalBridge Comments at 8–9 (“Many middle-mile facilities were originally built by telephone and cable 
companies for ordinary telecommunications or cable television services.  Rural communities are often still reliant 
upon these antiquated copper telephone and cable infrastructures, which lack the capabilities to deliver high-speed, 
broadband access.”); see also, e.g., City of Shafter Comments at 4 n.6.  
284 Commenters state that if an incumbent LEC does not build or tariff any high-capacity middle-mile lines, the ISP 
may have its data come to a crawl or stall as the data attempt to join the greater communications network using the 
LEC’s low-capacity facilities.  See DigitalBridge Comments at 8–9; GCI Comments at 3.
285 See Microsoft Comments at 4 (“We understand from some network operators, for example, that the local cost of 
upgrading wires and distributing broadband is not a hurdle.  The marginal cost of adding subscribers to broadband 
systems can be more than covered by subscriber fees.  However, rural or remote providers cannot take advantage of 
those economics, because the cost of acquiring high-capacity facilities between the Internet backbone and the 
community is too high.  Once this hurdle is overcome, we believe that in many instances the market can remedy the 
problem of delivering affordable broadband to Main Street and neighborhoods.”).
286 See NECA Comments at 6 n.15 (quoting Verizon as stating that “[i]n some rural high-cost areas, however, the 
cost of the additional transport mileage is high enough to impinge on a rural broadband provider’s ability to offer 
services in those areas”); see also OPASTCO Comments at 8–9 (“Another significant obstacle that rural ILECs face 
in deploying broadband to additional rural consumers and increasing the broadband speeds that they offer is the high 
price of access to the Internet backbone.  The price of backbone access is based upon mileage, among other factors, 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
50
115. There is no one solution to addressing middle mile transport costs in rural areas.  
Commenters suggest explicitly encouraging middle-mile buildout,288 revising universal service funding to 
help cover costs of the middle-mile,289 and using current or potential infrastructure more effectively by 
coordinating with other infrastructure projects to shrink deployment costs, and reforming interconnection 
obligations.290 Others suggest that these facilities be offered at cost-based or favorable rates on 
nondiscriminatory terms and conditions.291  
116. The regulatory process associated with obtaining access to rights of way on “Indian 
lands” may add to the costs of bringing broadband services to Tribal members.  These high costs of 
deploying broadband to rural areas can be compounded by potential providers’ experiencing difficulties 
gaining access to capital.292 Gaining access to capital can be a problem for rural providers that have fewer 
customers over whom they can spread the costs of providing broadband service.  This entry barrier 
increases with the more capital that is needed to cover minimum costs,293 which can be particularly 
pronounced in rural areas. 
117. Although the free market has many benefits, such as driving down the costs of services 
for consumers and improving service quality, it also can leave behind geographic areas with high costs 
and lower profit potential.294 Such is the case with many rural areas.  Market forces often demand returns 
commensurate with investment risk.  In many parts of rural America, the relatively high deployment costs 
per potential customer make relying on market forces alone an inadequate strategy for promoting the 
  
(...continued from previous page)
and the further removed a carrier is from a backbone facility, the higher the price they must pay.  Thus, rural ILECs 
who are on average much further away from these facilities face higher than average costs for Internet backbone 
access.  In addition, rural ILECs that wish to upgrade their broadband networks to provide their customers with 
higher speeds must also upgrade their backbone access, incurring even higher costs.  Moreover, the majority of rural 
ILECs have only one choice of provider for connecting to the Internet backbone.”) (citations omitted). 
287 Several commenters have expressed concern that high backhaul costs present a barrier to broadband deployment 
in rural areas.  See DBC Comments at 8–9 (urging the Commission to ensure that affordable backhaul is available 
for rural operations); Fibertech/KDL Comments at 9 (stating that backhaul costs can be “prohibitively expensive” in 
rural areas); GCI Comments at 3 (citing cost-effective middle-mile transport as essential to broadband deployment 
in rural Alaska); ACA Comments at 3 (arguing that grant and loan programs should allow operators to build middle-
mile fiber backhaul infrastructure to increase speeds and lower operational costs).
288 See NECA Comments at 6–7 (encouraging partnerships and consortia by interested groups); see also generally 
ALA Comments at 2, CFA/CU Comments at 4, Microsoft Comments at 1–4 (all recommending using government 
funds to rollout fiber to anchor institutions, thereby providing incentives for last mile providers to buildout later).
289 See NECA Comments at 6 nn.15–16.
290 See Fibertech/KDL Comments at 2-3; New America Foundation Comments, Attach. at 3 (arguing that fiber 
should be deployed with highway construction); Letter from Michele C. Farquhar, Counsel to Sprint Nextel 
Corporation, Special Counsel to FiberTower Corporation and Rural Telecommunications Group, Inc. to Marlene H. 
Dortch, Secretary, FCC, GN Docket No. 09-29, ET Docket Nos. 04-186, 02-380 at 1-2 (filed Apr. 13, 2009) (Sprint 
Nextel et al. April 13, 2009 Ex Parte Letter) (asking the Commission to expand the amount of licensed spectrum 
that can be used for wireless backhaul services, such as White Spaces, which lie fallow in rural areas); City of 
Shafter Comments at 4 n.6 (noting that despite building a fiber network and having two Internet backbone providers 
nearby, the city had difficulty connecting directly to an Internet Backbone Provider).
291 See NTCA Comments at 26–27; Sprint Comments at 8; OPASTCO Comments at 8–9. 
292 See, e.g., Thirteenth CMRS Competition Report at para. 100 (finding that the inability of new firms to borrow 
sums sufficient to finance efficient start-ups can be an entry barrier).
293 See id.
294 See supra Part III.B (The State of Broadband in Rural Areas).
REPORT ON A RURAL BROADBAND STRATEGY
51
deployment of broadband services.  The repercussions of relying on market forces alone ultimately would 
be felt throughout America because many of rural broadband’s benefits go beyond the direct benefits to 
the rural subscriber and the direct profits to the broadband deployer.295 Ultimately, as the Commission 
recognized regarding the need for universal telephone service,296 the more individuals that are on the 
network, the greater value of the network itself.297 Moreover, the more extensive a network, the greater 
the benefits to be derived from the network.298 The same is true of an extensive broadband network.299  
Therefore, we believe that government action is needed to encourage deployment of broadband to rural 
areas.
118. To that end, various government entities have implemented programs to encourage the 
buildout of broadband infrastructure to rural areas.  Recent legislation has created several opportunities 
for organizations seeking to build out broadband infrastructure and provide services to unserved and 
underserved areas to receive grants, loans, or loan guarantees to help defray deployment costs.  In 
addition, a number of states have enacted tax incentives designed to help offset deployment costs in order 
  
295 See supra Part III.A (Rural Broadband:  Why it Matters).
296 See Federal-State Joint Board on Universal Service, CC Docket No. 96-45, Report and Order, 12 FCC Rcd 8776, 
8783, para. 8 (1997) (subsequent history omitted) (Universal Service First Report and Order) (“At the simplest 
level, increasing the number of people connected to the telecommunications network makes the network more 
valuable to all of its users by increasing its usefulness to them.”).
297 This “network effect” is a reason why the Commission has an explicit universal service program to ensure that 
people are connected to the telephone network. See id. A “network effect” may be illustrated by observing that all 
else being equal (with two non-interconnected networks), a customer is more likely to choose a network that serves 
80% of the population, instead of one that serves 20% of the population, because the larger network is more likely to 
serve more people that the customer may want to call. See JONATHAN E. NUECHTERLEIN & PHILIP J. WEISER,
DIGITAL CROSSROADS 4–5 (2005); Big Think Strategies Comments at 7.
298 Aside from network effects, larger networks also have other indirect benefits, or positive externalities, that arise 
merely because the network reaches more users. In the Universal Service First Report and Order, the Commission 
noted that “[i]ncreasing subscribership also benefits society in ways unrelated to the value of the network per se.  
For example, all of us benefit from the widespread availability of basic public safety services, such as 911.” See
Universal Service First Report and Order, 12 FCC Rcd at 8783, para. 8.
299 A broadband-connected Internet also produces network effects. Unlike dial-up connections, broadband 
connections can be used to create “two-way networks” for applications like VoIP and video conferencing. See
supra notes 178–184 (listing interactive broadband applications).  In addition to these network effects, ubiquitous 
broadband would produce other positive externalities. See Big Think Strategies Comments at 17. For instance, a 
vastly interconnected broadband network would allow Next Generation 911 to be deployed throughout the country 
to the benefit of those who live in or may visit areas that otherwise would lack access to broadband services. See
DEP’T OF TRANS., NEXT GENERATION 9-1-1 SYSTEM PRELIMINARY CONCEPT OF OPERATIONS (2005), 
http://www.its.dot.gov/NG911/pdf/ConOps.pdf. Dial-up connections are increasingly impractical for many Internet 
applications; thus, dial-up users do not add as great a value to the network and cannot contribute to as many of the 
positive externalities as broadband-connected users.  See generally supra Part III.A (describing the benefits of 
broadband). 
REPORT ON A RURAL BROADBAND STRATEGY
52
to encourage the provision of broadband services to consumers.300 Many rural cooperatives are deploying 
broadband to rural areas through collaborative efforts and by obtaining federal or state funding support.301  
119. An alternative solution that has been adopted in some areas is government sponsorship or 
ownership of broadband networks.302 Commenters suggest that many successful government-sponsored 
investments in the United States have involved the deployment of fiber networks in cities;303 however, 
some rural areas also have benefited from government-sponsored broadband deployment.304 Although 
many have expressed concerns regarding the provision of government-sponsored or government-owned 
broadband services, raising questions about the appropriate role of government as a broadband service 
  
300 See, e.g., MISS. CODE ANN. § 57-87-1 et seq. (providing tax credits to providers that deploy broadband 
equipment, ranging from five to 15% of the cost of the broadband equipment, with the higher tax credits going to 
those providers that deploy equipment in the least populous regions of the state); FLA. STAT. § 220.183 (providing 
receive income tax credits to broadband providers for any project designed to increase a community’s access to 
broadband facilities, including those communities located in rural areas); HAW. REV. STAT. § 235-110.51 (providing 
that up to 4 % of a commercial building’s renovations costs may be deducted if the building’s telecommunications 
facilities are upgraded to high-speed telecommunications systems that can provide Internet access, direct satellite 
communications access, and videoconferencing facilities).  
301 See Chuck Huckaby, Maryland Broadband Cooperative Connects Rural Counties, WORK AT HOME BUSINESS 
OPPORTUNITIES, Oct. 11, 2007, http://work-at-home.business-opportunities.biz/2007/10/11/maryland-broadband-
cooperative-connects-rural-counties/ (last visited May 13, 2009) (describing the Maryland Broadband Cooperative 
(MDBC)’s connection of nine counties via fiber optic cable and plans to lay fiber optic cable through Western 
Maryland); Ryan Bentley, Cooperative Ready to Begin Making Broadband a Reality by Early Summer, PETOSKEY 
NEWS REVIEW, Apr. 23, 2008, http://www.petoskeynews.com/articles/2008/04/23/news/ 
doc480f396d259ba659116224.prt (last visited May 13, 2009) (announcing plans to seek rural development loans 
from the USDA to fund broadband infrastructure deployment to residents and businesses in 12 rural counties in 
Northern Michigan); SCTC Comments at 2 (stating that it offers nearly ubiquitous DSL service, ranging in speeds 
from 1.5 Mbps download/512 Kbps upload to 6 Mbps download/1 Mbps upload, to a broad region that includes 
Salem, Oregon).
302 A number of previously unserved or underserved communities have sponsored or deployed local broadband 
networks (consisting of either fiber, cable, or wireless networks).  See infra notes 303–304 (listing communities that 
have sponsored or deployed local broadband networks); see also Allan J. Hastings Comments at 2 (stating that 
public development of shared digital roads, managed just as traditional roads are managed, lowers the costs for 
private sector service providers and creates new opportunities for start-up companies and incumbent providers that 
have said they cannot afford to build fiber networks in rural areas); Big Think Strategies Comments at 7 (noting no 
strong objection to government owned and operated infrastructure since governmental units in the United States 
today typically provide roads, water and sewer service, and airports as well as a great deal of gas distribution, 
electrical service, and health care).   
303 Communities such as Minneapolis, Minnesota, Lafayette, Louisiana, and Fort Wayne, Indiana, have deployed 
high speed networks.  See Benton Foundation Comments at 11, nn.19–20; Esme Vos, Muniwireless Updates List of 
Cities and Counties with Large Wi-Fi Networks, MUNIWIRELESS, Mar. 28, 2009, http://www.muniwireless.com/ 
2009/03/28/muniwireless-list-of-cities-with-wifi/ (article includes a link to the list of cities, available at
http://www.muniwireless.com/reports/Mar-28-2009-list-of-cities.pdf).  
304 We note that counties in rural areas such as Allegheny County, Maryland; Craven County, North Carolina; and 
Cambria County, Pennsylvania, are just a few that have sponsored deployment of county-wide networks.    
AllCoNet.org, What is AllCoNet, http://www.allconet.org/ (last visited Apr. 29, 2009); Craven County, North 
Carolina Goes Wireless:  Rural Wi-Fi Connects Schools, Towns, MUNIWIRELESS, June 6, 2008, 
http://www.muniwireless.com/2008/06/06/craven-county-north-carolina-goes-wireless-rural-wi-fi-connects-schools-
towns; Cambria Connected, Introducing a New Way to Communicate in Cambria County, 
http://www.cambriaconnected.net/ (last visited May 11, 2009); Melissa Block, Widening the Internet Highway to 
Rural America, NATIONAL PUBLIC RADIO, Dec. 14, 2005, http://www.npr.org/templates/story/ 
story.php?storyId=5053488 (last visited May 19, 2009).
REPORT ON A RURAL BROADBAND STRATEGY
53
provider,305 the potential for market distortion,306 and the consequences of unfair competition,307 others 
assert that government sponsorship is the best solution in rural areas where existing service providers and 
private entities have not invested in building broadband infrastructure.308 Internationally, we note that 
several countries have undertaken government-sponsored efforts to provide broadband services 
nationwide.  One example is the Australian government’s recent announcement that it plans to upgrade its 
broadband infrastructure to deliver up to 100 Mbps to 90 percent of homes and offices in Australia.309
Remote and sparsely populated regions of that country will receive wireless broadband service with 
speeds up to 12 Mbps.310 Similarly, France’s “dead zone programme,” created in 2003, allows operators 
to use public funds to provide mobile telephony coverage ultimately to 3,000 towns in France.311 Sweden 
has adopted the “stadsnätt” urban area network model under which a city builds and administers fiber 
infrastructure, which it then rents at cost to service providers that deploy their own transmission 
equipment.312  
120. A complementary government role in broadband deployment can yield advantages that a 
free market solution cannot achieve alone.  For example, government involvement in rural broadband 
may increase the efficiency and reliability of local services, such as law enforcement and emergency 
  
