Federal Communications Commission DA 11-732
Before the
Federal Communications Commission
Washington, D.C. 20554
In the Matter of
International Comparison Requirements Pursuant 
to the Broadband Data Improvement Act
International Broadband Data Report
)
)
)
)
)
)
)
)
)
IB Docket No. 10-171
SECOND REPORT
Adopted: May 20, 2011 Released: May 20, 2011 
By the Chief, International Bureau:
I. INTRODUCTION
1. This second International Broadband Data Report (IBDR or Report) presents comparative 
data on the extent of international broadband service capability, based on the best data sources available 
to the Commission at this time.1 Our analysis of this data suggests a positive correlation between 
broadband adoption and income, population size, and population density.  These factors help explain the 
United States’ rates of broadband adoption compared to other Organization for Economic Co-operation 
and Development (OECD) member countries.  Based on OECD data, the United States ranks ninth for 
mobile broadband adoption on a per capita basis,2 and 12th for fixed (e.g., DSL or cable) broadband on a 
per household basis.3 U.S. fixed broadband adoption lags behind such countries as South Korea, the 
United Kingdom, Canada, and Germany, but exceeds adoption rates in Japan and the EU average.4 This 
Report also compares data on average actual download speeds reported by a sample of consumers in a 
number of U.S. and foreign cities and finds that some large European and Asian cities exhibit a 
significant edge over comparable U.S. cities in reported download speeds, though reported speeds for 
some other international cities are roughly comparable to speeds in many U.S. cities.  We note that 
  
1 See 47 U.S.C. § 1303(b).  In this report we use the term “broadband” synonymously with “advanced 
telecommunications capability.”  See generally 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 of 1996, as Amended by the 
Broadband Data Improvement Act; A National Broadband Plan for Our Future, GN Docket Nos. 09-137 and 09-51, 
Seventh Broadband Deployment Report, FCC 11-78 (2011) (Seventh 706 Report).
2 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011), available at
http://www.oecd.org/dataoecd/21/35/39574709.xls.
3 OECD Broadband Portal, Figure 2a. Households with broadband access, 2009 or latest available year (accessed 
Feb. 11, 2011), available at http://www.oecd.org/dataoecd/20/59/39574039.xls.  A fixed broadband connection is 
likely to be shared within a household whereas multiple people within a single household may each have their own 
mobile broadband connection, thus accounting for differing standards of measurement (per capita for mobile 
broadband versus household for fixed broadband access).  
4 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011), available at
http://www.oecd.org/dataoecd/20/59/39574039.xls.
Federal Communications Commission DA 11-732
2
available data sources on international broadband are incomplete and generally challenging to compare 
because of significant gaps and variations in data collection methodologies across countries.  As a result, 
we are limited in the conclusions we can draw from the data.  In this Report we outline steps the 
Commission is taking to obtain better, more globally standardized broadband data in order to help the 
Commission better meet its statutory responsibilities.
II. BACKGROUND
A. Requirements of the BDIA
2. The Broadband Data Improvement Act (BDIA) requires the Commission to include in its 
annual broadband progress report “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.”5 The BDIA directs the Commission to assess 
broadband capability in international communities comparable to U.S. communities with respect to 
population size, population density, topography, and demographic profile.6 The Commission is also 
directed to include “a geographically diverse selection of countries” and “communities including the 
capital cities of such countries.”7 The Commission must “identify relevant similarities and differences in 
each community, including their market structures, the number of competitors, the number of facilities-
based providers, the types of technologies deployed by such providers, the applications and services those 
technologies enable, the regulatory model under which broadband service capability is provided, the types 
of applications and services used, business and residential use of such services, and other media available 
to consumers.”8
B. Data Presented in the 2010 IBDR
3. The Commission published its first report under the BDIA last year.  In that report we 
presented broadband data gathered from public sources,9 and reviewed the record developed for the 
Commission’s 2010 broadband progress report10 and the National Broadband Plan, including the report 
prepared by the Berkman Center for Internet and Society at Harvard University.11 Recognizing that no 
single existing public data source would satisfy all of the requirements of the BDIA, Commission staff 
compiled advertised broadband prices from the websites of broadband providers in 34 countries; OECD 
  
5 47 U.S.C. § 1303(b)(1).
6 Id. at § 1303(b)(2).
7 Id.
8 47 U.S.C. § 1303(b)(3).
9 International Comparison Requirements Pursuant to the Broadband Data Improvement Act International 
Broadband Data Report, GN Docket No. 09-47, First Report, 25 FCC Rcd 11963, Appendices B-E (2010) (2010 
IBDR).
10 See 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 of 1996, as Amended by the Broadband Data Improvement Act; A National Broadband Plan 
for Our Future, GN Docket Nos. 09-137 and 09-51, Sixth Broadband Deployment Report, 25 FCC Rcd 9556 (2010) 
(Sixth Broadband Deployment Report).
11 The Commission conducted two National Broadband Plan public workshops focused specifically on international 
issues.  See http://broadband.gov/ws_int_lessons.html and http://broadband.gov/ws_global_bb.html; see also 
Berkman Center for Internet and Society, Harvard University, Next Generation Connectivity: A Review of 
Broadband Internet Transitions and Policy from Around the World (2010), available at
http://cyber.law.harvard.edu/publications/2010/Next_Generation_Connectivity.  (Berkman Report). 
Federal Communications Commission DA 11-732
3
community-level demographic data for 36 countries; broadband adoption data from the European 
Commission’s regional database; and other data from national statistical agencies and communications 
regulators.12 Staff also compiled information about broadband policies and the extent of competition in 
the broadband market in 37 countries. 
C. Efforts To Improve Data Collection
4. We learned in preparation of the 2010 IBDR that many nations do not collect the data 
required to achieve fully the international comparisons required by the BDIA.  Even when data is 
available, often it is not available in standardized formats that can be easily compared, making it 
challenging to present the data in a way that is manageable or useful.  Therefore, soon after the release of 
the first IBDR, the International Bureau sought comment on how to improve its data collection and 
analysis in order to illuminate similarities and differences between U.S. broadband technologies, markets, 
and policies and those in comparable foreign communities.13  We received comments from broadband 
providers, consumer advocacy groups, and other interested members of the public.14 Many commenters 
identified shortcomings in the data collected for the 2010 IBDR, and many offered high-level proposals 
for improving the data collection.15  
5. Since the first IBDR we have obtained better data, including more detailed and recent 
national-level price data, actual speed data, mobile and fixed broadband adoption data, and community-
level demographic data. To improve and harmonize broadband data collection globally, the Commission, 
together with the State Department and the Department of Commerce, has also initiated through the 
OECD an effort to collect more reliable and granular international data on broadband deployment and 
adoption.  We discuss this effort in more detail in Section III.D below.  
D. Data and Analysis for the 2011 IBDR
6. In order to obtain global broadband price data, Commission staff again gathered advertised 
prices from the websites of broadband providers in dozens of countries.16 Staff also gathered community-
level broadband adoption, demographic, income, and education data from OECD collections, the 
European Commission’s regional database,17 and from national government agencies.18 Finally, staff 
gathered information about the extent of competition in broadband markets, government policies, and 
mobile broadband adoption in various countries around the world.19 We discuss the data that we collected 
in more detail below.
  
12 2010 IBDR, 25 FCC Rcd 11963, at Appendices C and D.
13 Comment Sought on Improving International Comparisons Required by the Broadband Data Improvement Act, IB 
Docket No. 10-171, Public Notice, 25 FCC Rcd 12426 (2010) (BDIA Public Notice). 
14 See Appendix A infra.
15 Suggestions included directly coordinating with foreign regulatory counterparts to obtain data and contracting 
with third parties to purchase or otherwise acquire data.  See Free Press Comments at 2-4; The New America 
Foundation and the Donald McGannon Communication Research Center, Fordham University (NAF) Comments at 
5-6.
16 See Appendix C infra.  With a few exceptions (e.g., New Zealand’s TelstraClear, on whose website regional 
availability of some services was clearly indicated), service plans are presumed to be available throughout the 
country where offered. 
17 Eurostat is the Statistical Office of the European Communities, located in Luxembourg.  Its task is to provide the 
European Union with statistics that enable comparisons between countries and regions.  See
http://epp.eurostat.ec.europa.eu/portal/page/portal/region_cities/introduction.
18 See Appendix D infra.
19 See Appendix E infra.
Federal Communications Commission DA 11-732
4
7. For the first time, in this report we present econometric analyses of how population size, 
population density, income, and education affect broadband adoption at a sub-national or “community” 
level.20 The raw data we gathered on broadband service plans and pricing in 38 countries (including the 
United States) are presented in Appendix C.  While preparing the IBDR, the International Bureau staff 
researched and gathered information regarding foreign government programs to promote broadband 
supply.  An International Bureau Background Research Paper presents some of the qualitative data 
gathered on government initiatives in Canada and Australia.21
III. DISCUSSION
8. In preparing the IBDR, Commission staff have reviewed a number of data sources and 
analyzed various rankings that compare broadband service capability in the United States and other 
countries.22 The best currently available data set comparing the United States to other countries appears 
to be from the OECD, which collects data on various broadband deployment, adoption, and usage metrics 
and publishes rankings of its member countries.23 The OECD’s deployment data ranks countries based on 
particular technologies, rather than overall coverage.  The U.S. ranking in these surveys ranges from 27th 
out of 30 in DSL coverage24 to 1st out of 28 in cable modem coverage.25 The U.S. ranks 6th out of 16 in 
fiber-to-the-home (FTTH) coverage26 and 8th out of 29 in 3G mobile wireless coverage.27 As the OECD 
notes, however, its coverage rankings are compiled using metrics that may not be fully comparable across 
countries, thus limiting their utility.28 For example, deployment is measured using different indicators 
and different reference dates across various countries.29  
9. As for broadband adoption, the OECD’s data ranks member countries on the basis of both 
fixed and mobile broadband adoption.  For fixed broadband, the U.S. ranks 12th out of 33 countries when 
measured on a percentage-of-households basis,30 and 14th out of 31 countries when measured using the 
number of broadband subscriptions per capita.31 For mobile broadband, the OECD’s data ranks the U.S. 
9th out of 29 countries on a per capita basis.32 As with the deployment rankings, the OECD’s adoption 
  
20 See Sections III.B infra.
21 See International Bureau Background Research Paper, Broadband Supply Case Studies: Canada and Australia 
(forthcoming).  This paper will be available at http://www.fcc.gov/encyclopedia/international-bureau-background-
research-papers.
22 Differences between which countries are included for each dataset in this IBDR are primarily due to data 
availability.  See Appendix B infra.
23 OECD Broadband Portal, available at
http://www.oecd.org/document/36/0,3746,en_2649_33703_38690102_1_1_1_1,00.html.
24 OECD Broadband Portal, Table 3d (2009 or latest year).
25 OECD Broadband Portal, Table 3e (2008 or latest year).
26 OECD Broadband Portal, Table 3f (2009 or latest year).
27 OECD Broadband Portal, Table 3g (2009 or latest year).
28 OECD Broadband Portal, 
http://www.oecd.org/document/46/0,3746,en_2649_37441_39575598_1_1_1_37441,00.html.
29 See id. and OECD Broadband Portal, 2a. Households with broadband access (1), 2000-09, available at
http://www.oecd.org/dataoecd/20/59/39574039.xls. 
30 OECD Broadband Portal, Table 2a (2009 or latest year).
31 OECD Broadband Portal, Table 1d(3) (June 2010).
32 OECD Broadband Portal, Table 1d(2) (June 2010).
Federal Communications Commission DA 11-732
5
rankings are compiled using metrics that vary across member states and may not be fully comparable.33  
Further, where a particular country falls in these rankings may be influenced by population density and 
dispersion, income, and other factors.  As discussed throughout this IBDR, and particularly in Section D 
below, we recognize the need for better data on these issues and have initiated efforts to improve 
available data, both domestically and internationally.  In the meantime, we have continued to compile and 
analyze the international data that is available.
A. Elements of “Broadband Service Capability”
10. The BDIA requires that the Commission gather information concerning the “the extent of 
broadband service capability (including data transmission speeds and price for broadband service 
capability)” in foreign communities.34 The term “broadband service capability” is not explicitly defined 
in the BDIA or its legislative history.  But based on the surrounding language in the statute—including 
the specific mandate to consider both transmission speeds and pricing35—we understand the 
responsibility of collecting information on “the extent of broadband service capability” to require an 
inquiry into the availability of broadband service, which in turn includes factors such as available 
advertised and/or actual speeds, service quality, and price and affordability to broadband customers.36 We 
consider these characteristics here to the extent currently available data allow.37  
1. Advertised and Actual Speed
11. The BDIA requires the Commission to collect information on “data transmission speeds” for 
broadband services.  Speed is a quantitative description of the information transfer rate of a broadband 
Internet access service, and Commission staff have defined speed as “data signaling rate,” as expressed in 
bits per second.38 One commenter argues that we should obtain data on actual broadband speeds, and 
asserts that reliance on advertised speeds “significantly overstates broadband performance in a large 
number of foreign countries relative to the United States.”39 Another commenter proposes that we assess 
“[p]oint to point transmission speed,” because such a measurement takes into account “congestion on the 
provider’s backbone.”40 For this IBDR, we have collected both advertised and actual speed data.
  
33 See OECD Broadband Portal, 
http://www.oecd.org/document/46/0,3746,en_2649_37441_39575598_1_1_1_37441,00.html (noting that statistical 
broadband country comparisons “should be undertaken with caution” due to variations in “market, regulatory, and 
geographic factors”); OECD Broadband Portal, Table 2a Households with broadband access (1), 2000-09, available 
at http://www.oecd.org/dataoecd/20/59/39574039.xls (noting that, for example, the household fixed broadband data 
for South Korea includes mobile broadband data).
34 47 U.S.C. § 1303(b)(1).
35 Id.
36 Cf. Seventh 706 Report, FCC 11-78, at paras. 18-20.
37 2010 IBDR, 25 FCC Rcd at 11965.  We note that one commenter suggests that we examine “[m]easures of service 
quality” such as jitter or latency.  Mark Kennet Comments at 1.  Though this could be valuable data for international 
comparisons, our research shows that such data is not available for most countries.
38 See Consumer and Governmental Affairs Bureau Seeks Comment on “Need for Speed” Information for 
Consumers of Broadband Services, Public Notice, DA 11-661, n. 1 (April 11, 2011).
39 AT&T Comments at 4.  See also Prof. Rob Frieden Comments at 3 (the IBDR should “[u]se a credible average of 
delivered broadband speeds rather than advertised speeds” as broadband performance is affected by a number of 
factors, and advertised speeds “typically contain a disclaimer stating that actual performance may vary”); and AT&T 
Comments at 5 (analysis of speed measurement data should account for whether speed is measured during peak or 
off-peak times, the quality of internal wiring, the quality of hardware and software of the consumer, and the distance 
of the consumer from the service provider’s facilities).  
40 Mark Kennet Comments at 2.
Federal Communications Commission DA 11-732
6
12. We agree that it could prove valuable to collect more granular speed data, such as on speed 
variations during peak and non-peak times, and on the effect of quality of wiring, hardware, and software 
on transmission speed.  The Commission’s Broadband Speed Test is one example of how more granular 
speed data can be collected directly and voluntarily from users.41 Other countries are developing their 
own speed data collections, and there are some commercial data sources as well.42 These data collections, 
however, do not capture all of the data identified by commenters (i.e, speed variations during peak and 
non-peak times, and the effect of in-home networks, hardware, and software on speed).  Currently, that 
data does not appear to be readily available.
13. We have continued to collect information on advertised speeds offered in foreign 
communities.43 These advertised speeds do not always align with Form 477 speed categories, making 
apples-to-apples comparisons of advertised speeds in other countries to the speed benchmarks for U.S. 
broadband used by the Commission challenging.44 Advertised speeds typically feature “up to” download 
and upload speeds.45
14. As noted, the Commission is presently using a consumer-driven Broadband Speed Test to 
evaluate broadband speeds.  One of the entities providing this service is Ookla, which offers its free speed 
test tools around the world and makes its data on actual speeds available on its website.46 In an effort to 
give some sense of the actual speeds foreign consumers experience, we provide in Appendix F the 
average actual download speeds determined by Ookla in 15 foreign capital cities, and compare those 
speeds to Ookla-determined speeds in 15 U.S. cities with comparable populations.  
15. The data suggest that mean actual download speeds in some European and Asian cities are 
substantially higher than in comparably sized U.S. cities (e.g., 24.8 megabits per second (Mbps) in Paris 
and 35.8 Mbps in Seoul versus 6.9 Mbps in San Francisco, 9.4 Mbps in Chicago, and 9.9 Mbps in 
Phoenix).  Some of the U.S. cities in our sample have higher speeds than some foreign cities (e.g., 
Chicago with 9.39 Mbps versus Rome with 5.6 Mbps).  Though Ookla’s speed test gives an indication of 
individual consumers’ actual broadband speeds, a number of factors may explain the different average 
speeds reported for different cities.47 For example, the number of tests performed by users of different 
  
41 See FCC Launches Broadband Consumer Tools: Agency Introduces First Mobile App, Consumer Broadband 
Test, and Broadband Dead Zone Report, News Release (March 11, 2010).  See also Consumer Broadband Test 
website, available at http://www.broadband.gov/qualitytest/about/#qualitytest.
42 In the U.K. for example, the regulator Ofcom has partnered with speed test website SamKnows to report on U.K. 
broadband speeds.  See http://stakeholders.ofcom.org.uk/market-data-research/telecoms-research/broadband-
speeds/speeds-nov-dec-2010/.  Other entities that make their speed test data publicly available include Ookla 
(www.netindex.com) and M-Lab (http://www.measurementlab.net/data). 
43 See Appendix C.
44 The Commission uses its Form 477 to collect subscribership data on the offered speeds of broadband Internet 
access service in the United States.  Form 477 requires providers to report broadband service offerings using 
specified speed tiers.  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 (VoIP) Subscribership, WC Docket No. 07-38, 
Report and Order and Further Notice of Proposed Rulemaking, 23 FCC Rcd 9691 (2008); Order on Reconsideration, 
23 FCC Rcd 9800 (2008) (Form 477 Order). In the Sixth Broadband Deployment Report, the Commission 
concluded that a “broadband” service is one that offers actual download speeds of at least 4 Mbps and actual upload 
speeds of at least 1 Mbps.  Sixth Broadband Deployment Report, 25 FCC Rcd at 9559-60, para. 5. 
45 Different broadband providers in different parts of the world may not use the same methodology for determining 
their advertised speeds.
46 See http://www.netindex.com.
47 We note that different speed test platforms are likely to indicate different speeds for the same individual, just as
repeated speed tests from the same platform may vary over time as network conditions fluctuate.  For additional 
(continued....)
Federal Communications Commission DA 11-732
7
kinds of broadband Internet access technologies (e.g., DSL, cable, wireless) may skew the mean speed 
that Ookla reports for a given region.
2. Price
16. The BDIA directs the Commission to collect information regarding the price of broadband 
service capability.48 A number of international organizations routinely collect and compare broadband 
prices across countries.49 OECD’s most recent broadband price data ranks the United States in the middle 
of the pack among OECD countries in terms of median monthly broadband prices.50 A recently published 
ranking of broadband prices for 2009 by the International Telecommunication Union places the United 
States among the least expensive countries for fixed broadband services.51
17. Few attempts have been made to rigorously and systematically compare broadband pricing 
data across countries.  One recent study used a hedonic regression technique to estimate the average 
broadband price difference between broadband plans offered in OECD countries.52 Results from this 
hedonic model suggest that U.S. stand-alone residential broadband prices are generally “in the middle of 
prices in OECD countries,” after accounting for speed, terms of service, data caps, and service delivery 
technology.53  Similarly, prices in the United States for business stand-alone broadband services were 
fourteenth out of 30 among the OECD countries.54 A paper by the Berkman Center for Internet and 
Society at Harvard University found prices for U.S. broadband with download speeds of around 768 kbps 
to be “very good” by international standards.55 However, as download speeds increase, the paper found 
that U.S. prices become more expensive than most other OECD countries.56  
  