305 See Craig Dingwall, Municipal Broadband: Challenges and Perspectives, 56 FED. COMM. L.J. 92, 92 (2006).
306 See FED. TRADE COMM'N STAFF, MUNICIPAL PROVISION OF WIRELESS INTERNET 28–35 (2006),  
http://www.ftc.gov/os/2006/10/V060021municipalprovwirelessinternet.pdf  (FTC REPORT).
307 See FTC REPORT at 30; Dingwall, supra note 305, at 92.
308 See, e.g., Art Menius Comments at 2 (urging adoption of a federal rural broadband policy that encourages local 
ownership of broadband infrastructure and public ownership of broadband infrastructure in areas where private 
entities are not forthcoming in building broadband infrastructure).  We note that at least 35 states have considered 
limiting municipal broadband, and at least 19 states have enacted legislation specifically addressing municipal 
broadband.  See A.H. Tapia & J.A. Ortiz, Municipal Responses to State-Level Broadband Internet Policy 2 (Sept. 
2006), available at http://web.si.umich.edu/tprc/papers/2006/554/TPRCfinal_pdf.pdf; see also, e.g., ARK. CODE 
ANN. § 23-17-409(b)(1) (West 2009); COLO. REV. STAT. ANN. § 29-27-201 (West 2009); FLA. STAT. ANN. §166.047 
(West 2009); IOWA CODE ANN. § 388.10 (West 2009); LA. REV. STAT. ANN. § 45:884.41, et seq. (2009); MICH.
COMP. LAWS ANN. § 484.2252 (West 2009); MINN. STAT. ANN. § 237.19 (West 2009); MO. ANN. STAT. § 392.410 
(West 2009); NEB. REV. STAT. ANN. §§ 86-575, 594 (West 2009); NEV. REV. STAT. ANN. §§268.086, 710.147 (West 
2009); OHIO REV. CODE. ANN. § 1332.01, et seq. (West 2009); 66 PA. CONS. STAT. ANN. § 3014(h) (West 2009); 
S.C. CODE ANN. § 58-9-2600, et seq. (2009); TENN. CODE ANN. § 7-52-601, et seq. (West 2009); TEX. UTIL. CODE 
ANN. § 54.201 (2009); UTAH CODE ANN. § 10-18-201, et seq. (West 2009); VA. CODE ANN. §15.2-2160 (West 
2009); WASH. REV. CODE ANN. §54.16.330 (West 2009); WIS. STAT. ANN. § 66.0422 (West 2009).  The Supreme 
Court has upheld the legality of regulations restricting municipal provision of broadband service.  See Nixon v. 
Missouri Municipal League, 541 U.S. 125 (2004) (determining that the Communications Act does not preempt 
states from restricting municipal provision of telecommunications services).  Some states prohibit or strictly limit 
municipal provision of broadband, while others impose some or all of the following:  hearings, local referendums, 
cost-benefit analyses, feasibility studies, and strict rules against cross-subsidization.  
309 See Esme Vos, Australia Plans 100 Mbps to 90 Percent of Homes and Offices, MUNIWIRELESS, Apr. 7, 2009, 
http://www.muniwireless.com/2009/04/07/australia-plans-100mbps-national-network/.
310 Id.  To accomplish this enormous task, the Australian government will establish a new company that will deploy 
the network in partnership with the private sector.  The Australian government estimates that the network will cost 
$31 billion and take eight years to build.  Id.
311 Under Phase 1 of France’s program, for which public funding of $44 million is allocated for passive 
infrastructure, the goal is to target coverage of some 1,800 towns with 1,250 sites.  See AUTORITÉ DE RÉGULATION 
DES COMMUNICATIONS ÉLECTRONIQUES ET DES POSTES, ARCEP ANNUAL REPORT:  2007, at 338 (2007),
http://www.arcep.fr/fileadmin/uploads/tx_gspublication/rap2007-eng.zip (last visited May 13, 2009).
312 Big Think Strategies Comments at 14 (stating that more than thirty organizations in Stockholm have set up their 
own transmission equipment and built their facilities using the municipality’s open fiber network).
REPORT ON A RURAL BROADBAND STRATEGY
54
services;313 promote job growth and economic development by attracting and retaining businesses and 
increasing use of technology in a community;314 provide educational benefits, both for local schools and 
those seeking education online;315 and generally generate the indirect benefits to America that private 
deployers may not consider in their cost-benefit profit assessments.316 Finding creative solutions to 
overcome the hurdles presented by high deployment costs will require the development of a multi-faceted 
approach, including, among other things, collaborative efforts among federal, Tribal, state, and local 
governments, community organizations, businesses, and individuals; federal and state funding; 
government ownership or sponsorship; and continuation of the important contributions made by the rural 
cooperatives spread across this nation.
VI. OVERCOMING CHALLENGES TO RURAL BROADBAND DEPLOYMENT
121. The 2008 Farm Bill directs that this Report include recommendations “to identify how 
specific Federal agency programs and resources can best respond to rural broadband requirements and 
overcome obstacles that currently impede rural broadband deployment.”317 Throughout this Report, we 
have identified how Federal agency programs can respond better and overcome obstacles that impede 
rural broadband deployment.318 In this part, we provide recommendations concerning the Commission’s 
existing programs and resources. 
122. During recent years, the Commission has not had a comprehensive strategy regarding 
how its programs and resources can best respond to rural broadband requirements or promote rural 
broadband deployment.  The Commission’s approach generally has been to prevent or remove 
“economic” regulation of broadband services.  For example, the Commission established a deregulatory 
environment for the provision of broadband Internet access service by classifying that service as an 
information service regardless of the nature of the platform over which it is provided,319 and by 
  
313 See FTC REPORT at 20.
314 See FTC REPORT at 22–23.
315 See FTC REPORT at 23.
316 Big Think Strategies Comments at 17 (“On some level this is simple economics:  there are strong positive 
externalities to having a robust and open communications infrastructure, which means that the benefits of such an 
infrastructure exceed—we believe, far exceed—the returns that the operator of the network can actually extract from 
its users.  This means that the economically and socially optimal open network will never be financed and built by 
private entities—again, they cannot capture the benefits that arise from such a network so they will have no 
incentive to build it.”).  
317 2008 Farm Bill § 6112(a)(1)(D).
318 See supra Part IV.A (discussing Promoting Interagency Coordination).
319 Inquiry Concerning High-Speed Access to the Internet Over Cable and Other Facilities; Internet Over Cable 
Declaratory Ruling; Appropriate Regulatory Treatment for Broadband Access to the Internet Over Cable Facilities, 
CS Docket No. 02-52, Declaratory Ruling and Notice of Proposed Rulemaking, 17 FCC Rcd 4798, 4801, para. 4 
(2002) (Cable Modem Declaratory Ruling), aff’d Nat’l Cable & Telecomms. Ass’n v. Brand X Internet Servs., 545 
U.S. 967 (2005) (NCTA v. Brand X) (cable modem Internet access service); Appropriate Framework for Broadband 
Access to the Internet over Wireline Facilities; Universal Service Obligations of Broadband Providers; Review of 
Regulatory Requirements for Incumbent LEC Broadband Telecommunications Services; Computer III Further 
Remand Proceedings:  Bell Operating Company Provision of Enhanced Services; 1998 Biennial Regulatory 
Review—Review of Computer III and ONA Safeguards and Requirements; Conditional Petition of the Verizon 
Telephone Companies for Forbearance Under 47 U.S.C. § 160(c) with Regard to Broadband Services Provided via 
Fiber to the Premises; Petition of the Verizon Telephone Companies for Declaratory Ruling or, Alternatively, for 
Interim Waiver with Regard to Broadband Services Provided via Fiber to the Premises; Consumer Protection in the 
Broadband Era, CC Docket Nos. 02-33, 95-20, 98-10, 01-337, WC Docket Nos. 04-242, 05-271, Report and Order 
and Notice of Proposed Rulemaking, 20 FCC Rcd 14853 (2005) (Wireline Broadband Internet Access Services 
Order), aff’d Time Warner Telecom, Inc. v. FCC, 507 F.3d 205 (3d Cir. 2007) (wireline broadband Internet access 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
55
eliminating legacy regulation that had applied to facilities-based wireline providers (but not to other 
providers) of that service.320 Despite this generally deregulatory approach, the Commission has continued 
to impose regulatory obligations on broadband telecommunications services providers (although not on 
broadband Internet access service providers) to the extent it was needed to further important public 
policies.321
123. The theory behind this generally deregulatory approach was that reliance on market 
forces, rather than regulation, was the best way to increase investment in broadband networks and make 
affordable broadband services available to consumers.  In the National Broadband Plan NOI, the 
Commission has sought comment on competition as a mechanism to achieve the goals of the Recovery
Act.322 The results of this inquiry may require changes in specific Commission programs affecting rural 
broadband.
124. Because the national broadband plan is currently under consideration and is not due until 
February 2010, we have included here a compilation of pending Commission proceedings affecting rural 
broadband, including proceedings related to universal service, open network policies, spectrum access, 
intercarrier compensation, special access, pole attachments, tower siting, and video programming.  The 
discussion of these proceedings here should not be construed as prejudging outcomes, which in any event 
must be based on the record before the Commission in those proceedings.
125. The 2008 Farm Bill requires that the Chairman of the Commission, in coordination with 
the Secretary of Agriculture, provide Congress with a full, updated rural broadband report two years from 
now.323 We recommend that the next Commission Chairman consider completing a status report on rural 
broadband approximately one year from now.  This status report will help inform Congress of the 
Commission’s progress on these proceedings and of any needed changes to the recommendations in this 
Report in light of additional efforts to address rural broadband issues, including the completion of the 
national broadband plan.
A. Universal Service Programs and Reform
126. The 1996 Act codified the historical commitment of the Commission and state regulators 
to promote universal service by ensuring that consumers in all regions of the nation have access to 
  