(...continued from previous page)
information, see Federal Communications Commission Consumer Broadband Test website, available at
http://www.broadband.gov/qualitytest/about/#qualitytest.
48 See 47 U.S.C. § 1303(b)(1).
49 See, e.g., OECD Broadband Portal, available at
http://www.oecd.org/document/36/0,3746,en_2649_33703_38690102_1_1_1_1,00.html.
50 See, OECD Broadband Portal, Tables 4c through 4h, available at  
http://www.oecd.org/dataoecd/22/42/39574970.xls.  
51 International Telecommunication Union, Measuring the Information Society, Table 4.9, page, 72, Geneva, 2010.  
52 A hedonic regression model estimates values for individual characteristics of a product or service.  Hedonic 
models are based on the idea that products or services can be viewed as a bundle of characteristics that are valued by 
both buyers and sellers.  Price represents the value of characteristics of the products or services.  See, e.g., Jack E. 
Triplett, Economic Interpretation of Hedonic Methods, Survey of Current Business, Bureau of Economic Analysis, 
Department of Commerce, January 1986, 36-40; see also OECD Glossary of Statistical Terms, available at
http://stats.oecd.org/glossary/detail.asp?ID=1225.
53 Scott Wallsten and James L. Riso, Residential and Business Broadband Prices Part 2: International Comparisons, 
Technology Policy Institute, December 2010, available at
http://techpolicyinstitute.org/files/residential%20and%20business%20broadband%20prices%20pt2.pdf.    
54 Id. at 6.
55 Berkman Center for Internet and Society, Memorandum Describing Intended Updates to the Final Report, 
Harvard University, available at 
http://cyber.law.harvard.edu/sites/cyber.law.harvard.edu/files/Next_Generation_Connectivity_Update-Memo_Lit-
Review_Dec21.pdf at 2.  (Berkman Report Update). 
56 Berkman Center for Internet and Society, Memorandum Describing Intended Updates to the Final Report, 
Harvard University, available at 
http://cyber.law.harvard.edu/sites/cyber.law.harvard.edu/files/Next_Generation_Connectivity_Update-Memo_Lit-
Review_Dec21.pdf at 2 (“U.S. prices are very good by international standards at the very low speeds, around 
768kbps, but become more expensive at contemporary broadband speeds above 1.5Mbps.  By the time we reach 
(continued....)
Federal Communications Commission DA 11-732
8
18. We recognize that the complexity in the pricing of residential broadband services complicates 
any empirical analysis.  The features and quality of broadband service vary across countries and 
providers, service is often offered under a multi-part pricing scheme,57 and broadband is frequently 
purchased as part of a bundle of services.58 Price comparisons are also difficult because different 
providers frequently adopt different price structures for broadband Internet access service.  For example, 
it is not simple to compare an offering of unlimited broadband service with a maximum download speed 
of 5 Mbps for an up-front fee, a flat monthly recurring fee, and a two-year contract with an early 
termination fee, to a 5 Mbps offering from another provider that charges a different up-front fee, monthly 
recurring fees that vary with usage, and the ability to cancel service at any point with no penalty or 
termination fee.  When broadband is bundled with other services, such as telephone or video service, it 
becomes even more complicated to identify the price of the broadband service.  Promotional offers further 
complicate comparisons.  We observe that broadband offerings around the world vary with respect to 
download and upload speeds; type of technology used to deliver broadband services; limitations on use, 
including limits on upload and download volumes; determinations of use limits (download traffic vs. a 
combination of upload and download traffic vs. download traffic at peak/non-peak usage times); and 
consequences of exceeding use limits (e.g., access speed reductions, surcharges, service cut-off).    
19. In pursuit of a more comprehensive dataset to enable price comparisons, Commission staff 
have compiled a dataset of publicly available advertised pricing information for residential broadband 
services in 38 countries (including the United States), most of which are members of the OECD.  Our 
research this year generated a much richer dataset than the one included in the first IBDR.  In Appendix C 
we list 1554 plans for 38 countries, including 162 U.S. plans, whereas in the 2010 IBDR we provided data 
on 711 plans for 34 countries, and no plans for the United States.  Staff collected this pricing information 
between October 2010 and April 2011.59 The dataset includes a range of residential broadband offers by 
all major Internet service providers for these 38 countries.60 The countries in the dataset represent a broad 
  
(...continued from previous page)
offers for speeds that are high or very high (above 10Mbps), U.S. broadband prices are substantially higher than 
elsewhere . . . .”). 
57 For example, broadband service price often includes an installation charge, a monthly service fee, and possibly 
equipment rental charges.
58 See, e.g., Scott Wallsten, Understanding International Broadband Comparisons: 2009 Update (Technology Policy 
Institute Paper, June 2009), available at http://ssrn.com/abstract=1434570 (discussing difficulties in comparing 
broadband prices due to differing characteristics of broadband services and the tendency of consumers to purchase 
services in bundles).
59 See Appendix C infra.  We assembled the data by visiting the websites of broadband providers serving the 
countries and communities in our sample.  In order to mitigate the effects of variations in a particular broadband 
provider’s prices over time, we visited the websites of providers and downloaded the relevant information at one 
specific point in time.  Thus, some provider data was collected in October 2010 while other provider data might 
have been collected in April 2011, but our sample does not reflect pricing changes that any individual provider may 
have implemented over the October-to-April period.  Our price data reflects only what a given provider was offering 
at the specific point in time we accessed its website.  In certain cases (e.g., South Korea), we supplemented the 
information obtained from providers with information obtained from the country’s diplomatic mission.  For some 
countries in the dataset, we were able to determine whether the offerings were on a national or community level.  
Many advertised offerings were national in scope, though some were listed for particular cities or on an “as 
available” basis.  Because we obtained the information for the dataset at specific points in time, we were not able to 
determine which offers are regularly available and which are significant departures from regularly available offers.  
Therefore, while ideally we would include only widely and regularly available offerings, it is possible we captured 
information on some non-standard offers such as special, promotional, or other limited offers.
60 For each of the European countries in the dataset, we obtained a list of incumbent operators and their competitors 
from the European Commission’s 2010 report on broadband Internet access prices.  See Broadband Internet Access 
Cost (BIAC), Final Report, prepared for the European Commission, Information Society and Media Directorate-
General, by Van Dijk Management Consultants, January 2010, Brussels, Belgium, available at
(continued....)
Federal Communications Commission DA 11-732
9
range of broadband markets, including countries of various sizes and population densities from every 
continent except Africa and Antarctica.  The economies of the countries we examined range from 
emerging economies such as former Soviet republics and Mexico, to mature economies such as Germany 
and Japan.  In Appendix C, we have converted all prices to U.S. dollars based on both purchasing power 
parity (PPP)61 and current exchange rates.62 Converting prices through both methods enables more 
meaningful comparisons.63  
20. The dataset includes information on advertised monthly recurring charges and nonrecurring 
charges such as connection and modem fees, to allow for a more complete pricing analysis of each 
broadband Internet service offering.64 The dataset includes not only advertised price but also promotional 
discounts such as those associated with online sign-up and longer service contracts.  Data on advertised 
  
(...continued from previous page)
http://ec.europa.eu/information_society/eeurope/i2010/docs/benchmarking/eda/biac_2009.pdf.  For non-European 
countries in the dataset, we developed our list of incumbent operators and their competitors through staff research.
61 PPPs are currency conversion rates that convert to a common currency and equalize the purchasing power of 
different currencies.  In other words, they eliminate the differences in price levels between countries in the process 
of conversion.  PPPs show the ratio of the prices in national currencies of the same good or service in different 
countries.  For example, if the price of a hamburger in France is €2.84 and the price of an equivalent hamburger in 
the United States is $2.20, then the PPP for a hamburger between France and the United States is €2.84 to $2.20, or 
€1.29 to the dollar.  This means that for every dollar spent on hamburgers in the United States, €1.29 would have to 
be spent in France to obtain the same quantity and quality of hamburgers.  See OECD, Statistics Directorate 
webpage, available at http://oecd.org/department/0,3355,en_2649_34357_1_1_1_1_1,00.html and FAQ webpage, 
available at http://oecd.org/faq/0,3433,en_2649_34357_1799281_1_1_1_1,00.html#1799063.  AT&T contends that 
since PPP does not measure the actual cost of broadband service but rather its cost relative to the cost of living, the 
use of PPP gives EU countries a 21-28 percent discount compared to the United States.  AT&T Comments at 8.  The 
PPP conversion is an accepted method of equalizing purchasing power in different countries, thereby enhancing 
comparative studies.  Tim Callen, PPP Versus the Market: Which Weight Matters?, Finance and Development, Vol. 
44, no. 1, March 2007, International Monetary Fund, available 
at http://www.imf.org/external/pubs/ft/fandd/2007/03/basics.htm. It accurately reflects the cost of a product or 
service relative to other items in a particular country and can allow a more valuable international comparison than 
merely comparing prices based on exchange rates in certain circumstances.  International exchange rates, unadjusted 
for purchasing power, are most relevant when goods and services are traded across international borders.  Generally, 
non-traded services or products are cheaper in less affluent countries than in more affluent countries because of 
lower wages and income to afford these services.  This can vary, though, depending on how much the service makes 
use of goods that are traded across international borders.  Failure to account for such differences may understate the 
cost of those services, relative to the economy, in less affluent countries.  Nonetheless, we have also included in 
Appendix C the data using current exchange rates to provide an additional perspective.  We believe that use of the 
exchange rates, unadjusted for purchasing power, provides a nominal measure of broadband service prices across 
countries, while the use of the PPP conversion factor not only converts the local currencies to a common currency 
but also measures value of broadband services at a uniform price level.  Id.
62 Exchange rates fluctuate on a daily basis.  The exchange rates and PPP conversion factors we used for each 
country are annual rates and factors for 2010 derived by the World Bank, 
http://data.worldbank.org/indicator/PA.NUS.FCRF.
63 Meaningful international PPP price comparisons are easier to achieve when the prices paid are for the same or 
similar service in each country.  Since broadband service varies in terms of upload and download speeds, non-
recurring charges, and promotional discounts, we have assembled data on various service attributes and associated 
those attributes with the price data for our international price comparisons.  We believe this approach enables more 
useful international price comparisons. 
64 One commenter proposed that we collect data on “any two-part tariff arrangements,” such as monthly fixed 
charges paired with charges for each megabyte downloaded.  Mark Kennet Comments at 1.  Our data collection 
does include monthly fixed charges for broadband plus any recurring or nonrecurring charges (such as line rental or 
traffic overages).
Federal Communications Commission DA 11-732
10
and promotional prices may be helpful for analyzing competition because advertised prices are focused on 
winning new customers or keeping customers who may be considering switching providers.  The dataset 
also contains a number of offers that include services such as voice or video that are bundled with a 
broadband service.  Service bundles can have a wide assortment of components, and variations in mobile 
broadband plans bundled with home broadband service present additional layers of complexity.   
21. For each broadband service offering, the dataset includes upload and download65 speeds, 
limitations on data usage, and information on the types of technology offered, including DSL, cable, fiber 
to the home, fixed wireless, satellite, and public WiFi.
22. A comparison of prices does not portray the entire story though, as a number of service 
characteristics may vary between foreign and U.S. broadband offerings, such as upload speeds, length of 
contract term, incidental and recurring costs (such as installation and equipment rental fees), differences 
in bundle components,66 and data caps, as noted in the paragraphs above.  
B. Community-Level Comparisons
23. In addition to requiring the Commission to gather data on broadband service capability, the 
BDIA directs the Commission to compare broadband development in communities that are similar to U.S. 
communities in terms of population size and density, topography, and demographic profile.67
24. “Community” is not defined in the BDIA or its legislative history.  Community is commonly 
defined as (1) a unified body of individuals such as a state, or commonwealth; (2) people with common 
interests living in a particular area; or (3) a group of people with a common characteristic or interest 
living together within a larger society.68 In view of the use of the phrase in the BDIA, and consistent with 
our approach in the 2010 IBDR, for purposes of this Report we interpret “community” as a geographical 
unit smaller than a nation-state.69  
25. One commenter proposes that the Commission consider comparing non-geographic 
communities (e.g., minority, low income, elderly, or disabled communities) as well as geographic 
communities for purposes of the international comparison.70  Though we see value in such an approach, 
we focus primarily on geographically defined communities, as we did in the 2010 IBDR.  We believe that 
the primary intent of Congress in adopting this section of the BDIA was to create a more geographically 
granular set of broadband-related data than used in previous comparisons of countries, and this guides our 
analysis.  A focus on geographic communities helps us fulfill the mandate to “choose communities for the 
comparison” with “population density” and “topography” that are comparable to communities within the 
United States.71 This seems the most natural reading of the provision, especially given that the 
Commission is also obligated, in the related section 706 inquiry, to “compile a list of geographical areas 
  