(...continued from previous page)
service); United Power Line Council’s Petition for Declaratory Ruling Regarding the Classification of Broadband 
over Power Line Internet Access Service as an Information Service, WC Docket No. 06-10, Memorandum Opinion 
and Order, 21 FCC Rcd 13281 (2006) (BPL-Enabled Internet Access Services Order) (BPL-enabled Internet access 
service); Appropriate Regulatory Treatment for Broadband Access to the Internet Over Wireless Networks, WT 
Docket No. 07-53, Declaratory Ruling, 22 FCC Rcd 5901, 5909-10, para. 22 (2007) (wireless broadband Internet 
access service). 
320 Wireline Broadband Internet Access Services Order, 20 FCC Rcd at 14899, para. 86.
321 See, e.g., Petition of AT&T, Inc. for Forbearance Under 47 U.S.C. § 160(c) from Title II and Computer Inquiry 
Rules with Respect to Its Broadband Services and Petition of BellSouth Corporation for Forbearance Under 47 
U.S.C. § 160(c) from Title II and Computer Inquiry Rules with Respect to Its Broadband Services, WC Docket No. 
06-125, Memorandum Opinion and Order, 22 FCC Rcd 18705 (2007) (AT&T Enterprise Broadband Forbearance 
Order) (retaining statutory and regulatory requirements designed to ensure the sufficiency of federal universal 
service support mechanisms, promote access to telecommunications services by individuals with disabilities, protect 
customer privacy, and increase the effectiveness of emergency services, among other objectives).
322 See National Broadband Plan NOI at para. 49.
323 The 2008 Farm Bill states that the “Chairman of the Federal Communications Commission, in coordination with 
the Secretary, shall update and evaluate the report described in subsection (a) during the third year after the date of 
enactment of this Act.”  2008 Farm Bill § 6112(b).  
REPORT ON A RURAL BROADBAND STRATEGY
56
affordable, quality telecommunications services.324 The 1996 Act added section 254 to the 
Communications Act, which directs the Commission, after consultation with the Federal-State Joint 
Board on Universal Service (Joint Board), to establish specific, predictable, and sufficient support 
mechanisms to preserve and advance universal service.325 In addition, in section 254(b), Congress 
provided a list of principles upon which the Commission must base policies for the preservation and 
advancement of universal service.326 Among other things, section 254(b) directs that quality services 
should be available at just, reasonable, and affordable rates; access to advanced telecommunications and 
information services should be provided in all regions of the nation; and consumers in all regions of the 
nation, including those in rural areas, should have access to telecommunications and information services 
that are reasonably comparable to those services provided in urban areas.327  
127. To implement the universal service goals outlined in the 1996 Act, the Commission 
established the High-Cost Program, the Low-Income Program, the E-rate Program, and the Rural Health 
Care Program.328 The universal service programs are funded by contributions from telecommunications 
carriers providing interstate telecommunications services and from certain other providers of interstate 
telecommunications.329 While the universal service programs have primarily been focused on ensuring 
  
324 Telecommunications Act of 1996, Pub. L. No. 104-104, 110 Stat. 56 § 254 (1996) (codified at 47 U.S.C. § 254); 
see also Federal-State Joint Board on Universal Service, CC Docket No. 96-45, Notice of Proposed Rulemaking 
and Order Establishing Joint Board, 11 FCC Rcd 18092 (1996).  Historically, the purpose of universal service 
support has been to promote universally available basic telephone service at reasonable and affordable rates.  Before 
the 1996 Act, universal service was promoted largely through implicit support mechanisms.
325 47 U.S.C. § 254(a), (b)(5).
326 47 U.S.C. § 254(b)(1)–(7).
327 47 U.S.C. § 254(b)(1)–(3).  Specifically, the Communications Act requires that universal service policies be 
based on the following principles:  “(1) QUALITY AND RATES.—Quality services should be available at just, 
reasonable, and affordable rates.  (2) ACCESS TO ADVANCED SERVICES.—Access to advanced 
telecommunications and information services should be provided in all regions of the Nation.  (3) ACCESS IN 
RURAL AND HIGH COST AREAS.—Consumers in all regions of the Nation, including low-income consumers 
and those in rural, insular, and high cost areas, should have access to telecommunications and information services, 
including interexchange services and advanced telecommunications and information services, that are reasonably 
comparable to those services provided in urban areas and that are available at rates that are reasonably comparable 
to rates charged for similar services in urban areas.  (4) EQUITABLE AND NONDISCRIMINATORY 
CONTRIBUTIONS.—All providers of telecommunications services should make an equitable and 
nondiscriminatory contribution to the preservation and advancement of universal service.  (5) SPECIFIC AND 
PREDICTABLE SUPPORT MECHANISMS.—There should be specific, predictable and sufficient Federal and 
State mechanisms to preserve and advance  universal service.  (6) ACCESS TO ADVANCED 
TELECOMMUNICATIONS SERVICES FOR SCHOOLS, HEALTH CARE, AND LIBRARIES.—Elementary and 
secondary schools and classrooms, health care providers, and libraries should have access to advanced 
telecommunications services as described in subsection (h).  (7) ADDITIONAL PRINCIPLES.—Such other 
principles as the [Federal-State Joint Board on Universal Service] and the Commission determine are necessary and 
appropriate for the protection of the public interest, convenience, and necessity and are consistent with this Act.”  47 
U.S.C. § 254(b).  The Commission adopted the additional principle that federal support mechanisms should be 
competitively and technologically neutral. Federal-State Joint Board on Universal Service, CC Docket No. 96-45, 
Report and Order, 12 FCC Rcd 8776, 8801–02, paras. 46–48 (1997) (Universal Service First Report and Order).
328 In 2008, the Universal Service Administrative Company (USAC) disbursed approximately $7.1 billion in 
universal service support:  approximately $4.4 billion for the High-Cost Program; approximately $1.7 billion for the 
E-rate Program; approximately $819 million for the Low-Income Program; and approximately $49 million for the 
Rural Health Care Program.  USAC, 2008 ANNUAL REPORT (2008) (USAC 2008 ANNUAL REPORT).
329 Section 254(d) of the Communications Act directs that “[e]very telecommunications carrier that provides 
interstate telecommunications services shall contribute, on an equitable and nondiscriminatory basis, to the specific, 
predictable, and sufficient mechanisms established by the Commission to preserve and advance universal service.”  
47 U.S.C. § 254(d).  Section 254(d) further provides that “any other provider of interstate telecommunications may 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
57
the availability of telecommunications services, the Commission has made efforts to expand broadband 
availability through universal service policies and is considering how to reform the programs to further 
expand broadband availability.330 The four universal service programs currently treat the support of 
broadband differently.  The Rural Health Care Program and the E-rate Program explicitly support the 
provision of broadband.  The High-Cost Program indirectly supports the provision of broadband, and the 
Low-Income Program does not currently support broadband.  
1. Rural Health Care Program
128. The Rural Health Care Program provides reduced rates for eligible rural health care 
providers for telecommunications and Internet services necessary for the provision of health care.331  
When the program was established, the Commission adopted an annual cap of $400 million for universal 
service support for rural health care providers.332 Despite modifications the Commission has made to the 
Rural Health Care Program, the program continues to be greatly underutilized and is not fully realizing 
the benefits intended by the Telecommunications Act of 1996 and the Commission’s rules.  For example, 
from 1997 to 2007, the program generally disbursed less than 10 percent of the authorized funds, and in 
2008, the program disbursed slightly more than 10 percent of authorized funds.333
129. In 2007, in response to the underutilization of the program, the Commission established 
the Rural Health Care Pilot Program (Pilot Program) to provide, among other things, funding for the 
construction of state or regional broadband networks and for the advanced telecommunications and 
information services provided over those networks for health care providers.334 The goal of the Pilot 
Program is to stimulate the deployment of the broadband infrastructure necessary to support innovative 
telemedicine services to rural America.  In coordination with the U.S. Department of Health and Human 
Services (HHS), the Pilot Program also will support the advancement of HHS’s health information 
technology (health IT) initiatives for electronic health records and create vital broadband links for disaster 
preparedness and emergency response to any large-scale emergency or public health crisis.335 Under the 
Pilot Program, 67 projects are eligible to receive funding for telehealth networks serving 6,000 health care 
  
(...continued from previous page)
be required to contribute to the preservation and advancement of universal service if the public interest so requires.”  
Id.  The Commission has determined that any entity that provides interstate telecommunications to others for a fee 
must contribute, based on contributors’ interstate and international end-user telecommunications revenues, to the 
universal service fund.  Universal Service First Report and Order, 12 FCC Rcd at 9183–84, para. 795.  The 
Commission also requires certain other providers of interstate telecommunications to contribute to the universal 
service fund.  See, e.g., Universal Service Contribution Methodology, WC Docket Nos. 06-122, 04-36, CC Docket 
Nos. 96-45, 98-171, 90-571, 92-237,99-200, 95-116, and 98-170, Report and Order and Notice of Proposed 
Rulemaking, 21 FCC Rcd 7518 (2006) (2006 Interim Contribution Methodology Order) (requiring interconnected 
VoIP providers to contribute to the universal service fund), aff’d in part and vacated in part on other grounds,
Vonage Holdings Corp v. FCC, 489 F.3d 1232 (D.C. Cir. 2007).
330 See November 2008 Further Notice, apps. A, C (seeking comment on requiring recipients of high-cost support to 
offer broadband services, and seeking comment on a low-income support pilot program for broadband services).
331 47 C.F.R. Part 54, Subpart G.
332 47 C.F.R. § 54.623; Universal Service First Report and Order, 12 FCC Rcd at 9141, para. 705.
333 USAC 2008 ANNUAL REPORT.
334 See Rural Health Care Support Mechanism, WC Docket No. 02-60, Order, 22 FCC Rcd 20360 (2007) (RHC 
Pilot Selection Order); Rural Health Care Support Mechanism, WC Docket No. 02-60, Order, 21 FCC Rcd 11111 
(2006) (2006 Rural Health Care Pilot Program Order).  The Rural Health Care Pilot Program also supports costs 
associated with connecting to nationwide backbone providers, Internet2 or National LambdaRail, and connecting to 
the public Internet.  See RHC Pilot Selection Order, 22 FCC Rcd at 20361, para. 2.
335 See 2006 Rural Health Care Pilot Program Order, 21 FCC Rcd 11111.
REPORT ON A RURAL BROADBAND STRATEGY
58
facilities in 42 states and three U.S. territories, using broadband technology to bring state-of-the-art 
medical practices to isolated rural communities.336 Most recently, in April 2009, the Commission 
announced the approval of funding for:  1) the buildout of five networks that will link hundreds of 
hospitals regionally in Iowa, Minnesota, Montana, Nebraska, North Dakota, South Dakota, South 
Carolina, Wisconsin, and Wyoming; and 2) the design of a telehealth project in Alaska.337  
2. E-rate Program
130. The E-rate Program provides discounts for telecommunications, Internet access, and 
internal connections for qualifying schools and libraries throughout the nation, including insular areas and 
isolated regions such as Tribal lands.338 Schools and libraries can obtain E-rate funding for broadband 
under either the telecommunications or the Internet access category.339 E-rate participants can also 
receive discounts on e-mail service; web hosting services; cabling, connectors, and related components 
used for eligible voice, video, and data transmission; and components used to distribute information from 
Internet access facilities to individual classrooms or public areas of a library.340  
131. Since the inception of the E-rate Program, schools and libraries have received more than 
$23.7 billion in funding commitments.341 E-rate funding has provided millions of school children, 
teachers, and library patrons access to modern telecommunications and information services.  In a study 
released in 2006, the National Center for Education Statistics (NCES) found that nearly 100 percent of 
public schools in the United States had Internet access, and 97 percent of these schools used broadband 
connections to access the Internet.342 Today, Internet access in public schools is nearly ubiquitous; before 
the E-rate Program was established in 1997, only 78 percent of public schools had any Internet access at 
all.  In 1997, only 27 percent of public school instructional classrooms had Internet access; that figure 
  