65 In some cases, providers did not indicate upload speeds on their websites.  See Appendix C.
66 Differences in non-broadband aspects of bundles could be responsible for price differences in bundle prices.  For 
example, a TV/broadband bundle in one country may include a DVR, video-on-demand, and premium channels, 
whereas a TV/broadband bundle in another country may include premium channels and no DVR.
67 Specifically, the statute requires that “[t]he Commission shall choose communities for the comparison under this 
subsection in a manner that will offer, to the extent possible, communities of a population size, population density, 
topography, and demographic profile that are comparable to the population size, population density, topography, and 
demographic profile of the various communities within the United States.”  BDIA § 103(b)(3); 47 U.S.C. § 
1303(b)(3).  
68 See, e.g., Merriam-Webster Dictionary available at http://www.merriam-webster.com/dictionary/community; 
Black’s Law Dictionary, 8th Ed. (2004).
69 See 2010 IBDR, 25 FCC Rcd at 11967-68 (para. 16).  
70 NAF Comments at 4.  
71 47 U.S.C. § 1303(b)(2).  
Federal Communications Commission DA 11-732
11
that are not served by any provider.”72  
26. Another commenter criticizes the Commission’s choice of communities and service offerings 
in the 2010 IBDR, and asserts the Commission did “not appear to use a well-defined or consistent 
methodology for choosing the ‘communities’ or offers.”73 The commenter notes that using data 
availability as a criterion for selection makes the sample likely to be statistically unrepresentative because 
“there is likely a strong correlation between data availability and other factors driving broadband 
deployment, such as income and education levels, and the quality of governance in the area.”74 As a 
result, the commenter argues, our sample was biased towards areas with the best broadband service.75  
27. As detailed below, we believe that the criteria that we have used for choosing communities 
and offers for comparison are squarely in line with what the BDIA requires.  In instructing us to include a 
“geographically diverse selection of countries,”76 we do not believe that Congress intended for us to use a 
random sample of countries.  The BDIA requires the Commission to choose communities that are similar 
to U.S. communities, which suggests communities with higher income and education levels, and better 
broadband service, than communities in poorer, less developed countries.    
28. Based on commenters’ suggestions, and the BDIA’s goal of developing a geographically 
diverse and detailed set of data on international broadband, we adopt two criteria to guide the selection of 
countries and communities.  The first is inclusivity:  We attempt to capture as full an international profile 
as possible, embracing communities from all parts of the world, while also focusing on those countries 
that have more developed broadband markets.77 The second is data availability:  We include only 
communities for which a substantial set of relevant information is available.  These two criteria result in a 
dataset that meets the statutory minimum requirements of 25 countries and 75 communities comparable to 
U.S. communities, and includes communities from almost all nations with the most broadband 
deployment.78  
29. For each community in the dataset, we examine population size and density, topography, and 
a number of additional criteria useful for building a “demographic profile.”  To determine what additional 
demographic or other factors to include in each community profile, we reviewed major public databases 
of economic, social, and demographic data, including the World Bank’s Development Indicators,79 the 
International Telecommunication Union’s (ITU) World Telecommunication Indicators,80 the OECD’s 
regional statistics database,81 and Eurostat’s regional statistics database.82 We also looked at studies and 
national broadband plans from other countries to determine which indicators would reflect the factors 
  
72 47 U.S.C. § 1302(c).   
73 AT&T Comments at 3.  
74 Id. at 3-4.  
75 Id. at 4 (emphasis in the original).
76 47 U.S.C. § 1303(b)(2)(A).  
77 We determined that a broadband comparison study featuring countries with similar markets is more instructive 
than a comparison of developed and undeveloped countries, and also better serves the goals of the BDIA.  See para. 
27 supra.
78 There are some differences in the countries included for each dataset contained in this Report.  Those differences 
are primarily due to data availability.  See Appendix B infra.  We also recognize that much room for improvement 
remains with regard to international data availability and collection.  See Section III.D, infra.
79 See http://go.worldbank.org/U0FSM7AQ40.
80 See http://www.itu.int/ITU-D/ict/publications/world/world.html.
81 See http://oecd.org/gov/regional/statisticsindicators/explorer/.
82 See http://epp.eurostat.ec.europa.eu/portal/page/portal/region_cities/introduction.
Federal Communications Commission DA 11-732
12
typically expected to influence broadband deployment and adoption.  Based on our review of these 
sources, we identified three variables that are particularly likely to be of importance in understanding 
international broadband service capability and selected them for inclusion in our report and for further 
study:83 (1) education level within a community (percentage of labor force with tertiary—i.e., college or 
graduate school—education); (2) total income of a community (GDP, in current U.S. dollars, adjusted for 
purchasing power parity); and (3) income per capita within a community (GDP per capita, in current U.S. 
dollars adjusted for purchasing power parity).84
30. The data for the variables listed in paragraph 29,85 are drawn mainly from the OECD’s 
regional statistics86 and the European Commission’s Eurostat regional data.87  We note that data at the 
national level for the variables listed above are generally available annually.  Community-level 
information, however, is collected less frequently.  Accordingly, we provided the most recent publicly-
available data (ranging from 2005-2010) for each variable in the community dataset.88 Data for 
communities not covered by the OECD and Eurostat datasets are drawn from national statistical agencies, 
communications ministries, and communications regulators.89
31. We have conducted an econometric analysis of our regional data on broadband adoption, 
population, income, and education level for a number of countries.  The regression results, which are best 
interpreted as correlations, not causal relationships, suggest a correlation between broadband adoption and 
(1) communities with larger populations, (2) communities with higher population density, and (3) 
communities with higher income.  The same model, however, does not detect a statistically significant 
relationship between education and broadband adoption.90 These results illustrate that this kind of 
quantitative data is a potentially rich vein for future investigation and analysis.  We present this analysis 
in Appendix G.
C. Other Relevant Similarities and Differences
32. The BDIA also directs the Commission, for the foreign communities selected, to identify 
“relevant similarities and differences” across several criteria including, among others:  market structure, 
types of technologies offered, regulatory model, and other media available to consumers (which we take 
to mean other electronic video and audio news, information, and entertainment options, particularly 
  
83 See Appendix G.
84 One commenter points out that “disparities between countries of similar income levels may be explained by 
differing income distributions,” and for this reason he recommends that we measure a country’s income distribution.  
Mark Kennet Comments at 1.  We agree that analysis of a community’s income distribution would be valuable.  
Unfortunately this data is not widely available internationally on a community-level basis, but it is worthy of 
consideration in our efforts to collect better data.
85 See Appendix D, infra.  Appendix D contains the most recent data available for the countries surveyed.  A more 
complete version containing historical data going back several years is available at 
http://www.fcc.gov/reports/international-broadband-data-report-second.  Information on topography is included in 
Appendix E of this IBDR.  See infra para. 32 and Appendix E.
86 See http://stats.oecd.org.
87 See http://epp.eurostat.ec.europa.eu/portal/page/portal/region_cities/introduction.
88 Communities that include the capital city of a country are indicated in boldface in Appendix D.  Communities that 
are the same as the capital city are indicated in boldface and italics.  For example, Ontario, the Canadian province 
where Ottawa is located, is in bold, while the District of Columbia is in bold and italics.
89 See “Notes” in Appendix D infra.  
90 Our model’s education data, however, was limited and the metric used may not be defined consistently across 
countries.  The model could benefit from greater refinement and more data on additional variables.
Federal Communications Commission DA 11-732
13
television and radio).91 For each foreign country included in this IBDR, Commission staff has collected, 
in Appendix E, information on topography; the regulatory environment, including national broadband 
plans; the market structure, including the number of competitors, broadband penetration, and the types of 
network technologies deployed; types of applications and services used; and other media, specifically 
television and radio outlets, available to consumers.  In most cases, we have only been able to obtain 
relevant information at the national level for these factors.
33. Some commenters emphasize the need for the IBDR to consider mobile broadband data.92  
For our price survey, we gathered mobile broadband data when it was available.93 Typically, the wireless 
data we found pertained to mobile and/or fixed wireless broadband services (e.g., WiMAX access via a 
USB stick) offered by a cable or DSL provider.94 Consistent data on mobile broadband adoption is just 
beginning to become available for this rapidly growing segment of the broadband market.  At this point, 
we have included information on the availability of mobile broadband and adoption data for each country 
in Appendix E.  In future reports we hope to collect and incorporate more data about the mobile segment 
of the broadband market. 
D. Goals for Future Reports
34. As discussed above, the BDIA requires that we obtain a wealth of international data, much of 
which does not exist or is not readily available without significant expense.95 Though this IBDR improves 
upon the 2010 IBDR in terms of the amount, quality, and analysis of data collected and presented, we 
aspire to further improve our collection of international broadband data.  Obtaining more data (and more 
granular data) on foreign broadband capability would help us understand broadband deployment and 
adoption patterns in the United States and globally.
35. Several commenters offer suggestions on how to obtain additional data from foreign 
countries.96 We agree with commenters that the need exists for better and more disaggregated 
international data.  Understanding what data are necessary to produce a robust analysis requires a review 
  
91 The statute provides that “[t]he Commission shall identify relevant similarities and differences in each 
community, including their market structures, the number of competitors, the number of facilities-based providers, 
the types of technologies deployed by such providers, the applications and services those technologies enable, the 
regulatory model under which broadband service capability is provided, the types of applications and services used, 
business and residential use of such services, and other media available to consumers.”  BDIA § 103(b); 47 U.S.C. § 
1303(b).  Section 103(b)(2) of the BDIA (47 U.S.C. § 1303(b)(2)) also directs the Commission to identify 
topography for selected foreign communities.  
92 See AT&T Comments at 9 (noting that wireless technology “now offer[s] speeds that equal or surpass many 
wireline broadband speeds”); NAF Comments at 2-3 (arguing that various wireless platforms (e.g., smartphones, 
WiFi) often substitute for residential broadband).  
93 See Appendix C, infra.
94 For example, we collected data on wireless broadband plans offered by cable and DSL companies.  Such wireless 
service typically consisted of 3G or WiMAX access provided via a USB stick modem or a tablet computer.  Foreign 
broadband providers might offer wireless access as a stand-alone product or as an add-on to a home broadband 
subscription. 
95 See Section II supra.
96 See, e.g., Free Press Comments at 2-4 (proposing four methods: (1) select communities from countries “with 
which [the Commission has] existing relationships and [that] maintain detailed data” while guarding against a biased 
sampling; (2) share data with local regulatory agencies in selected communities; (3) identify information that is not 
available through the foreign regulator, then work with the regulatory agency to find ways to obtain it; and (4) 
maintain ongoing relationships with foreign regulators to foster production of more comprehensive data for 
comparison purposes); NAF Comments at 5-6 (asserting that the Commission’s collection of data can be improved 
only by achieving international cooperation on data collection, and failing that, suggesting that the Commission 
contract with a third party researcher to conduct a multi-country in-depth analysis); Mark Kennet Comments at 2.  
Federal Communications Commission DA 11-732
14
of the factors that affect broadband supply and demand, which we discuss below.  We then describe a 
Commission proposal, developed in collaboration with other U.S. government agencies, for the OECD to 
expand and standardize metrics for broadband data and collection.  
1. Factors Affecting Broadband Demand and Supply
36. Identifying and examining the factors that influence broadband deployment and adoption is 
complicated.  As a general matter, the number of broadband connections is determined by the interaction 
of supply and demand. The supply and demand curves for broadband in turn are likely to be influenced 
by a number of exogenous demographic, economic, and regulatory factors.97 Below we explore one 
critical factor that affects the supply of broadband: the cost of deploying broadband infrastructure (which 
in turn is influenced predominantly by population density).98 We also examine the effects that 
government policies may have on supply and demand for broadband, and other possible factors affecting 
supply and demand, such as the deployment of both wireline and wireless broadband platforms in a single 
market, and the impact of wireless broadband offerings that are both mobile and fixed.
a. Measuring Broadband Penetration and Adoption
37. Although broadband penetration is often defined as the number of broadband connections in a 
given area divided by population, it is not clear that this is the best measure, at least for fixed residential 
broadband services.99 For example, most households will purchase a single fixed broadband connection 
to serve the entire household; it may make more sense to measure broadband penetration as the number of 
residential broadband connections divided by the number of households, to account for variation in 
household size.  In an effort to make this report as complete as possible, we have collected and published 
data using both methods where available.100 For mobile wireless broadband, however, it may make more 
sense to measure the number of mobile wireless subscriptions divided by the population, since consumers 
may be less likely to share mobile wireless devices with other household members.
b. Environmental, Demographic, and Competitive Effects on Supply 
and Demand
38. Previous studies suggest a number of demographic factors that may affect the demand for 
broadband.  These include such exogenous variables as the level and distribution of income, the level of 
education and variations in education levels, computer ownership by consumers, computer literacy, and 
the age distribution of the population.101 As discussed below, analysis of how these factors affect demand 
  
97 See, e.g., George S. Ford, Thomas M. Koutsky & Lawrence J. Spiwak, The Demographic and Economic Drivers 
of Broadband Adoption in the United States (Phoenix Center Policy Paper No. 31, Nov. 2007), available at
http://www.phoenix-center.org/pcpp.html (identifying and analyzing various economic and demographic factors that 
affect broadband adoption). 
98 See, e.g., John B. Horrigan, Broadband Adoption and Use in America (FCC Omnibus Broadband Initiative (OBI) 
Working Paper Series No. 1 (2010) at 6, Exhibit C-1, available at http://www.broadband.gov/plan/broadband-
working-reports-technical-papers.html.
99 See, e.g., Scott Wallsten, Understanding International Broadband Comparisons: 2009 Update (Technology 
Policy Institute, June 2009) at 1 (noting that estimates of broadband penetration based on wired connections per 
capita will be misleading, because household sizes differ across countries); George S. Ford, Thomas M. Koutsky, & 
Lawrence J. Spiwak, The Broadband Performance Index: A Policy-Relevant Method of Comparing Broadband 
Adoption Among Countries (Phoenix Center Policy Paper No. 29, Jul. 2007) (same).
100 See Appendix E.
101 See, e.g., John B. Horrigan, Broadband Adoption and Use in America (FCC Omnibus Broadband Initiative (OBI) 
Working Paper Series No. 1 2010), available at http://www.broadband.gov/plan/broadband-working-reports-
technical-papers.html, and Gregory L. Rosston, Scott J. Savage, and Donald M. Waldman, Household Demand for 
Broadband Internet in 2010, The B.E. Journal of Economic Analysis & Policy: Vol. 10: Iss. 1 (Advances), Article 
(continued....)
Federal Communications Commission DA 11-732
15
is complicated by the fact that broadband is a relatively new service; consequently, it is likely that 
subscribership will continue to rise over time as more consumers become aware of and then decide to 
adopt this service.  
39. The cost of deploying broadband infrastructure is a critical factor affecting supply of 
broadband,102 and population dispersion or density is generally viewed as a major factor affecting the cost 
of deployment.103 In rural areas, where population is likely to be widely dispersed, it likely will cost more 
to construct wireline broadband networks because loops are likely to be longer and because there are 
fewer subscribers to share the cost of common equipment.  Similarly, the cost per subscriber of building 
wireless broadband networks is likely to be higher in rural areas because there are fewer customers over 
which to spread the cost of building wireless towers and deploying backhaul capacity.  But how best to 
measure population dispersion in a way that reflects underlying cost differences is not clear,104  
Differences in geographical terrain can also affect cost.  For example, it typically is more expensive to 
build networks in mountainous areas than in level areas.
40. The level of competition among broadband providers is also likely to affect supply.  As a 
general matter, one would expect that an increase in the number of competitors would reduce prices 
toward efficient levels.  On the other hand, given economies of scale and scope, there may not be a 
business case to construct multiple networks in certain rural markets.
41. The factors affecting demand and supply discussed above are likely to vary within a country.  
For example, some areas of a country may have higher incomes or higher educational levels than others.  
Similarly, population dispersion and the number of competitors is likely to vary, depending on geographic 
and demographic characteristics.  For example, in the United States, consumers in urban and suburban 
areas may have a choice of multiple broadband providers, while in rural areas they may have a choice of 
one broadband provider or no terrestrial broadband providers. 
c. Government Policies’ Effect on Supply and Demand
42. Government policies may also affect the demand for, and supply of, broadband. For 
example, governments may seek to spur demand by providing subsidies to low-income households for 
subscriptions to broadband services or for the purchase of computers, or they may support digital literacy 
or skills training for consumers.  Alternatively, governments may make broadband services more valuable 
by providing convenient access to government services or information online.105  
  
(...continued from previous page)
79 (2010).  See also International Bureau Background Research Paper, Broadband Supply Case Studies: Canada and 
Australia (forthcoming).  
102 See, e.g., R. Preston McAfee, Introduction to Economic Analysis at 2-18 (2006) (noting that increases in marginal 
cost will reduce supply).
103 See, e.g., Federal Communications Commission, The Broadband Availability Gap (OBI Technical Paper No. 1 ) 
(2010) at 8, available at http://download.broadband.gov/plan/the-broadband-availability-gap-obi-technical-paper-
no-1.pdf.
104 Although some economists have used average population density in a country as a measure of population 
dispersion and a proxy for cost, there may be problems with this measure.  To use an extreme example, if one had 
two countries with equal population density, but the citizens in one country all lived in apartment buildings in a 
single city, while citizens in the other country were spread uniformly over farms, the loop lengths and hence the cost 
of broadband deployment are likely to be much lower in  the first country.  
105 See International Bureau Background Research Paper, Broadband Supply Case Studies: Canada and Australia 
(forthcoming).  Canada experienced success in promoting broadband deployment in rural areas with funding from 
its Broadband for Rural and Northern Development (BRAND) pilot program.  See Id.
Federal Communications Commission DA 11-732
16
43. Governments have also adopted, or are considering adopting, policies to affect the supply of 
broadband service, including building government-owned broadband networks, funding the private 
construction of networks, or providing financial support (either one-time or recurring) for providers that 
seek to construct broadband networks in areas where there is no private business case for deployment.106  
Alternatively, governments may try to reduce the cost of deploying broadband by offering tax incentives, 
such as investment tax credits or accelerated depreciation, or by making it easier for providers to gain 
access to poles, ducts, conduits, and rights of way.  Finally, governments may try to increase competition 
among broadband providers by reducing regulatory barriers to entry or requiring incumbent providers to 
share facilities with competitors.107
d. Other Factors
44. Several other characteristics of broadband service complicate any empirical analysis of the 
broadband marketplace.  We highlight just a few of the most difficult issues below.  
45. The first is that the United States and many other countries are still in a “diffusion” or 
“adoption” phase.  When new and innovative technologies are introduced, they typically are not adopted 
immediately by all potential consumers.  Rather consumers vary in their awareness of any new 
technologies and when they choose to adopt that technology.  As a result, we have generally seen gradual 
adoption or diffusion of new technologies, which tends to follow an S-shaped adoption curve.108 Given 
differences in the timing of the introduction of broadband in various areas and possible differences in the 
parameters that affect the adoption rate, some have argued that analyses of broadband adoption should 
take into account how far along particular countries are in this adoption process.109  
46. Second, as discussed in Section III.A.2, identifying causes of international price differences 
are complicated by the existence of regulated wholesale rates in some countries, bundling with other 
services, combining recurring charges with non-recurring charges, unlimited usage plans, plans with 
usage caps, and promotional offerings.
47. As noted, broadband is a heterogeneous product.  It can be offered over telephone networks, 
  
106 For example, the government of Canada, as part of its 2009 Economic Action Plan, provided CAN$225 million 
over three years, beginning in 2009-10, for Industry Canada to develop and implement a strategy to extend 
broadband coverage.  A significant component of this plan is Broadband Canada: Connecting Rural Canadians, 
which is intended “to extend broadband service to as many unserved and underserved Canadian households as 
possible.”  See http://www.ic.gc.ca/eic/site/ic1.nsf/eng/06045.html (site visited March 10, 2011).  In another 
example, the Australian government announced in 2009 that it would build and operate a new high-speed National 
Broadband Network, investing up to AU$43 billion over eight years to do so.  See
http://www.dbcde.gov.au/broadband/national_broadband_network (visited March 10, 2011).  See also International 
Bureau Background Research Paper, Broadband Supply Case Studies: Canada and Australia (forthcoming).  
107 A disadvantage of unbundling requirements is that they may reduce carriers’ incentives to invest in network 
upgrades to provide next generation broadband services.  See Thomas M. Jorde, J. Gregory Sidak, & David J. Teece, 
Innovation, Investment, and Unbundling, 17 YALE JOURNAL ON REGULATION 1 (2000).
108 See, e.g., Lawrence K. Vanston & John H. Vanston, Introduction  to Technology Market Forecasting (1996); see 
generally Everett M. Rogers, Diffusion of Innovations (4th ed. 1995).  Note that estimating adoption curves is 
complex.  See, e.g., Luis Andres, David Cuberes, Mame A. Diouf and Tomas Serebrisky, The Diffusion of Internet: 
a Cross-country Analysis, Ivie Working Paper, WP-AD 2010-07, February 2010.
109 See, e.g., Wei-Min Hu & James Prieger, The Empirics of the Digital Divide, in HANDBOOK OF RESEARCH ON 
OVERCOMING DIGITAL DIVIDES:  CONSTRUCTING AN EQUITABLE AND COMPETITIVE  INFORMATION SOCIETY (E. 
Ferro et al. eds. 2009); Mario Denni & Harald Gruber, The Diffusion of Broadband Telecommunications in the U.S.:  
The Role of Different Forms of Competition, 68 COMMUNICATIONS & STRATEGIES 139 (2007).  See also The 
Broadband Availability Gap (Federal Communications Commission, Omnibus Broadband Initiative Technical Paper 
No. 1, 2010), available at http://www.broadband.gov/plan/broadband-working-reports-technical-papers.html. 
Federal Communications Commission DA 11-732
17
cable networks, fiber networks, mobile or fixed wireless networks, and via satellite.  These platforms 
offer broadband services that differ in important characteristics, such as maximum speed, contention,110
latency,111 and mobility.  In addition, a single broadband provider may offer broadband service packages 
that may vary in terms of maximum speed, data limits, or bundled services.  These differing service 
characteristics affect how much consumers are willing to pay for a particular broadband service as well as 
how many consumers will choose to purchase the service.
48. A final complicating factor arises from the fact that it is not clear whether consumers view 
fixed and mobile broadband offerings as substitutes or whether they view mobile broadband as a 
supplemental technology; furthermore, consumers in one country may view mobile and fixed broadband 
as substitutes while consumers elsewhere may view the two more as complements.  Analysis of 
broadband adoption is complicated because many consumers subscribe to both technologies.  For 
example, if a sufficient number of customers purchased both fixed and mobile broadband services, then, 
depending on the broadband adoption measure used, broadband adoption estimates may exceed 100 
percent, even though many residential consumers do not subscribe to any broadband service.  
2. The Need for Detailed Disaggregated Data
49. The above discussion suggests that, in order to conduct a rigorous, empirical analysis of the 
factors that affect global broadband supply and demand, it is helpful to have reasonably comparable, 
detailed, and geographically disaggregated data from many countries, including:
· Detailed demographic data broken down on a highly geographically disaggregated basis.  These 
demographic data ideally would include data on income and variations in income), education (and 
variations in education), computer literacy, residential computer ownership, and household 
size.112
· Data to estimate the relative costs of deploying alternative broadband technologies.  At a 
minimum, one should have data on population density at a geographically disaggregated level.  It 
would also be useful to have data on the actual costs of deploying alternative broadband 
technologies (including both initial construction costs and recurring costs).  
· Data and maps indicating where alternative broadband technologies are deployed within 
countries.  These data should identify different broadband technologies, the number of providers 
that offers each form of broadband, and the advertised and actual speeds that providers offer in 
communities.  To the extent that countries adopt standardized mapping methods, this would 
facilitate availability comparisons.  
  