336 See RHC Pilot Selection Order, 22 FCC Rcd 20360.
337 Press Release, FCC, FCC Update on Rural Healthcare Pilot Program Initiative (Apr. 16, 2009), available at 
http://hraunfoss.fcc.gov/edocs_public/attachmatch/DOC-290141A1.pdf.  Of the 67 projects, 29 have developed or 
posted requests for proposals (RFPs) to select vendors to build out their networks, while the remaining projects are 
preparing their RFPs as part of the competitive bidding process.  Id.
338 47 C.F.R. Part 54, Subpart F; see also USAC, Schools and Libraries’ Eligible Services List for Funding Year 
2009, November 21, 2008, http://www.usac.org/_res/documents/sl/pdf/ESL_archive/ 
EligibleServicesList_112108.pdf (Funding Year 2009 ESL).  The eligible services list (ESL) indicates whether 
specific products or services are eligible to receive discounts under the E-rate Program. 
339 Schools and libraries can apply discounts toward broadband connections that include digital subscriber lines 
(DSL), cable modems, fiber optics, integrated services digital networks (ISDN, BRI, PRI), satellite services, T1s, 
T2s, T3s, and fractional T1s.  Funding Year 2009 ESL at 2, 3, 7.
340 Id. at 6, 7, 10, 11. 
341 See USAC, Schools and Libraries Division, http://www.sl.universalservice.org/funding/y1/national.asp (1998–
2008 data).
342  U.S. DEPT. OF EDUC., INSTITUTE OF EDUC. SCI., INTERNET ACCESS IN U.S. PUBLIC SCHOOLS AND CLASSROOMS:  
1994-2005, at 4–5 (2006), http://nces.ed.gov/pubs2007/2007020.pdf.  The survey also found that nearly 100% of 
large schools were connected to the Internet using broadband while only 94% of small schools reported using 
broadband connections.  Id. at 5.  Although it is likely that the percentage of small schools using dial-up has 
decreased since 2006, any school still using dial-up will be limited in its use of the Internet and its applications.
REPORT ON A RURAL BROADBAND STRATEGY
59
increased to 94 percent by 2005.343 A 2006 study found that 99 percent of public library branches are 
connected to the Internet, 98 percent of which offer public Internet access.344  
132. As these figures demonstrate, the E-rate Program has been successful in connecting 
schools and libraries to the Internet using broadband.  As those connections become obsolete or 
insufficient, however, the E-rate Program should continue to ensure that American schools and libraries 
remain competitive and on the forefront of technology.  Schools will need E-rate funding for both the 
initial implementation of broadband access, as well as for the on-going costs to maintain and continuously 
improve their networks.345 Broadband is essential to handle the applications available today, including 
online distance learning and videoconferencing. One of the next steps will be to determine what level of 
broadband is adequate for each school’s needs.  
133. In some schools, broadband is an integral part of the everyday curriculum and is used by 
students, teachers, and administrators to access online and distance learning; online assessment, data, and 
other administration resources; special education; and professional development.  For example, the Bering 
Strait School District (BSSD) in Alaska uses SchoolAccess, a satellite network that provides basic 
connectivity and videoconferencing.346 The BSSD is located in an area of coastal northwest Alaska that is 
about the size of Great Britain.  It administers 15 schools that collectively have approximately 1,800 
students.347 Today, BSSD has satellite connections of at least three Mbps from each school to the district 
office in Unalakleet that are used to create a coherent sense of community throughout the district, provide 
educational opportunities to students, and allow teachers and administrators to meet without having to fly 
between communities.348 Broadband has been critical to providing BSSD’s students with the same high-
quality educational opportunities available in non-rural communities.   
3. High-Cost Program
134. The High-Cost Program is designed to ensure that consumers in rural, insular, and high-
cost areas have access to telecommunications services at rates that are affordable and reasonably 
comparable to rates charged for similar services in urban areas.349 The High-Cost Program does not 
explicitly support the provision of broadband; however, a carrier providing broadband services indirectly 
receives the benefits of high-cost universal service support when its network provides both the supported 
voice services and broadband services.350  
  
343 Id. at 14, 16.
344 INFO. USE MGMT. & POLICY INSTITUTE, COLLEGE OF INFO., FLA. STATE UNIV., PUBLIC LIBRARIES AND THE 
INTERNET 2006:  STUDY RESULTS AND FINDINGS 1 (2006), http://www.ii.fsu.edu/projectFiles/plinternet/2006/ 
2006_plinternet.pdf.
345 See STATE EDUC. TECH. DIRECTORS ASS’N, HIGH-SPEED BROADBAND ACCESS FOR ALL KIDS:  BREAKING 
THROUGH THE BARRIERS 22–23 (2008), 
http://www.setda.org/c/document_library/get_file?folderId=270&name=DLFE-211.pdf.
346 Id. at 14–15.
347 Id.
348 Id.
349 The program allows eligible carriers who serve these areas to recover some of their operating costs from the 
federal universal service fund.  See 47 C.F.R. Part 54, Subpart D.
350 The public switched network is not a single-use network, and modern network infrastructure can provide access 
not only to voice service, but also to data, graphics, video, and other services.  The Commission’s policies seek to 
promote the deployment of modern plant capable of providing access to advanced services.  See Federal-State Joint 
Board on Universal Service, Multi-Association Group (MAG) Plan for Regulation of Interstate Services of Non-
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
60
4. Low-Income Program
135. The Low-Income Program provides discounts on telephone installation and monthly 
telephone service to low-income consumers through two programs.351 The Commission’s Link Up 
Program provides federal support to reduce eligible consumers’ initial connection charges by up to one 
half and the Lifeline Program reduces qualifying consumers’ monthly charges.352 Qualified subscribers 
living on Tribal lands can receive discounts of up to $35 per month on basic monthly telephone service,353  
and depending on current rates, may receive basic local phone service for as little as $1 a month.354 In 
addition, qualified subscribers on Tribal lands may receive a one-time discount on initial installation or 
activation of a wireline or wireless telephone for their primary residence.355
136. Although the Low-Income Programs do not currently provide support for broadband 
services, the Commission sought comment in 2008 on establishing a Broadband Lifeline/Link Up Pilot 
Program to examine how the universal service Low-Income Program can be used to enhance access to 
broadband Internet access services for low-income Americans.356 Specifically, the Commission sought 
comment on making available $300 million each year for three years to enable eligible 
telecommunications carriers to provide discounts on broadband Internet access service and the necessary 
access devices to low-income consumers.357
  
(...continued from previous page)
Price Cap Incumbent Local Exchange Carriers and Interexchange Carriers, Fourteenth Report and Order, Twenty-
Second Order on Reconsideration, and Further Notice of Proposed Rulemaking in CC Docket No. 96-45, and Report 
and Order in CC Docket No. 00-256, 16 FCC Rcd 11244, 11322, para. 200 (2001) (Rural Task Force Order).
351 47 C.F.R. Part 54, Subpart E. 
352 The Lifeline program currently provides low-income consumers with discounts of up to $10.00 off of the 
monthly cost of telephone service for a single telephone line in their principal residence, though this amount adjusts, 
in part, to reflect the carrier’s tariffed federal subscriber line charge.  See 47 C.F.R. § 54.403.  Link Up provides 
low-income consumers with discounts of up to $30.00 off of the initial costs of obtaining telephone service.  See 47 
C.F.R. § 54.411(a).  Under the Commission’s rules, there are four tiers of federal Lifeline support.  All eligible 
subscribers receive Tier 1 support, which provides a discount equal to the eligible telecommunications carrier’s
subscriber line charge.  Tier 2 support provides an additional $1.75 per month in federal support, available if all 
relevant state regulatory authorities approve such a reduction.  (All fifty states have approved this reduction.)  Tier 3 
of federal support provides one half of the subscriber’s state Lifeline support, up to a maximum of $1.75.  Only 
subscribers residing in a state that has established its own Lifeline/Link Up program may receive Tier 3 support, and 
they may receive this support only if their service provider is an eligible telecommunications carrier that has all 
necessary approvals to pass on the full amount of this total support in discounts to subscribers.  Tier 4 support 
provides eligible subscribers living on tribal lands up to an additional $25 per month towards reducing basic local 
service rates, but this discount cannot bring the subscriber’s cost for basic local service to less than $1.  See 47 
C.F.R. § 54.403.
353 54 C.F.R. § 54.403.
354 54 C.F.R. § 54.409(a)(4).
355 54 C.F.R. §§ 54.411; 54.415.  The discount is up to 50% of the first $60 of the installation fee.  Qualified 
subscribers living on Tribal lands with installation or activation fees above $60 receive an additional discount of up 
to $70, bringing the total discount to a maximum of $100.  54 C.F.R. §§ 54.411.  The program also allows 
subscribers to pay the remaining amount that they owe on an interest-free deferred schedule.
356 See November 2008 Further Notice at para. 40; app. A, paras. 64–91; app. C, paras. 60–87.   
357 See id.
REPORT ON A RURAL BROADBAND STRATEGY
61
5. Reform Efforts
137. The Communications Act specifies that “[u]niversal service is an evolving level of 
telecommunications service” that should be revisited periodically, and the Commission has been 
considering comprehensive universal service reform.358 In 2007, the Joint Board recommended including 
broadband service as a supported service under the High-Cost Program and proposed permitting states to 
use various methods to allocate available universal service funds for broadband projects to reach unserved 
areas, including funding broadband projects through a competitive bidding system designed to select the 
most efficient provider of such service.359 The Commission declined to adopt the recommendations of the 
Joint Board.360 In 2008, the Commission released a Further Notice seeking comment on ways to 
comprehensively reform the federal universal service fund. 361 For example, the Commission sought 
comment on requiring recipients of high-cost support to offer broadband Internet access service 
throughout their service areas.362 In the National Broadband Plan NOI, the Commission also sought 
comment on universal service reform.363
138. Many commenters suggest that universal service should be used as a mechanism to 
ensure that broadband services are available in rural areas but these commenters disagree about the 
changes that should be made to the universal service programs.364 While this Report is not intended to 
address the merits of each of these issues, I continue to support the need for comprehensive reform of the 
universal service fund.  It is of great interest to Congress, consumers, industry, and the Commission, and 
it is time for universal service to meet the challenges of the 21st century—broadband deployment—just as 
it did the challenge of the 20th century:  telephone service.  And while there are a variety of ways to 
comprehensively reform the system, adding broadband to both the contribution and distribution sides of 
the ledger, eliminating the identical support rule, and conducting effective auditing and oversight, along 
with a Congressional change to include intrastate as well as interstate revenue as part of the fund, would 
accomplish a great deal in addressing the sustainability and integrity of the fund for the long term and 
promote broadband in the areas served by the fund.  
B. Network Openness
139. Legacy and next generation applications are converging on the communications platform 
we know as the Internet, and how this critical infrastructure is managed now and in the future will 
determine whether it remains an open platform for innovation.  The positive externalities and network 
effects of ubiquitous broadband will not be realized if consumers are all constrained by careful bundling, 
  
358 47 U.S.C. § 254(c).
359 High-Cost Universal Service Support, Federal-State Joint Board on Universal Service, WC Docket No. 05-337, 
CC Docket No. 96-45, Recommended Decision, 22 FCC Rcd 20477, 20488–89, para. 47 (Fed-State Jt. Bd. 2007).  
360 November 2008 Further Notice at paras. 30–37.
361 Id. at para. 40, app. A, paras. 19–31, app. C, paras. 19–31.
362 Id. 
363 For example, the Commission sought comment on:  (1) “what modifications [to universal service], if any should 
be considered as part of a national broadband plan;” (2) each program’s “effectiveness and efficiency as a 
mechanism to help achieve national broadband goals;” (3) “[i]f broadband services become eligible to receive high-
cost and low-income support, should we also require contributions to universal service form broadband providers;” 
and (4) how the programs can be modified “to encourage community broadband development.”  National 
Broadband Plan NOI at paras. 39–41.
364 See generally Embarq Comments; CTIA Comments; USA Coalition Comments; Benton Foundation Comments; 
and ALA Comments.
REPORT ON A RURAL BROADBAND STRATEGY
62
packaging, and discriminatory practices that whittle away the end-to-end structure of the public Internet.  
“Openness” is not just another bromide, but a principle we must tenaciously preserve.
140. The value of open networks is not a novel concept, but the Commission must act to 
ensure that the genius of the open Internet is not lost.  Over the course of the Commission’s history, 
powerful network operators have argued that harm will result from any reduction in their absolute control 
over the network.  For example, the Commission had to intervene in cases like Carterphone to allow even 
basic attachments to the telephone network that incumbents argued would compromise the entire 
network.365 As broadband networks developed, the few companies that controlled the on-ramps to the 
Internet could interfere with and distort the development of technology, opportunities for 
entrepreneurship, and the choices available to consumers.  As the Commission re-categorized 
telecommunications services as information services, this only amplified the potential for interference.  
Fortunately, the Commission adopted the Internet Policy Statement containing the basic rights of Internet 
end-users to access lawful content, run applications and services, connect devices to the network, and 
enjoy the benefits of competition.366 While these protections have been critically important as a first step 
forward, another step is needed.
141. I have long advocated adopting a fifth principle of nondiscrimination.  The principle 
would allow for reasonable network management but make crystal clear that the transformative power of 
the Internet is not to be limited by such techniques.  The Commission also should establish a systematic, 
expeditious, case-by-case process for adjudicating claims of discrimination.  Such a principle is 
particularly important in a rural context where a citizen may have only one option for broadband Internet 
access.  We need to guarantee the openness of the Internet, and the Commission appropriately raised the 
question of how to do this in its National Broadband Plan NOI.367
C. Spectrum Access 
142. Wireless service will play a critical role in ensuring that broadband reaches rural areas.  
Because wireless infrastructure costs are frequently less significant than comparable wired broadband 
deployments, wireless broadband can be an efficient means of delivering both backhaul and “last-mile” 
access services in rural areas.368 It can also enable mobility or portability.  Consequently, wireless 
broadband service can offer cost-effective connectivity where no broadband exists, as well as 
complementary or competitive service where it does.369
  