110 A contention protocol is a multiple access technique that permits users to transmit on a random or near-random 
basis with transmissions from one or more users that occasionally overlap, causing “collision.”  In contention 
protocols, transmissions from different terminals compete, or “contend,” for the same resource.  See Amendment of 
Parts 2 and 25 of the Commission’s Rules to Allocate Spectrum and Adopt Service Rules and Procedures to Govern 
the Use of Vehicle-Mounted Earth Stations in Certain Frequency Bands Allocated to The Fixed-Satellite Service, IB 
Docket No. 07-101, Notice of Proposed Rulemaking, 22 FCC Rcd 9649, 9676 (2007), and Report and Order, 24 
FCC Rcd 10414, 10452 (2009).
111 Latency refers to the time taken (frequently measured in milliseconds) for a single data packet to travel from one 
computer to another over a network.  See, e.g., http://www.broadband.gov/qualitytest/about/.
112 We recognize that some of these data, such as data on computer ownership, may not be available on a 
geographically disaggregated basis.  We currently lack any definition or means to measure digital literacy, a concept 
that could mean different things to different people in different circumstances (e.g., one could know how to send 
email, but not how to set up a videoconference).
Federal Communications Commission DA 11-732
18
· The number of subscribers to different broadband technologies.  And, where providers offer 
multiple service packages, it would be useful to know the speeds and other service characteristics 
of the packages that consumers purchase.  Information on actual data usage would also be useful, 
as well as data on the applications used by residential consumers, such as VoIP services.
· Data on broadband prices in a form that can be compared across countries.  Ideally these data 
should be available with, or susceptible to, an analysis of bundle prices and promotional prices.  
· Data on government policies intended to encourage broadband deployment, such as the level and 
scope of government subsidies.
3. Reforming Data Collection Domestically and Internationally
50. The National Broadband Plan recommended that the Commission reevaluate and improve its 
broadband data collection,113 and the Commission has initiated a proceeding to consider modifications to 
its broadband data gathering.114
51. Other countries have also indicated their intention to review their broadband data, and the 
OECD is considering a proposal to develop meaningful cross-sectional and longitudinal data that can be 
used to gauge key broadband-related metrics within and across countries.  The proposal addresses many 
of the data needs identified above, including broadband deployment and adoption data at a disaggregated, 
statistical, geographic area level, with special attention to residential and business use, speed tiers, the 
number of competitors, and technology type (e.g., wireline, fixed and mobile wireless).  The proposal also 
calls for collection of demographic metrics at a disaggregated, statistical, geographic area level, e.g., 
education, income, age, and household type.  Also part of the proposal is a request for urbanicity 
metrics,115 particularly urban versus rural, which could be used as a proxy for loop length.  The proposal 
addresses metrics for household dispersion to allow comparison and normalization of availability figures.  
Detailed subscriber price data for OECD countries is also part of the proposal. These and other 
coordinated improvements in broadband data gathering would facilitate more rigorous empirical analyses.
IV. CONCLUSION
52. In conjunction with the Commission’s adoption of the Seventh 706 Report, the release of this 
IBDR fulfills the obligation imposed by Section 103(b) of the Broadband Data Improvement Act.116
  
113 See, e.g., National Broadband Plan, Recommendations 4.2- 4.4. (2010), available at 
http://download.broadband.gov/plan/national-broadband-plan.pdf.
114 See Modernizing the FCC Form 477 Data Program, WC Docket No. 11-10, Notice of Proposed Rulemaking,
FCC 11-14 (rel. Feb. 8, 2011).
115 The concept of urbanicity refers to the degree to which a geographical unit is urban.  See
http://www.urbanicity.us/Urbanicity.html.
116 47 U.S.C. § 1303(b).
Federal Communications Commission DA 11-732
19
V. ORDERING CLAUSE
53. IT IS ORDERED that, pursuant to Section 103(b) of the Broadband Data Improvement Act, 
47 U.S.C. § 1303(b), and pursuant to authority delegated to the International Bureau in Section 0.261 of 
the Commission's rules, 47 C.F.R. § 0.261, this IBDR, with its associated Appendices A-G, is 
ADOPTED. 
FEDERAL COMMUNICATIONS COMMISSION
Mindel De La Torre
Chief, International Bureau
Federal Communications Commission DA 11-732
APPENDIX A: PUBLIC RECORD
Docket GN 09-47 (Broadband Data Improvement Act)
Comments (September 27, 2010)
AT&T, Inc.
Free Press
The New America Foundation and the Donald McGannon Communication Research Center, Fordham 
University (NAF) 
Reply Comments (October 12, 2010)
None filed
Late-filed Comments
Professor Rob Frieden, Pioneers Chair and Professor of Telecommunications and Law, The Pennsylvania 
State University
Miguel Gil Tertre
Professor Shane Greenstein
D. Mark Kennet, Ph.D.
Federal Communications Commission DA 11-732
APPENDIX B: Countries Included in the IBDR
COUNTRIES Appendix C: 
Broadband 
Price Dataset
Appendix D: 
Demographics 
Dataset
Appendix E: 
Market and 
Regulatory 
Background 
Appendix 
F: Actual 
Broadband 
Speeds
Appendix G: 
Econometric 
Analysis
Australia X X X X X
Austria X X X X
Belgium X X X
Bulgaria X X X
Canada X X X X
Chile X X X
Cyprus X X
Czech Republic X X X X
Denmark X X X X
Estonia X X X
Finland X X X X X
France X X X X
Germany X X X X X
Greece X X X
Hong Kong X X
Hungary X X X
Iceland X X X X
Ireland X X X
Italy X X X X X
Japan X X X X
Korea X X X X
Latvia X X X
Lithuania X X X
Luxembourg X X X X
Malta X X X
Mexico X X
Netherlands X X X X X
New Zealand X X
Norway X X X X X
Poland X X X
Portugal X X X X
Romania X X
Singapore X
Slovakia X X X X
Slovenia X X X
Spain X X X X X
Sweden X X X
Switzerland X X X
Turkey X X
U.K. X X X X X
USA X X X
Federal Communications Commission DA 11-732
APPENDIX C: Broadband Price Dataset
This dataset can be found on the FCC website at http://www.fcc.gov/reports/international-
broadband-data-report-second.
Federal Communications Commission DA 11-732
APPENDIX D: Demographics Dataset
Below is a concise version of the demographics dataset, containing only the most recent data available 
for the countries surveyed.  A complete version containing historical data going back several years is 
available at http://www.fcc.gov/reports/international-broadband-data-report-second.
Community
% 
Households 
with 
broadband
Population 
Total
Population 
density 
(avg 
population 
per square 
meter)
GDP total 
(US$m), 
PPP 
(purchasing 
power 
parity)
GDP per 
cap, PPP 
(purchasing 
power 
parity)
Education         
(% of 
labor force 
with 
tertiary 
education)
ALA0 Australia 62 21429366 3 855409 37197 23
ALA1 New South Wales 61
6984172 9 274642 36865 34
ALA2 Victoria 62 5313823 23 199078 35733 33
ALA3 Queensland 64 4293915 2 166492 35100 28
ALA4 South Australia 54 1603361 2 53918 32353 27
ALA5 Western Australia 64
2171197 1 116012 48292 31
ALA6 Tasmania 49 497529 7 15820 30180 25
ALA7 Northern Territory 64
219818 0 11719 48724 31
ALA8 Australian Capital 
Territory 
74
345551 147 17727 47983 47
AT0 Austria 58 8355260 99 308599 37112 20
AT11 Burgenland (A) 55 283118 71 6903 24594 16
AT12 Niederösterreich 57 1605122 83 48211 30256 16
AT13 Wien 65 1687271 4046 82384 49302 24
AT21 Kärnten 52 560605 59 17735 31624 17
AT22 Steiermark 49 1207479 74 38647 32075 16
AT31 Oberösterreich 58 1410403 118 50998 36249 16
AT32 Salzburg 60 529217 74 22358 42176 18
AT33 Tirol 57 704472 56 27200 38747 17
AT34 Vorarlberg 59 367573 141 14163 38730 16
BE0 Belgium 63 10666866 349 368213 34653 38
BE1 Région de Bruxelles-
Capitale/Brussels 
Hoofdstedelijk Gewest 57 1048491 6512 68794 66154 45
BE21 Prov. Antwerpen 69 6161600 456 213730 34812 36
BE3 Région Wallonne 56 3456775 205 85690 24864 34
Federal Communications Commission DA 11-732
2
BG0 Bulgaria 26 7606551 69 52438 6956
BG3 Severna I iztochna 
Bulgaria 21 3953967 58 20776 5180 No Data
BG4 Yugozapadna I 
yuzhna tsentralna 
Bulgaria 31 2115042 86 31660 8732 No Data
Canada 62 33739859 4 1299895 39004 59
CA1 Newfoundland And 
Labrador 59 508925 1 25416 50186 59
CA2 Prince Edward Island
61 140985 25 3758 26945 53
CA3 Nova Scotia 66 938183 18 27782 29663 58
CA4 New Brunswick 58 749468 11 22243 29770 55
CA5 Quebec 53 7828879 6 245591 31675 62
CA6 Ontario 64 13069182 14 477675 36925 60
CA7 Manitoba 57 1221964 2 41308 34249 50
CA8 Saskatchewan 62 1030129 2 51608 50915 50
CA9 Alberta 67 3687662 6 236678 65819 56
CA10 British Columbia 72 4455207 5 160841 36689 56
Yukon, Northwest 
Territories, and Nunavut 54 No data No data No Data No Data No Data
Chile 35 16928873 8
CL01 Tarapaca 41 307426 7 No Data No Data No Data
CII Antofagasta 57 538432 4 No Data No Data No Data
CIII Atacama 31 278515 4 No Data No Data No Data
CIV Coquimbo 25 708369 17 No Data No Data No Data
CV Valparaiso 36 1739876 106 No Data No Data No Data
CVI O'Higgins 18 874806 53 No Data No Data No Data
CVII Maule 15 999685 33 No Data No Data No Data
CVIII Bio-Bio 26 2022995 55 No Data No Data No Data
CIX Araucania 18 962120 30 No Data No Data No Data
CX Los Lagos 23 825830 17 No Data No Data No Data
CXI Aisen 21 103738 1 No Data No Data No Data
CXII Magallanes y 
Anta(a)rtica 30 158111 0.1 No Data No Data No Data
CRMS  Santiago 47 6814630 442 No Data No Data No Data
CL14 Los Rios 23 378193 21 No Data No Data No Data
CL15 Arica Y Parinacota 45 186147 11 No Data No Data No Data
Cyprus 51 796875 86 25585 32264
CZ0 Czech Republic 36 10467542 132 247689 23968 16
CZ01 Praha 53 1233211 2498 61712 51422 32
CZ02 Strední Cechy 37 1230691 111 26748 22505 13
CZ03 Jihozápad 34 1205955 70 25299 21270 14
CZ04 Severozápad 26 1144294 134 20938 18477 7
Federal Communications Commission DA 11-732
3
CZ05 Severovýchod 37 1507030 122 29424 19709 12
CZ06 Jihovýchod 36 1662557 121 35405 21468 16
CZ07 Strední Morava 33 1233549 135 22941 18633 14
CZ08 Moravskoslezsko 33 1250255 235 25224 20185 12
DK0 Denmark 76 5511451 127 198338 36316 38
DK01 Hovedstaden 80 1662285 643 73860 45001 40
DK02 Sjælland 71 821252 113 22397 27387 28
DK03 Syddanmark 74 1199667 98 40460 33937 26
DK04 Midtjylland 76 1247732 94 42590 34564 30
DK05 Nordjylland 74 580515 73 19031 32931 26
Estonia 64 1340415 31 23838 17760
FI0 Finland 74 5326314 16 186936 35346 40
FI13 Itä-Suomi 65 654344 9 17528 26594 30
FI18 Etelä-Suomi 78 2653778 64 106560 40621 39
FI19 Länsi-Suomi 69 1349600 23 42150 31413 32
FI1A Pohjois-Suomi 76 641136 5 19539 30650 32
FI20 Åland 64 27456 17 1158 42888 28
France 57 64367000 118 2071782 32460 31
FR1 Île de France 64 11746000 978 587699 50508 41
FR2 Bassin Parisien 52 10712000 74 299545 280504 n/a
FR3 Nord - Pas-de-Calais 49 4022000 324 106203 26407 27
FR4 Est 52 5357000 112 149568 280836 n/a
FR5 Ouest 51 8460000 99 238376 361019 n/a
FR6 Sud-Ouest 52 6806000 66 194667 290615 n/a
FR7 Centre-Est 55 7503000 108 236337 319150 n/a
FR8 Méditerranée 58 7863000 117 223111 288851 n/a
DE0 Germany 65 82002356 230 2853157 34748 28
DE1 Baden-Württemberg 63 10749506 301 421073 39190 27
DE2 Bayern 66 12519728 177 509940 40892 26
DE3 Berlin 67 3431675 3834 99809 29269 34
DE4 Brandenburg 40 2522493 86 62615 24634 28
DE5 Bremen 661866 1640 31518 47503 24
DE6 Hamburg 67 1772100 2345 101345 57504 28
DE7 Hessen 67 6064953 288 253403 41719 26
DE8 Mecklenburg-
Vorpommern 56 1664356 72 40958 24283 24
DE9 Niedersachsen 67 7947244 167 244081 30597 21
DEA Nordrhein-Westfalen 72 17933064 528 617900 34304 22
DEB Rheinland-Pfalz 62 4028351 204 123150 30413 23
DEC Saarland 47 1030324 404 35677 34308 19
Federal Communications Commission DA 11-732
4
DED Sachsen 47 4192801 229 109217 25789 31
DEE Sachsen-Anhalt 57 2381872 118 60783 25043 22
DEF Schleswig-Holstein 71 2834260 180 84510 29801 22
DEG Thüringen 59 2267763 142 57178 26216 27
GR0 Greece 33 11260402 85 311084 27793 27
GR1 Voreia Ellada 27 3580472 64 74938 20998 25
GR2 Kentriki Ellada 20 2475170 46 52848 21437 19
GR3 Attiki 46 4088447 1067 155305 38376 32
GR4 Nisia Aigaiou, Kriti 29 1116313 64 27992 25182 20
HU0 Hungary 51 10030975 108 188682 18763 23
HU10 Közép-
Magyarország 60 2925500 419 88978 30842 31
HU21 Kosep-Dunantul 56 1103132 99 19285 17435 18
HU22 Nyugat-Dunantul 51 998187 88 18389 18413 16
HU23 Del-Dunantul 42 952982 68 12340 12803 17
HU31 Eszak-Magyarország 44 1223238 92 14960 12025 16
HU32 Eszak-Alfold 43 1502409 85 17957 11816 18
HU33 Del-Alfold 48 1325527 73 16772 12531 19
Iceland 87 319368 3 11311 36301 31
Ireland 54 4450030 63 193371 44383
IE01 Border - Midlands 
and Western 44 1199297 37 34655 29709 30
IE02 Southern and 
Eastern 57 3250733 89 158716 49748 36
IT0 Italy 39 60045068 198 1840070 30990 18
ITC1 Piemonte 38 4432571 173 148964 34033 16
ITC2 Valle d''Aosta/Vallée 
d''Aoste 34 127065 39 4454 35519 13
ITC3 Liguria 39 1615064 297 51473 31993 20
ITC4 Lombardia 43 9742676 404 387481 40388 17
ITD1 Provincia Autonoma 
Bolzano-Bozen 39 498857 67 19782 40307 11
ITD2 Provincia Autonoma 
Trento 44 519800 83 18641 36537 17
ITD3 Veneto 39 4885548 263 175031 36443 14
ITD4 Friuli-Venezia Giulia 43 1230936 156 42534 34941 15
ITD5 Emilia-Romagna 41 4337979 193 162900 38334 17
Federal Communications Commission DA 11-732
5
ITE1 Toscana 43 3707818 160 123606 33794 17
ITE2 Umbria 41 894222 105 25514 29036 16
ITE3 Marche 43 1569578 160 48818 31606 15
ITE4 Lazio 45 5626710 323 202508 36638 22
ITF1 Abruzzo 37 1334675 123 33638 25543 18
ITF2 Molise 26 320795 72 7479 23335 17
ITF3 Campania 37 5812962 428 114457 19731 16
ITF4 Puglia 29 4079702 211 81561 20024 15
ITF5 Basilicata 26 590601 59 13292 22483 15
ITF6 Calabria 26 2008709 133 39494 19718 17
ITG1 Sicilia 34 5037799 196 99377 19783 15
ITG2 Sardegna 36 1671001 69 39067 23499 13
JP0 Japan 62 127771000 338 4972265 38916 24
JP Hokkaido/Tohoko 48 15074000 107 585630 33504 No Data
JP Kanto 71 44882000 890 1933603 43081 No Data
JP Chubu 64 20638000 434 805144 44161 No Data
JP Kinki 67 20861000 763 770311 36926 No Data
JP Chugoku 52 7631000 239 284731 37315 No Data
JP Shikoku 46 4040000 215 129282 32007 No Data
JP Kyushu 48 14645000 329 463637 31657 No Data
KR0: Korea 84 48606787 489 1204692 24861 34
KR01: Capital region 90 23908871 2043 574047 24244 40
KR02: Gyeongnam region
78 7713817 626 212281 27462 37
KR03: Gyeonbuk region
73 5077459 255 117070 22933 34
KR04: Jeolla region 76 4977495 242 120418 23976 25
KR05: Chungcheong 
region 88 4922359 297 136860 27895 23
KR06: Gangwon region 74 1461318 88 33360 22687 29
KR07: Jeju 72 545468 295 10657 19571 34
Latvia 53 2261294 36 34095 15096
Lithuania 54 3349872 54 47786 14208
Luxembourg (Grand-
Duché) 71 493500 187 39577 82453 32
Malta 69 413609 1304 8530 20868
NL0 Netherlands 77 16485787 395 648467 39585 36
NL1 Noord-Nederland 74 1708821 205 64128 37647 26
NL2 Oost-Nederland 75 3499946 358 117885 33912 28
NL3 West-Nederland 80 7719856 886 328732 42947 34
NL4 Zuid-Nederland 73 3557164 502 137722 38820 29
NO0 Norway 78 4799252 15 252580 53635 39
Federal Communications Commission DA 11-732