365 Use of the Carterfone Device in Message Toll Service, Decision, 13 FCC 2d 420 (1968), recon. denied, 14 FCC 
2d 571 (1968).
366 Appropriate Framework for Broadband Access to the Internet over Wireline Facilities; Review of Regulatory 
Requirements for Incumbent LEC Broadband Telecommunications Services; Computer III Further Remand 
Proceedings:  Bell Operating Company Provision of Enhanced Services; 1998 Biennial Regulatory Review –
Review of Computer III and ONA Safeguards and Requirements; Inquiry Concerning High-Speed Access to the 
Internet Over Cable and Other Facilities Internet Over Cable Declaratory Ruling; Appropriate Regulatory 
Treatment for Broadband Access to the Internet Over Cable Facilities, Policy Statement, 20 FCC Rcd 14986, 
14987–88, para. 4 (2005). 
367 National Broadband Plan NOI.  
368 See WIRELESS BROADBAND ACCESS TASK FORCE, FCC, CONNECTED & ON THE GO 2 (2005), available at
http://hraunfoss.fcc.gov/edocs_public/attachmatch/DOC-256693A1.pdf (WIRELESS BROADBAND ACCESS TASK 
FORCE REPORT); see also APPALACHIAN REGIONAL COMM’N, EVALUATION OF THE APPALACHIAN REGIONAL 
COMMISSION’S TELECOMMUNICATIONS PROJECTS:  1994–2000, at v–vii (2003), http://www.arc.gov/images/reports/ 
telecomeval/telecom_eval.pdf  (discussing reducing infrastructure costs).
369 See WIRELESS BROADBAND ACCESS TASK FORCE REPORT at 13–14; see also see also 2009 HIGH SPEED REPORT
at 1 (explaining that information about subscribership to high-speed services, including advanced services, includes 
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
63
143. For a number of years, the Commission’s spectrum policies have attempted to promote 
wireless broadband deployment in rural areas.  These policies have included increasing spectrum 
availability in rural areas, and adopting licensing, technical, auction eligibility, bidding credit, and 
spectrum leasing rules that have sought to encourage wireless service in rural and Tribal areas.  
144. Spectrum Availability.  In recent years, the Commission has made available significant 
amounts of licensed spectrum that can be used to provide wireless broadband services.370 The 
Commission’s actions have included, among other things, an examination of public safety needs to 
develop a nationwide, interoperable wireless broadband public safety network in the 700 MHz Band.371  
In addition, unlicensed spectrum use is currently permitted in several spectrum bands.372  Most recently, 
in November 2008, the Commission adopted rules allowing unlicensed radio transmitters to operate in the 
unused portions of the broadcast television spectrum, the so-called “TV white spaces.”373  The 
  
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data concerning terrestrial wireless service providers, in addition to data concerning wireline telephone companies, 
cable system operators, and satellite service providers).
370 For example, the Commission auctioned 90 megahertz of Advanced Wireless Service (AWS) spectrum in the 2 
GHz band beginning in 2006 and 52 megahertz of commercial spectrum in the 700 MHz Band in 2008.  In addition, 
beginning in 2002, the Commission also auctioned 18 megahertz of commercial spectrum in the Lower 700 MHz 
Band.  See Service Rules for Advanced Wireless Services in the 1.7 GHz and 2.1 GHz Bands, WT Docket No. 02-
353, Report and Order, 18 FCC Rcd 25162 (2003) (AWS-1 Service Rules Report and Order), modified by Service 
Rules for Advanced Wireless Services In the 1.7 GHz and 2.1 GHz Bands, WT Docket No. 02-353, Order on 
Reconsideration, 20 FCC Rcd 14058 (2005) (AWS-1 Recon Order); 700 MHz Report and Order, 22 FCC Rcd 8064; 
700 MHz Second Report and Order, 22 FCC Rcd 15289; http://wireless.fcc.gov/auctions/44/ (with links to later 
auctions of Lower 700 MHz Band licenses).  In addition, beginning in 2004, the Commission restructured the 2.5 
GHz Broadband Radio Service/Educational Broadband Service band plan and modified the rules for the use of that 
spectrum to enable the development and deployment of mobile broadband services, including WiMAX technologies.  
In restructuring the band plan, the Commission moved from interleaved spectrum to more cohesive, contiguous 
blocks of spectrum.  See Amendment of Parts 1, 21, 73, 74 and 101 of the Commission’s Rules to Facilitate the 
Provision of Fixed and Mobile Broadband Access, Educational and Other Advanced Services in the 2150-2162 and 
2500-2690 MHz Bands, WT Docket No. 03-66, Report and Order and Further Notice of Proposed Rulemaking, 19 
FCC Rcd 14165, 14270, 14271, 14272, paras. 281, 286 (2004); Amendment of Parts 1, 21, 73, 74 and 101 of the 
Commission’s Rules to Facilitate the Provision of Fixed and Mobile Broadband Access, Educational and Other 
Advanced Services in the 2150-2162 and 2500-2690 MHz Bands, WT Docket No. 03-66, Third Memorandum 
Opinion and Order and Second Report and Order, 21 FCC Rcd 5606 (2006).
371 As envisioned by the Commission, such a network would bring the promise of broadband to all public safety 
entities, including those in rural areas that may not otherwise have the resources or the ability to procure broadband 
capabilities for themselves. The Commission is continuing to examine opportunities to utilize the 700 MHz band to 
enhance the ability of the public safety community to gain access to a state of the art broadband network. See 
Implementing a Nationwide, Broadband, Interoperable Public Safety Network in the 700 MHz Band, PS Docket No. 
06-229, Ninth Notice of Proposed Rulemaking, 21 FCC Rcd 14837 (2006); Report and Order and Further Notice of 
Proposed Rulemaking, 22 FCC Rcd 8064 (2007); Second Report and Order, 22 FCC Rcd 15289 (2007); Second 
Further Notice of Proposed Rulemaking, 23 FCC Rcd 8047 (2008); Third Further Notice of Proposed Rulemaking, 
23 FCC Rcd 14301 (2008).
372 The spectrum most commonly used by unlicensed devices in the United States is at 902-928 MHz, 2.4 GHz, and 
between 5.3 and 5.8 GHz.  See generally 47 C.F.R. Part 15.
373 Unlicensed Operation in the TV Broadcast Bands, ET Docket No. 04-186, Second Report and Order and 
Memorandum Opinion and Order, 23 FCC Rcd 16807 (2008). See Sprint Nextel et al. April 13, 2009 Ex Parte
Letter at 1–2.
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64
Commission has also adopted an innovative, non-exclusive licensing scheme in the 3650-3700 MHz band 
that allows multiple entrants to use the band simultaneously.374  
145. Technical Rules.  In addition to increasing the amount of spectrum available for wireless 
broadband services, the Commission has also revised its technical rules for certain spectrum bands to 
improve wireless coverage in rural areas.375 For instance, the Commission permits Cellular, Broadband 
Personal Communications Service (PCS), AWS, and certain 700 MHz licensees to employ twice the 
power in rural areas than is permitted in non-rural areas.376 In addition, the Commission has allowed 
licensees in several bands to use a power spectral density model to measure power levels,377 and has 
adopted “average” rather than “peak” measurements of power limits, which enables better services in 
rural areas through an ability to use increased power in most instances.378
146. Service and Licensing Rules.  The Commission, in recent years, has adopted rules 
governing auctioned spectrum licenses that are meant to encourage broadband deployment in rural areas.  
These policies have included adopting smaller license sizes when creating band plans and more stringent 
buildout requirements for licensees.379 Furthermore, the Commission has provided wireless licensees 
with the flexibility to deploy the technologies and services that best fit their business plan and meet the 
  
374 See Wireless Operations in the 3650-3700 MHz Band; Rules for Wireless Broadband Services in the 3650-3700 
MHz Band; Additional Spectrum for Unlicensed Devices Below 900 MHz and in the 3 GHz Band; Amendment of the 
Commission’s Rules with Regard to the 3650-3700 MHz Government Transfer Band, ET Docket Nos. 04-151, 98-
237, 02-380, WT Docket No. 05-96, Report and Order and Memorandum Opinion and Order, 20 FCC Rcd 6502 
(2005), recon. granted in part, Memorandum Opinion and Order, 22 FCC Rcd 10421 (2007) (3650 Memorandum 
Opinion and Order).  See API Comments at 7 (stating the Commission’s recent decision regarding the 3650-3700 
MHz Band is a commendable example of efficient management in a new band with registration conditions placed on 
licensees in that band and the accompanying protocol restrictions helping to ensure the viability of that band to 
multiple users in the future).  The rules for this band provide for nationwide, non-exclusive, licensing of terrestrial 
wireless operations, and licensees must use equipment with a contention-based protocol.  See 3650 Memorandum 
Opinion and Order, 22 FCC Rcd at 10425, para. 11.  This approach combines the benefits of the unlicensed 
approach, in which the number of wireless services providers is not restricted, with other elements, namely that 
service providers in the band must register their operations and use equipment that incorporates a contention-based 
protocol.
375 In the Terrestrial Wireless Rural Report and Order, the Commission found that the record supported finding, in 
principle, that “increasing power limits in rural areas can benefit consumers in rural areas by reducing the costs of 
infrastructure and otherwise making the provision of spectrum-based services to rural areas more economic.”  
Terrestrial Wireless Rural Report and Order, 19 FCC Rcd at 19126-27, para. 86.   
376 See id. at 19126–35 paras. 86–104; 700 MHz Report and Order, 22 FCC Rcd at 8099–100, para. 93.  
377 In deciding to employ the use of power spectral density (PSD) in the 700 MHz band, the Commission adopted a 
general power limit of 1 kW/MHz ERP for 700 MHz base stations and a 2 kW/MHz ERP limit for 700 MHz base 
stations operating in rural areas.  Id. In March 2008, the Commission extended the PSD model to the Broadband 
PCS and AWS-1 spectrum bands, thereby adopting a power limit of 1640 Watts EIRP/MHz in non-rural areas and
3280 Watts EIRP/MHz in rural areas.  See Biennial Regulatory Review—Amendment of Parts 1, 22, 24, 27, and 90 
to Streamline and Harmonize Various Rules Affecting Wireless Radio Services, Third Report and Order, 23 FCC 
Rcd 5319, 5330, para. 25 (2008) (Streamlining and Harmonization Order).  
378 See 700 MHz Report and Order, 22 FCC Rcd at 8103, para. 105; Streamlining and Harmonization Order, 23 
FCC Rcd at 5330, para. 25. 
379 For example, in the AWS-1 Spectrum, the Commission increased the amount of spectrum licensed on a small 
geographic area basis (CMAs).  See AWS-1 Recon Order, 20 FCC Rcd 14058.  In addition, in the 700 MHz Band, 
the Commission adopted “keep-what-you-use” rules which provide that if a licensee fails to meet its end of term 
benchmark, its authorization to operate will terminate automatically for those geographic areas of its license 
authorization in which it is not providing service, and those unserved areas will become available for reassignment.  
See 700 MHz Second Report and Order, 22 FCC Rcd at 15353–54, paras. 170–74.
REPORT ON A RURAL BROADBAND STRATEGY
65
needs of consumers.380 The Commission’s rules permit licensees to transfer their licenses, or partition or 
disaggregate their licenses, in the secondary market with Commission approval. 381 The Commission’s 
secondary markets rules also provide flexibility to a wide array of wireless licensees, including broadband 
providers, to enter into spectrum leasing arrangements with other providers that seek access to spectrum 
in rural areas.382
147. Bidding Credits.  To provide greater incentives for certain entities—including small rural 
telephone companies and small businesses that may have an interest in serving rural areas—to access 
spectrum, the Commission has offered bidding credits to such companies at spectrum auctions.383 In 
doing so, the Commission has recognized that bidding preferences provide these smaller companies with 
an opportunity to compete successfully against large, well-financed entities at auction, and in some cases 
to subsequently deploy wireless service in rural areas.384  
148. Tribal Land Bidding Credits.  In 2000, the Commission created Tribal Land bidding 
credits to assist Tribal communities with the greatest need for access to telecommunications service.385  
The bidding credits are available to winning bidders in wireless spectrum auctions that agree to deploy 
facilities and provide service in certain Tribal areas,386 namely federally-recognized Tribal areas with 
  
380 These policies have led to the development and deployment of cutting-edge mobile broadband network 
technologies in many areas of the country, as well as innovative, powerful, and personalized mobile broadband 
applications and devices.  See generally Thirteenth CMRS Competition Report, paras. 66–67, 126–27.
381 “Partitioning” a license refers to transferring a portion of the geographic area of a spectrum license, such as a 
county within a Cellular Market Area (CMA), to another entity.  “Disaggregation” refers to transferring a portion of 
the spectrum included in a license, such as 10 megahertz of a 30 megahertz license, to another entity.
382 See generally Promoting Efficient Use of Spectrum Through Elimination of Barriers to the Development of 
Secondary Markets, First Report and Order and Further Notice of Proposed Rulemaking, 18 FCC Rcd 20604 (2003); 
Promoting Efficient Use of Spectrum Through Elimination of Barriers to the Development of Secondary Markets, 
Second Report and Order, Order on Reconsideration, and Second Further Notice of Proposed Rulemaking, 19 FCC 
Rcd 17503 (2004); 47 CFR §§ 1.9001 et seq.
383 The Commission may provide rural telephone companies that qualify as small businesses with bidding credits.  
See Amendment of Part 1 of the Commission’s Rules—Competitive Bidding Procedures, WT Docket No. 97-82, 
Order on Reconsideration of the Third Report and Order, Fifth Report and Order, and Fourth Further Notice of 
Proposed Rule Making, 15 FCC Rcd 15293, 15319–20, para. 52 (2000).  
384 See, e.g., Revision of Part 22 and Part 90 of the Commission’s Rules to Facilitate Future Development of Paging 
Systems; Implementation of Section 309(j) of the Communications Act -- Competitive Bidding, WT Docket No. 96-
18, PR Docket No. 93-253, Memorandum Opinion and Order on Reconsideration and Third Report and Order, 14 
FCC Rcd 10030, 10091, para. 112 (1999).  But see also David Mason Comments at 2 (urging the Commission to 
allow licensing of WiMAX spectrum to small ISPs across the nation for free -- instead of auctioning spectrum to one 
large nationwide service provider who bids the most -- because a single nationwide provider of service will never 
get to his small town since the market is too small).
385 Extending Wireless Telecommunications Services to Tribal Lands, WT Docket No. 99-266, Report and Order and 
Further Notice of Proposed Rulemaking, 15 FCC Rcd at 11794, 11802, para. 22 (2000) (TLBC First Report and 
Order). 
386 In order to obtain a bidding credit in a particular market, a winning bidder must indicate on its long-form 
application (FCC Form 601) that it intends to serve Tribal lands in that market.  Id. at 11805, para. 31.  Following 
the long-form application filing deadline, the applicant provided an additional 90 calendar days beyond the deadline 
to amend its application to identify the Tribal lands to be served, and provide certification from the Tribal 
government(s).  In particular, applicants must provide certification from the applicable Tribal government that:  (1) 
it will allow the bidder to site facilities and provide service on its Tribal Land(s), in accordance with our rules; (2) it 
has not and will not enter into an exclusive contract with the applicant precluding entry by other carriers, and will 
not unreasonably discriminate against any carrier; and (3) its Tribal Land is a qualifying Tribal Land as defined in 
Commission rules.  In addition, at the conclusion of the grace period, the applicant was required to amend its long-
(continued....)
REPORT ON A RURAL BROADBAND STRATEGY
66
telephone penetration rates equal to or less than 85 percent.387 In order to ensure that applicants awarded 
bidding credits actually deploy facilities and provide service to Tribal lands, the Commission requires that 
a licensee construct and operate its system to cover 75 percent of the population of the qualifying Tribal 
Land within three years of the grant of the license or face repayment penalties and, potentially, license 
termination.388
149. Despite the various efforts of the Commission to promote spectrum access in rural areas, 
as described above, commenters have noted that these policies have not been consistently successful in 
promoting rural broadband deployments.  In particular, parties have noted that there remains a lack of 
available, affordable, and suitable spectrum for rural wireless broadband; 389 that our secondary market 
rules do not always promote spectrum trading and re-use;390 and that backhaul costs between wireless 
  
(...continued from previous page)
form application to file a certification that it would comply with the bidding credit buildout requirement, and that it 
would consult with the Tribal government regarding the siting of facilities and deployment of service on the Tribal 
Land.  Id. at 11805–06, para. 32.  The Commission, on its own motion, subsequently extended the grace period to 
180 days.  A winning bidder now has 180 days to amend its long-form application to identify the Tribal Land it 
seeks to serve, and to provide the required certification from the Tribal government.  The winning bidder also has 
180 days to file a certification that it will comply with the Tribal lands buildout requirements, and consult with the 
Tribal government regarding the siting of facilities and deployment of service on Tribal lands.  See Extending 
Wireless Telecommunications Services to Tribal Lands, WT Docket No. 99-266, Second Report and Order and 
Second Further Notice of Proposed Rulemaking, 18 FCC Rcd 4775, 4779 para. 10 (2003) (TLBC Second Report and 
Order); see also 47 C.F.R. § 1.2110(f)(3)(ii)(A) (2003).
387 Extending Wireless Telecommunications Services to Tribal Lands, WT Docket No. 99-266, Third Report and 
Order, 19 FCC Rcd 17652, 17659, para. 18 (2004) (TLBC Third Report and Order).
388 TLBC First Report and Order, 15 FCC Rcd at 11,806–07, para. 35.  The Commission also requires that, at the 
conclusion of the three-year period, licensees file a notification of construction indicating that they have met the 
75% construction requirement on the Tribal lands for which the credit was awarded.  If the licensee fails to comply 
with any condition, it is required to repay the bidding credit plus interest 30 days after the conclusion of the 
construction period.  In the event the licensee fails to repay the amount, the license automatically cancels.  Id. at 
11807, para. 37.  Additionally, in order to verify compliance with the Tribal lands construction requirement, the 
Commission requires licensees to file an attachment along with their notification of construction, stating that it 
covers 75% of the population of the Tribal area for which the credit was awarded and providing the data to support 
that statement.  TLBC Second Report and Order, 18 FCC Rcd at 4780, para.13.  Finally, the Commission expressly 
codified penalties for failure to comply with buildout requirements, and failure to timely repay the bidding credit.  
Id. at 4781, para. 14; see also 47 C.F.R. § 1.2110(f)(3)(vii) (2003).
389 DigitalBridge Comments at 4–6; see also, e.g., FiberTower et al. Comments at 1–2 & app. (urging the 
Commission to expand the amount of licensed spectrum that can be used for wireless backhaul services).
390 See API Comments at 5 (stating that secondary markets for suitable broadband spectrum are dysfunctional in that 
incentives for auction winners or spectrum lessors to lease, partition, or sublease spectrum in rural areas are not 
compelling). 
REPORT ON A RURAL BROADBAND STRATEGY
67
points of presence are prohibitively high.391 Commenters have also noted that further modifications to 
rules for power limits in rural areas would promote wireless broadband deployment in those areas.392
150. We recommend the Commission conduct a thorough inventory of the spectrum it has 
already licensed, examining how, why, and where it is used, and identifying distinct geographic areas 
where service has not been deployed or where the spectrum is being used inefficiently.  The Commission 
could then consider various ways to redeploy this spectrum for more efficient use, including possible 
modifications to secondary markets rules.  For example, the Commission could examine whether 
requiring licensees to make “good faith” efforts to negotiate with potential spectrum lessees, particularly 
in rural areas, would promote the development of broadband service in rural markets.393
D. Middle Mile/Special Access
151. As discussed above, an ISP providing service to subscribers in a rural area must obtain 
connections to a node of an Internet backbone service provider.394 The facilities making this connection 
are among those commonly referred to as “middle-mile” facilities.  Many ISPs typically obtain access to 
these facilities by purchasing special access services from one or more incumbent LECs, wireless services 
providers, or other carriers.  These services may be subject to tariffed rates or may be obtained pursuant to 
contract, depending upon the regulatory status of the provider.395  
152. Certain commenters argue that the prices charged for access to middle-mile facilities are 
excessive.396 In 2005, the Commission released the Special Access Order and NPRM to broadly 
reexamine the special access regime for price cap carriers.397 The Commission asked parties to refresh 
  
391 See, e.g., Big Think Strategies Comments at 8 (urging the Commission to consider the need for some sort of 
fixed, reasonable pricing on backhaul/middle mile costs to an upstream Internet access point); ACS Comments at 3 
(stating that a component of broadband sustainability is actual access to the Internet based on economically available 
backhaul facilities); Fibertech/KDL Comments at 9 (stating that backhaul represents an enormous cost to wireless 
providers and can be prohibitively expensive in rural areas).  We also note that roundtable participants at the March 
19, 2009 NTIA/RUS Public Meeting about the Broadband Technology Opportunities Program explained that, in 
some areas, backhaul costs were the reason communities were unserved.  See, e.g., John Rose, President of 
OPASTCO, Remarks at the U.S. Dep’t of Commerce Roundtable on Rural and Unserved Areas (Mar. 19, 2009) 
(transcript available at http://www.ntia.doc.gov/broadbandgrants/090319/NTIA_031909_1445_1615_session.pdf).
392 See, e.g., New America Foundation Comments at 3–5 (arguing that TV “whitespaces” rules should allow variable 
power limits for rural areas); WISPA Comments at 5 (stating that the Commission should be favorably disposed to 
quickly grant waiver requests seeking relief from power limits or other technical parameters in rural areas); and 
Main Street Broadband Comments at 2 (recommending that the Commission raise the power limits for 3.65 GHz 
operations in rural areas allowing service providers to reach more customers using less infrastructure).
393 The Commission has noted the potential for a “good faith” negotiation process in recent spectrum rulemaking 
proceedings.  See Service Rules for Advanced Wireless Services in the 2155-2175 MHz Band, WT Docket No. 07-
195, Notice of Proposed Rulemaking, 22 FCC Rcd 17035, 17090 para. 131 (2007) (seeking comment on whether 
requiring licensees to make “good faith” efforts to negotiate with potential spectrum lessees could help increase 
access to spectrum, including in rural areas).  Cf. 700 MHz Report and Order, 22 FCC Rcd at 8086–87 paras. 53–54 
(declining to adopt rules requiring licensees to make “good faith” efforts to negotiate based, in part, on other 
incentives under the rules to enter into spectrum leasing arrangements).
394 See supra Part V.D (Addressing Network Costs).
395 See generally 47 C.F.R. Parts 61, 69. 
396 See, e.g., New America Foundation Comments at 1, 5; GCI Comments at 3; and Alaska Commission Comments 
at 5.
397 Special Access Order and NPRM, WC Docket No. 05-25, RM-10593, Order and Notice of Proposed 
Rulemaking, 20 FCC Rcd 1994, 1994, para. 1 (2005).
REPORT ON A RURAL BROADBAND STRATEGY
68
the record in this Special Access Reform proceeding in 2007.398 Numerous price cap carriers have 
received relief from the price cap regime, in the form of pricing flexibility or forbearance relief, for 
certain special access services that could be used to provide middle-mile connectivity.399 The issues 
raised in the Special Access Reform proceeding and the forbearance relief discussed above directly affect 
the rates that price cap carriers may charge for access to middle-mile and other dedicated facilities for 
various types of broadband providers.  We recommend that the Commission consider the impact special 
access prices have on rural broadband deployment and affordability as a part of its overall review of 
special access rates in the Special Access Reform proceeding.
153. Some commenters suggest that wireless backhaul could provide a middle-mile alternative 
to wireline special access services in rural areas.400 In its Second Report and Order in the White Spaces
proceeding, the Commission determined that fixed unlicensed TV band devices (TVBDs) will be allowed 
to provide wireless broadband services (e.g., wireless Internet access) and other services using multiple 
vacant TV channels and will be permitted to operate on a fixed, point-to-point, or point-to-multipoint 
basis.401 The Commission decided to limit fixed unlicensed TVBDs to a peak transmitter output power of 
one watt with a maximum antenna gain of 6 decibels isotropic (dBi) and require that transmitter power be 
reduced by the same amount in decibels (dB) that the maximum antenna gain exceeds 6 dBi, allowing 
fixed unlicensed TVBDs to operate with the equivalent of 4 watts Equivalent Isotropic Radiated Power 
(EIRP).402 The Commission determined that these power levels would allow some improved coverage for 
wireless broadband service providers.  The Commission also found that higher power levels would 
increase the risk of interference in congested areas and that it was prudent to set power limits at levels that 
would minimize the risk of interference to authorized TV band users.  It was unclear that the current rules 
would provide for middle-mile coverage.  However, recognizing that there are advantages, such as 
reduced infrastructure costs and increased service range, to operation of unlicensed TVBDs at even higher 
power levels, the Commission noted that it would further explore through a separate Notice of Inquiry 
whether higher powered unlicensed operation might be accommodated in the TV white spaces in rural 
areas.403  
  
398 Parties Asked to Refresh Record in the Special Access Notice of Proposed Rulemaking, WC Docket No. 05-25, 
RM-10593, Public Notice, 22 FCC Rcd 13352 (2007).
399 See, e.g., Petition of AT&T Inc. for Forbearance under 47 U.S.C. § 160(c) from Title II and Computer Inquiry 
Rules with Respect to its Broadband Services, WC Docket No. 06-125, Memorandum Opinion and Order, 22 FCC 
Rcd 18705 (2007); see also, e.g., Joint Statement of Chairman Kevin J. Martin and Commissioner Deborah Taylor 
Tate, Petition of the Verizon Telephone Companies for Forbearance under 47 U.S.C. § 160(c) from Title II and 
Computer Inquiry Rules with Respect to their Broadband Services, WC Docket No. 04-440 (Mar. 20, 2006) 
(discussing Verizon’s “deemed granted” petition).  Verizon’s “deemed granted” petition was upheld in Sprint Nextel 
Corp. v. FCC, 508 F.3d 1129 (D.C. Cir. 2007).
400 We note, however, that unfavorable weather conditions such as rain and wind can adversely affect the capacity of 
these transmissions for wireless backhaul using certain spectrum bands (such as 24 GHz and 39 GHz).  See FCC 
Bulletin 70, Millimeter Wave Propagation Spectrum Management Implications (July 1997).  In areas with irregular 
terrain, intermediate repeaters that ensure “line-of-sight” connectivity between transmitters and receivers are an 
indispensable part of any wireless backhaul system.  See supra Part V.A (discussing technological considerations).
401 Unlicensed Operation in the TV Broadcast Bands; Additional Spectrum for Unlicensed Devices Below 900 MHz 
and in the 3 GHz Band, ET Docket Nos. 04-186, 02-380, Second Report and Order and Memorandum Opinion and 
Order, 23 FCC Rcd 16807, 16847, paras. 104–05 (2008).
402 Id. at para. 105.
403 Id. at para. 106. See also Statement of Commissioner Michael J. Copps, id. at 16928; Statement of 
Commissioner Jonathan S. Adelstein, id. at 16930; Statement of Commissioner Robert M. McDowell, id. at 16932; 
and Statement of Commissioner Deborah Taylor Tate, id. at 16935; see also Fibertech/KDL Comments at 9 
(asserting that wireless backhaul can reduce cellular companies’ special access costs by 90%).  See generally Sprint 
Nextel et al. April 13, 2009 Ex Parte Letter.
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69
154. We recommend that the Commission consider additional actions to address middle-mile 
connectivity as it analyzes the records being developed in open proceedings at the Commission.  
E. Intercarrier Compensation 
155. Interconnection arrangements between carriers are currently governed by a complex 
system of intercarrier compensation regimes.  Critics of the existing regimes argue that they create 
regulatory arbitrage opportunities that distort the marketplace and impede the deployment of broadband 
facilities.404 The Commission’s efforts to develop a more unified intercarrier compensation regime began 
in 2001, with the release of the Intercarrier Compensation NPRM.405 These efforts have included a 
Further NPRM,406 additional rounds of comments,407 and, most recently, efforts to adopt a comprehensive 
approach to universal service and intercarrier compensation reform.408 The record assembled on 
comprehensive reform is extensive, the issues are difficult, and agreement on solutions has proven 
elusive.  We believe a critical factor in evaluating any specific set of proposed reforms should be the 
effect they will have on the deployment of broadband services in rural areas.  
F. Access to Poles and Rights of Way 
156. Congress first directed the Commission to ensure that the rates, terms, and conditions for 
pole attachments by cable television systems are just and reasonable in 1978 when it added section 224 to 
the Communications Act.409 The 1996 Act expanded the reach of section 224 to grant attachers an 
affirmative right to access utility poles.410 Congress also added “telecommunications carrier” as a 
category of attacher.411 The 1996 Act specified separate rate formulas for cable operators and 
telecommunications carriers,412 and permitted electric utilities to deny access, on a nondiscriminatory 
basis, where there is insufficient capacity and for reasons of safety, reliability, and generally applicable 
engineering purposes.413 When the Commission implemented section 224’s new access provision,414 it 
  
404 November 2008 Further Notice at paras. 3, 23–28.
405 Developing a Unified Intercarrier Compensation Regime, CC Docket No. 01-92, Notice of Proposed 
Rulemaking, 16 FCC Rcd 9610 (2001) (Intercarrier Compensation NPRM).
406 Developing a United Intercarrier Compensation Regime, CC Docket No. 01-92, Further Notice of Proposed 
Rulemaking, 20 FCC Rcd 4685 (2005) (Intercarrier Compensation Further NPRM) (seeking comment on a number 
of specific comprehensive reform proposals and alternative reform measures that would affect how intercarrier costs 
are recovered from end-users, carriers and universal service mechanisms).
407 Comment Sought on Amendments to the Missoula Plan Intercarrier Compensation Proposal to Incorporate a 
Federal Benchmark Mechanism, CC Docket No. 01-92, Public Notice, 22 FCC Rcd 3362 (WCB 2007).  Comment 
Sought on Missoula Intercarrier Compensation Reform Plan, CC Docket No. 01-92, Public Notice, 21 FCC Rcd 
8524 (WCB 2006).
408 November 2008 Further Notice.
409 Pole Attachment Act of 1978, Pub. L. No. 95-234, 92 Stat. 33 (1978).  
410 Before 1996, section 224 did not guarantee cable television systems the right to attach to utility poles but merely 
provided that where cable television systems were able to obtain such attachments, the rates, terms, and conditions 
must be just and reasonable.
411 47 U.S.C. § 224(a)(4).
412 See 47 U.S.C. § 224(d), (e).
413 47 U.S.C. § 224(f)(2).
414 Implementation of the Local Competition Provisions in the Telecommunications Act of 1996; Interconnection 
between Local Exchange Carriers and Commercial Mobile Radio Service Providers, CC Docket Nos. 96-98, 95-
(continued....)
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70
adopted a few broad policy guidelines and rules of general applicability, but concluded that the 
reasonableness of particular conditions of access imposed by a utility should be resolved on a case-
specific basis.415  
157. In 2007 the Commission issued the Pole Attachments NPRM to comprehensively review 
these issues.416 In the Pole Attachments NPRM, the Commission tentatively concluded that all 
attachments used to provide broadband Internet access services should be subject to a single rate formula, 
regardless of the kind of company (e.g., cable operator, telecommunications carrier) providing those 
services.417 In the pending Pole Attachments NPRM proceeding, the Commission also sought comment 
on the interplay between section 224 pole attachment regulation and Congress’s intention in section 706 
to promote broadband infrastructure deployment.418 Timely and reasonably priced access to poles and 
rights of way is critical to the buildout of broadband infrastructure in rural areas.  We recommend that the 
Commission consider this factor in analyzing the record in the Pole Attachments NPRM proceeding.      
G. Tower Siting
158. Wireless broadband development in rural areas will depend in part on the ability of 
providers to access towers and other structures for the deployment of their network facilities, either 
through new tower construction or collocation on existing towers or other structures.  For instance, one 
study concludes that, in order to achieve ubiquitous mobile broadband coverage, approximately 16,000 
new towers will need to be constructed, disproportionately in rural areas.419 We note that there are several 
open Commission proceedings that may affect the pace or cost of tower construction.420  
  
(...continued from previous page)
185, First Report and Order, 11 FCC Rcd 15449, 16058–107, paras. 1119–240 (1996) (Local Competition Order) 
(Part XI.B. “Access to Rights of Way”).
415 Id. at 16067–68, para. 1143.  See generally 47 C.F.R §§ 1.1403–.1418 (section 224 complaint rules).  In addition, 
under current Commission rules, an attacher may execute a pole attachment agreement with a utility, and then later 
file a complaint challenging the lawfulness of a provision of that agreement.  See, e.g., S. Co. Svcs., Inc. v. FCC, 313 
F.3d 574, 582–84 (D.C. Cir. 2002).  
416 Implementation of Section 224 of the Act; Amendment of the Commission’s Rules and Policies Governing Pole 
Attachments, WC Docket No. 07-245, RM-11293, RM-11303, Notice of Proposed Rulemaking, 22 FCC Rcd 20195 
(2007) (Pole Attachments NPRM).
417 See Pole Attachments NPRM, 22 FCC Rcd at 20209, para. 36.  In the Pole Attachments NPRM, the Commission 
also tentatively concluded that this broadband rate should fall within the established statutory rates.  See 47 U.S.C. 
§ 224(d)–(e). 
418 See Pole Attachments NPRM, 22 FCC Rcd at 20205–06, para. 25.  The Commission stated that “[s]ection 706 of 
the 1996 Act directs us to promote the deployment of broadband infrastructure, and this directive leads us to 
separate out those pole attachments that are used to offer broadband Internet access service from those used for other 
services.”  Id at 20209, para. 36.  
419 See CTIA Comments, WC Docket No. 05-337, Attach. A at 20 (filed Apr. 17, 2008) (“States with lower 
population density require more new site investment rather than augmentation of existing network assets.  More than 
90% of the estimated investment for Alaska, Idaho, Montana, Nevada, and Wyoming is Greenfield or new site 
investment.”).  
420 For instance, in July 2008, CTIA filed a petition for declaratory ruling requesting that the Commission clarify 
provisions of the Communications Act regarding state and local review of wireless facility siting applications.  
Petition for Declaratory Ruling to Clarify Provisions of Section 332(c)(7)(B) to Ensure Timely Siting Review and to 
Preempt under Section 253 State and Local Ordinances that Classify All Wireless Siting Proposals as Requiring a 
Variance, Petition for Declaratory Ruling, WT Docket No. 08-165 (filed July 11, 2008).  In 2006, the Commission 
sought comment on whether it should impose additional requirements on the construction of new communications 
towers to reduce the number of migratory bird collisions with such towers.  Effects of Communications Towers on 
(continued....)
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71
H. Video Programming
159. Access to video programming is often an important element in a customer’s decision to 
purchase broadband service.  Accordingly, access to video programming could become an issue that has 
an impact on the potential competitiveness of the service offerings of rural broadband providers and thus 
on rural broadband deployment.  
160. The Commission has several ongoing proceedings examining the video programming 
marketplace.  For instance, on January 16, 2009, the Commission requested data on the status of 
competition in the market for the delivery video programming for 2007; similar data for years 2008 and 
2009 were requested on April 9, 2009.421 In addition, the Commission has ongoing proceedings on 
program access and program carriage requirements, both of which can affect the ability of rural 
multichannel video programming distributors (MVPDs) to provide video programming.422 We 
recommend that when addressing these issues, the Commission consider the impact of any actions it may 
take on rural broadband deployment.
VII. CONCLUSION 
161. Since January, the Obama administration has taken a proactive, leadership role in 
broadband-related matters, and the federal government has begun to develop a coordinated approach.  The 
Recovery Act allocated money for broadband development and also directed the Commission to prepare a 
national broadband plan.  We hope that this Report also makes a useful contribution to the national 
broadband plan.  Infrastructure deployment is something Americans do well; it plays to our national 
strengths.  We have built out canals, bridges, electricity, telephone service, roads, and highways.  Now, 
with much history to learn from and with an array of technological resources at our disposal, we can and 
will do it again. 
  
(...continued from previous page)
Migratory Birds, WT Docket No. 03-187, Notice of Proposed Rulemaking, 21 FCC Rcd 13241, 13241, 13256, 
paras. 1, 32 (2006).  The Commission also is presently reviewing its rules and procedures regarding the process for 
environmental impact assessment of registered antenna structures pursuant to a remand from the United States Court 
of Appeals for the District of Columbia Circuit.  See Am. Bird Conservancy, Inc. v. FCC, 516 F.3d 1027 (D.C. Cir. 
2008); see also, Wireless Telecommunications Bureau Seeks Comment on Petition for Expedited Rulemaking and 
Other Relief Filed on Behalf of American Bird Conservancy, Defenders of Wildlife and National Audubon Society 
Regarding Commission Implementation of the National Environmental Policy Act, the Endangered Species Act, and 
the Migratory Bird Treaty Act, WT Docket Nos. 08-61, 03-187, Public Notice, DA 09-904 (WTB rel. Apr. 29, 
2009).
421 See Annual Assessment of the Status of Competition in the Market for the Delivery of Video Programming, MB 
Docket No. 07-269, Notice of Inquiry, 24 FCC Rcd 75 (2009); Supplemental Notice of Inquiry, 24 FCC Rcd 4401 
(2009).
422 See Implementation of the Cable Television Consumer Protection Act of 1992, Development of Competition and 
Diversity in Video Programming Distribution: Section 628(c)(5) of the Communications Act: Sunset of Exclusive 
Contract Prohibition; Review of the Commission’s Program Access Rules and Examination of Program Tying 
Arrangements, MB Docket Nos. 07-29, 07-198, Report and Order and Notice of Proposed Rulemaking, 22 FCC Rcd 
17791 (2007).
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APPENDIX A
List of Commenters
GN Docket No. 09-29
Commenter Abbreviation
Access Humboldt Access Humboldt
Alaska Communications Systems ACS
Allan J. Hastings Allan J. Hastings
AlphaStar International, Inc. Alphastar
American Cable Association ACA
American Farm Bureau Federation AFBF
American Homeowners Grassroots Alliance AHGA
American Library Association ALA
American Petroleum Institute API
Amateur Radio Relay League, Inc. ARRL
Art Menius Art Menius
AT&T Inc. AT&T
Benton Foundation Benton Foundation
Big Think Strategies Big Think Strategies
Brian Wanless Brian Wanless
Bhawana Sharma Bhawana Sharma
California Emerging Technology Fund CETF
Cisco Systems, Inc. Cisco
Common Sense Media, Center for Safe and Responsible 
Internet Use, Children Now, The Children’s Partnership, 
Enough is Enough, ETPRO/C3 Institute, Family Online Safety 
Institute, Internet Keep Safe Coalition, LOOKBOTHWAYS 
Inc., National Institute on Media and the Family, and Web 
Wise Kids
Common Sense Media et al.
City of Shafter, CA City of Shafter
Commonwealth of Massachusetts Department of 
Telecommunications and Cable
Massachusetts Commission
Commonwealth of Pennsylvania Pennsylvania
Connected Nation, Inc. Connected Nation
Consumer Federation of America and Consumers Union CFA/CU
CTIA—The Wireless Association® CTIA
David Mason (on behalf of Skylight Associates) David Mason
Dero Forslund Dero Forslund
DigitalBridge Communications Corp. DigitalBridge
Edyael Casaperalta Edyael Casaperalta
Embarq Embarq
Expand Networks, Inc. Expand Networks
Fergus County, Montana Fergus County, MT
FiberTower Corporation, Rural Telecommunications Group, 
Inc., COMPTEL, and Sprint Nextel Corporation 
FiberTower et al.
Fibertech Networks, LLC and Kentucky Data Link, Inc. Fibertech/KDL
Frank Odasz (on behalf of Lone Eagle Consulting) Frank Odasz
REPORT ON A RURAL BROADBAND STRATEGY
73
General Communication, Inc. GCI
Halo Wireless Halo
Harris Corporation Harris 
HierComm, Inc. HierComm
iClick2Media, Inc. iClick2Media
Independent Telephone & Telecommunications Alliance ITTA
Iowa Telecommunications Services, Inc. Iowa Telecom
Jay April Jay April
Jim Miller Jim Miller
Joseph Schroeder Joseph Schroeder
Joyce Hospodar Joyce Hospodar
Kodiak-Kenai Cable Company, LLC KKCC
Link Shadley (on behalf of representatives and broadband 
advocates in North Central Oregon)
Link Shadley
Liz McGeachy Liz McGeachy
M2Z Networks, Inc. M2Z
Main Street Broadband LLC Main Street Broadband
Mark Bayliss (on behalf of Visual Link Internet) Mark Bayliss
Mary Wildfire Mary Wildfire
Michigan Public Service Commission Michigan Commission
Microsoft Corporation Microsoft
Mimi Pickering Mimi Pickering
Miriam Lederer Miriam Lederer
Minority Media and Telecommunications Council MMTC
MSS/ATC Coalition MSS/ATC Coalition
National Association of State Utility Consumer Advocates NASUCA
National Association of Telecommunications Officers and 
Advisors and the National Association of Counties
NATOA/NACo
National Association of Tower Erectors NATE
National Cable & Telecommunications Association NCTA
National Exchange Carrier Association, Inc. NECA
National Rural Electric Cooperative Association NRECA
National Rural Telecommunications Cooperative NRTC
National Telecommunications Cooperative Association NTCA
Nebraska Public Service Commission Nebraska Commission
New America Foundation New America Foundation
New Mexico Media Literacy Project NMMLP
New York State Office for Technology and the New York 
Public Service Commission
New York Commission
Nicholas John Slater Nicholas Slater
Nickolaus E. Leggett Nickolaus E. Leggett
Office of Advocacy, U. S. Small Business Administration SBA
Open Range Communications Inc. Open Range 
Organization for the Promotion and Advancement of Small 
Telecommunications Companies
OPASTCO
PCIA—The Wireless Infrastructure Association and The DAS 
Forum
PCIA/DAS
Personal Broadband Industry Association PBIA
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PocketiNet Communications PocketiNet
QUALCOMM Incorporated Qualcomm
Regulatory Commission of Alaska Alaska Commission 
Rob Glidden Rob Glidden
Rural Broadband Policy Group (Center for Rural Strategies, 
Appalshop, Access Humboldt, the Benton Foundation, the 
California Center for Rural Policy, and the Main Street Project)
Rural Broadband Policy Group
Rural Fiber Alliance RFA
Rural Iowa Independent Telephone Association RIITA
Rural Telecommunications Alliance RTA
Rural Telecommunications Group, Inc. RTG
Sacred Wind Communications, Inc. Sacred Wind
Sasha Costanza Chock Sasha Costanza-Chock
Satellite Industry Association SIA
Shel Anderson Shel Anderson
Source Communications of America, LLC Source Communications
Sprint Nextel Corporation Sprint Nextel
Standing Rock Sioux Tribe Standing Rock Sioux Tribe
State Members of the Federal-State Joint Board on Universal 
Service
Joint Board 
State Members of the Federal-State Joint Conference on 
Advanced Services
Joint Conference
Stayton Cooperative Telephone Company SCTC
Stephouse Networks Stephouse Networks
Telecommunications Industry Association TIA
Texas Statewide Telephone Cooperative, Inc. TSTCI
Tim Marema Tim Marema
Todd M. Jagger Todd Jagger
Todd Starling Todd Starling
Tom Jacobson Tom Jacobson
TracFone Wireless, Inc. TracFone
United States Postal Service USPS
United States Telecom Association USTA
Universal Service for America Coalition USA Coalition
Valerie Fast Horse (on behalf of Coeur d’Alene Tribe) Valerie Fast Horse
Verizon Communications Inc. and Verizon Wireless Verizon
Vickie Edwards (on behalf of InLine) Vickie Edwards
WildBlue Communications, Inc. and Intelsat Corporation WildBlue/Intelsat
Windstream Communications, Inc. Windstream
Wireless Internet Service Providers Association WISPA
XO Communications, LLC and Nextlink Wireless, Inc. XO/Nextlink
Yaana Technologies, LLC Yaana
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APPENDIX B
Selected Federal Programs Addressing Broadband Access
Federal Agency Description of Program
Federal Communications 
Commission
Manages several universal service fund programs that assist in broadband 
deployment:
1. Rural Health Care Program—funds broadband access for rural health 
care centers;
2. E-rate Program—provides grants for broadband to schools and 
libraries;
3. High Cost Program—does not explicitly fund broadband 
infrastructure, but subsidies can be used to upgrade existing telephone 
networks.
Department of Agriculture 
(USDA)
Rural Utilities Service (RUS)
Administers several programs addressing broadband including: 
1. Rural Telephone Loan and Loan Guarantee Program—provides loans 
and loan guarantees for telephone voice service, but requires funding 
recipients to provide DSL broadband at a rate of at least 1 Mbps; 
2. Distance Learning and Telemedicine Loans and Grants—provides 
seed money for loans and grants to rural community facilities (e.g., 
schools, libraries, hospitals) for advanced telecommunications systems 
that can provide health care and educational benefits to rural areas; 
3. Rural Broadband Access Loan and Loan Guarantee Program—
provides loans and loan guarantees for facilities and equipment 
providing broadband service in rural communities; 
4. Community Connect Broadband Grants—provides grants to applicants 
proposing to provide broadband service on a “community-oriented 
connectivity” basis to rural communities of fewer than 20,000 
inhabitants.
Department of Commerce
National Telecommunications 
Information Administration 
(NTIA)
Manages several programs and projects addressing broadband including:
1. Broadband Technology Opportunities Program—provides grants to 
service providers to increase access and adoption of broadband 
infrastructure and services;
2. Public Telecommunications Facilities Program—provides grants for 
planning, acquiring, installing and modernizing public 
telecommunications facilities through its;
3. Public Safety Interoperable Communications Grant Program—
provides funding to states and territories to enable and enhance public 
safety agencies’ interoperable communications capabilities;
4. Coordinating federal rights of way for telecommunications 
infrastructure projects with other agencies.
Economic Development 
Administration
Investments for Public Works and Economic Development Facilities—
provides grants to economically distressed areas for construction of public 
facilities and infrastructure, including broadband deployment and other types 
of telecommunications enabling projects.
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Department of Education
Office of Elementary and 
Secondary Education
Education Technology State Grants—provides grants to state education 
agencies for development of information technology to improve teaching and 
learning in schools.
Office of Assistant Secretary for 
Educational Research and 
Improvement
Ready to Teach Program—provides grants to carry out a national 
telecommunication-based program to improve the teaching in core curriculum 
areas.
Office of Special Education and 
Rehabilitative Services
Technology and Media Services for Individuals with Disabilities—supports the 
development and application of technology and education media activities for 
disabled children and adults.
Department of Energy Required to spend $4.5 billion to modernize the electric grid, which will likely 
include some broadband for Smart Grid.  See Recovery Act, Pub. L. No. 111-
5,123 Stat. 115, 133 (2009)
Environmental Protection Agency Exchange Network Grant Program—provides funding to states, territories, 
and federally recognized Indian Tribes to support the development of an 
Environmental Information Exchange Network, including broadband 
infrastructure.
Department of Health and Human 
Services
Health Resources and Services 
Administration
Administers several programs addressing broadband including:
1. Telehealth Network Grant Program—provides grants to develop 
sustainable telehealth programs and networks in rural and frontier 
areas, and in medically unserved areas and populations.  Grantees are 
required to apply for the Commission’s universal service funds; 
2. Telehealth Resource Center Grant Program—provides grant funds for 
regional centers to assist health care providers in the development of 
their Telehealth services, including decisions regarding the purchase 
of advanced telecommunications services;
3. Licensure Portability Grant Program—provides grant support for 
state professional licensing boards to carry out programs under which 
the boards of various states cooperate to develop and implement State 
policies to reduce the statutory and regulatory barriers to telemedicine.
National Library of Medicine, 
National Institute of Health
Medical Library Assistance Program—provides funds to strengthen library 
and information services, facilitate access to and delivery of health science 
information, and plan and develop advanced information networks. 
Department of Housing and Urban 
Development
Administers several programs addressing broadband including:
1. Community Development Block Grants— provides loans to deploy 
broadband networks and make them affordable for low to moderate 
income residents;
2. Indian Community Development Grants—funds broadband technology 
infrastructure projects.
Department of the Treasury Distributes grants for Smart Grid investments, which includes a broadband 
component.  See Recovery Act, Pub. L. No. 111-5, § 405, 123 Stat. 115, 144 
(2009)
Department of Transportation
Research and Innovative 
Technology Administration 
Next Generation (NG9-1-1) Initiative—a Research and Development project 
that will define a system architecture for emergency communication that 
enables the transmission of voice, data or video from different types of 
communication devices to Public Safety Answering Points (PSAPs) and onto 
emergency responder networks. The NG9-1-1 Initiative will also develop a 
transition plan that considers responsibilities, costs, schedule and benefits for 
deploying this architecture.
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77
National Foundation on the Arts 
and the Humanities
Institute of Museum and Library 
Services, Office of Library 
Services
Administers several programs addressing broadband including:
1. State Library Program– provides grants to state library administrative 
agencies for promotion of library services that provide all users access 
to information through State, regional, and international electronic 
networks;
2. Native American and Native Hawaiian Library Services—supports 
library services that include linking libraries to electronic networks.
Appalachian Regional Commission Provides project grants for Appalachian communities to support the physical 
infrastructure necessary for economic development and improved quality of 
life
Delta Regional Authority Provides project grants to support self-sustaining economic development of 
eight states in the Mississippi Delta Region
Denali Commission Provides grants through a federal and state partnership designed to provide 
critical infrastructure and utilities throughout Alaska, particularly in distressed 
communities.
* This non-comprehensive list was prepared using information provided in Congressional Research Service, 
Broadband Internet Access and the Digital Divide:  Federal Assistance Programs, RL30719, Tables 1 and 2 (Mar. 
19, 2009), available at http://assets.opencrs.com/rpts/RL30719_20090319.pdf.
** For additional information on federal agency broadband programs, see Interagency Questionnaire Responses, 
attached to Letter from Kathy D. Smith, Chief Counsel, NTIA, to Marlene H. Dortch, Secretary, FCC, GN Docket 
No. 09-29 (filed May 18, 2009).