6
NO01 Oslo og Akershus 83 1103100 216 79415 74331 46
NO02 Hedmark og 
Oppland 71 374359 7 15311 41127 25
NO03 Sør-Østlandet 78 919900 27 38985 43078 29
NO04 Agder og Rogaland 75 696166 29 35841 52793 30
NO05 Vestlandet 72 824865 18 42636 52507 32
NO06 Trøndelag 87 417437 11 19458 47413 34
NO07 Nord-Norge 75 463425 4 20933 45299 31
PL0 Poland 57 38135876 122 537468 14060
PL1 Centralny 56 7753356 144 149006 19240 No Data
PL2 Poludniowy 56 7932801 288 110719 13912 No Data
PL3 Wschodni 52 6725581 90 68222 10212 No Data
PL4 Pólnocno-Zachodni 61 6099536 91 83775 13764 No Data
PL5 Poludniowo-Zachodni 58 3910099 133 56003 14356 No Data
PL6 Pólnocny 59 5714503 94 69744 12284 No Data
PT0 Portugal 46 10627250 115 240155 22638 16
PT11 Norte 45 3745439 176 67660 18068 13
PT15 Algarve 50 430084 85 10116 23858 12
PT16 Centro (PT) 39 2383284 85 46066 19308 11
PT17 Lisboa 54 2819433 957 87849 31360 22
PT18 Alentejo 37 757069 24 16432 21548 14
PT30 Região Autónoma da 
Madeira (PT) 45 244780 105 4929 20242 8
PT20 Região Autónoma 
dos Açores (PT) 48 247161 308 7103 28850 13
RO0 Romania 23 21610213 94 206852 9620
RO1 Macroregiunea unu 26 5263559 78 46465 8880 No Data
RO2 Macroregiunea doi 20 6578570 97 444579 6808 No Data
RO3 Macroregiunea trei 27 5537093 157 78816 14208 No Data
RO4 Macroregiunea patru 18 4230991 70 36993 8880 No Data
SK0 Slovakia 42 5412254 110 109387 20267 17
SK01 Bratislavský kraj 39 616578 298 29226 48006 30
Federal Communications Commission DA 11-732
7
SK02 Západné Slovensko 44 1866168 124 36899 19806 13
SK03 Stredné Slovensko 40 1350044 83 21569 15969 14
SK04 Východné Slovensko 41 1579464 100 21693 13775 14
Slovenia 62 2032362 100 55211 27232
ES0 Spain 51 45828172 89 1412140 31466 34
ES11 Galicia 38 2738930 92 72583 26592 33
ES12 Principado de 
Asturias 51 1058923 100 30747 29045 37
ES13 Cantabria 55 576418 107 17902 31568 38
ES21 Pais Vasco 55 2136061 296 87335 40974 47
ES22 Comunidad Foral de 
Navarra 52 614526 58 23789 39570 39
ES23 La Rioja 48 315718 62 10378 33585 32
ES24 Aragón 51 1313735 27 44070 34250 34
ES30 Comunidad de 
Madrid 63 6295011 771 250575 40938 40
ES41 Castilla y León 41 2510545 27 75698 30352 34
ES42 Castilla-la Mancha 44 2022647 25 47640 24383 24
ES43 Extremadura 39 1080439 26 23345 21682 25
ES51 Cataluña 60 7290292 225 264598 36946 32
ES52 Comunidad 
Valenciana 47 4991789 210 137687 28531 28
ES53 Illes Balears 58 1070066 209 35076 34064 21
ES61 Andalucia 46 8150467 92 194335 24347 27
ES62 Región de Murcia 44 1443383 125 36237 26047 26
ES63 Ciudad Autónoma de 
Ceuta (ES) 46 72561 3789 2092 29135 25
ES64 Ciudad Autónoma de 
Melilla (ES) 51 70076 5361 1936 28216 25
ES70 Canarias (ES) 53 2076585 274 56117 27792 25
SE0 Sweden 79 9256347 21 336512 36785 34
SE11 Stockholm 84 1981263 299 95338 49301 38
SE12 Östra Mellansverige 79 1545587 40 48683 31829 28
SE21 Småland med öarna 75 807871 24 26484 32948 24
SE22 Sydsverige 80 1367017 97 44319 32985 32
Federal Communications Commission DA 11-732
8
SE23 Vastsverige 79 1851702 63 65401 35682 30
SE31 Norra Mellansverige 78 825149 13 26711 32381 23
SE32 Mellersta Norrland 73 370269 5 12024 32437 27
SE33 Övre Norrland 76 507489 3 17552 34496 29
UK0 United Kingdom 69 61179300 250 2131507 34954 36
UKC North East 65 2570000 299 69468 27083 26
UKD North West 66 6869900 487 204064 29728 30
UKE Yorkshire and The 
Humber 64 5195200 336 151221 29207 29
UKF East Midlands 64 4416300 282 135785 30867 28
UKG West Midlands 69 5396500 414 160718 29843 28
UKH Eastern 73 5694900 296 189280 33416 28
UKI London 76 7588400 4810 446129 59000 44
UKJ South East 75 8344300 436 309323 37228 34
UKK South West 73 5193600 217 165438 31985 30
UKL Wales 67 2986700 144 77554 26027 30
UKM Scotland 63 5156500 66 173660 33763 37
UKN Northern Ireland 42 1767100 124 48867 27786 32
US0 United States 63 309280117 33 14165565 46588
US01 Alabama 48 4661900 35 170014 36469 20
US02 Alaska 73 1366454 0.5 47912 69813 24
US04 Arizona 67 6500180 22 248888 38289 23
US05 Arkansas 51 2855390 21 98331 34437 17
US06 California 67 36756666 91 1846760 50243 27
US08 Colorado 68 4939456 18 248603 50330 32
US09 Connecticut 70 3501252 279 216174 61742 33
US10 Delaware 66 873092 173 61828 70815 25
US11 Dist. of Columbia 66 591833 3722 97235 164295 45
US12 Florida 66 18328340 131 744120 40599 24
US13 Georgia 63 9685744 65 397756 41066 25
US15 Hawaii 70 1288198 77 63847 49563 26
US16 Idaho 67 1523816 7 52747 34615 22
US17 Illinois 62 12901563 90 633697 49118 27
US18 Indiana 56 6376792 69 254861 39967 21
US 19 Iowa 62 3002555 21 135702 45196 22
US 20 Kansas 66 2802134 13 122731 43799 27
US 21 Kentucky 53 4269245 41 156436 36643 18
US 22 Louisiana 57 4410796 39 222218 50380 18
US 23 Maine 61 1316456 16 49709 37760 23
US 24 Maryland 69 5633597 223 273333 48518 32
Federal Communications Commission DA 11-732
9
US 25 Massachusetts 72 6497967 320 364988 56170 35
US 26 Michigan 62 10003422 68 382544 38241 23
US 27 Minnesota 66 5220393 25 262847 50350 29
US 28 Mississippi 41 2938618 24 91782 31233 17
US 29 Missouri 57 5911605 33 237797 40225 23
US 30 Montana 58 967440 3 35891 37099 24
US 31 Nebraska 63 1783432 9 83273 46693 25
US 32 Nevada 67 2600167 9 131233 50471 20
US 33 New Hampshire 73 1315809 57 60005 45603 31
US 34 New Jersey 72 8682661 452 474936 54699 32
US 35 New Mexico 54 1984356 6 79901 40265 22
US 36 New York 65 19490297 159 1144480 58721 29
US 37 North Carolina 59 9222414 73 400192 43393 24
US 38 North Dakota 62 641481 4 31208 48650 24
US 39 Ohio 61 11485910 108 471508 41051 22
US 40 Oklahoma 55 3642361 20 146448 40207 20
US 41 Oregon 70 3790060 15 161573 42631 26
US 42 Pennsylvania 61 12448279 107 553301 44448 24
US 44 Rhode Island 69 1050788 388 47364 45075 28
US 45 South Carolina 53 4479800 57 156384 34909 21
US 46 South Dakota 59 804194 4 36959 45958 23
US 47 Tennessee 55 6214888 58 252127 40568 21
US 48 Texas 59 24326974 36 1223510 50294 23
US 49 Utah 73 2736424 13 109777 40117 25
US 50 Vermont 60 621270 26 25442 40952 29
US 51 Virginia 65 7769089 76 397025 51103 31
US 53 Washington 72 6549224 38 322778 49285 28
US 54 West Virginia 52 1814468 29 61652 33978 16
US 55 Wisconsin 66 5627967 40 240429 42720 24
US 56 Wyoming 65 532668 2 35310 66289 21
Federal Communications Commission DA 11-732
10
Sources
% households with 
broadband
Population 
Total
Population 
density
GDP 
total
GDP per 
cap, 
PPP
Education
Australia 2009, OECD 2008,
OECD
2008, 
OECD
2009, 
OECD
2008, 
OECD
2005, 
OECD
Austria 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Belgium 2009, OECD 2008, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Bulgaria 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Canada 2009, CRTC 2009, 
OECD
2009, 
OECD
2008, 
OECD
2008, 
OECD
2010, 
Statistics 
Canada
Chile 2009, Subtel 2009, INE 2009, INE
Cyprus 2010, Eurostat 2009, 
Eurostat
2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Czech Republic 2008, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Denmark 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Estonia 2010, Eurostat 2009, 
Eurostat
2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Finland 2009, OECD; for 
Aland, 2007, OECD
2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
France 2009, Eurostat 2009, 
OECD
2009, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
Eurostat
Germany 2009, OECD; for 
Saarland 2006 OECD
2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Greece 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Hungary 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Iceland 2009, OECD 2008, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2006, 
OECD
Ireland 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Italy 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Japan 2009, Government of 
Japan
2007, 
Govt. of 
Japan
2007, 
Govt. of 
Japan
2007, 
Govt. of 
Japan
2007, 
Govt. of 
Japan
Korea 2009, KCC 2008, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2006, 
OECD
Latvia 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Lithuania 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Luxembourg 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Malta 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
Netherlands 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Federal Communications Commission DA 11-732
11
Norway 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Poland 2010, Eurostat 2009, 
OECD
2008, 
OECD
2008, 
Eurostat
2008, 
Eurostat
Portugal 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Romania 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2008, 
Eurostat
2005, 
Eurostat
Slovakia 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Slovenia 2010, Eurostat 2009, 
Eurostat
2008, 
Eurostat
2007, 
OECD
2007, 
OECD
Spain 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
Sweden 2009, OECD 2009, 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
United Kingdom 2009, OECD; for 
Northern Ireland 2008 
OECD
2008, 
OECD
2007, 
OECD
2007, 
OECD
2007, 
OECD
2008, 
OECD
United States 2009, OECD 2008, 
OECD
2008, 
OECD
2008, 
OECD
2008, 
OECD
2008, 
OECD
Federal Communications Commission DA 11-732
APPENDIX E:  Market and Regulatory Background
This Appendix contains regulatory, market, and other information for the 40 foreign countries for which 
we obtained either pricing data in Appendix C or community-level demographic and broadband adoption 
data in Appendix D.  The information in this Appendix is drawn from a variety of sources.  Descriptions 
of regulatory structures and states of the market and competition are from the websites of national 
regulators or ministries and from subscription-based services, such as IHS Global Insight and 
TeleGeography,1 unless otherwise noted.  Topography and information on radio and television broadcast 
stations come from the CIA Factbook, unless otherwise noted.2 Data contained in the tables in this 
Appendix are drawn from the sources indicated.  
OECD Rankings, Households with Broadband Access, 2009 or latest available year
Percentage of all households
OECD Broadband Portal Table 2a
0
10
20
30
40
50
60
70
80
90
100
Korea (*) Iceland Sweden Norway 
Netherlands
Denmark Finland
Luxembourg 
United Kingdom Canada (2008)(*)
Germany
United States
Belgium
Switzerland (2007)
New Zealand (*)
Australia (2008) (*)
Estonia Japan (*) Austria France Slovenia
EU27 Ireland Spain Poland
Hungary
Czech Republic (*)
Portugal
Slovak Republic
Italy
Greece
Turkey (2007) Chile (2006)
Mexico 
Source:  OECD, ICT database and Eurostat, Community Survey on ICT usage in households and by individuals, July 2010.
Generally, data from the EU Community Survey on household use of ICT, which covers EU countries plus Iceland, Norway and 
Turkey, relate to the first quarter of the reference year. 
For Australia: data is based on a financial year, data provided relate to the second half of the reference year and the first half of the 
following year; data was based on a multi-staged area sample of private and non-private dwellings, and covers the civilian 
population only; data includes persons aged 15 years and over except members of the permanent defence forces, certain diplomatic 
personnel of overseas governments customarily excluded from census and estimated population counts, overseas residents in 
Australia, and members of non-Australian defence forces (and their dependants) stationed in Australia.
For Canada: Statistics for 2007 include the territories (Northwest Territories, Yukon Territory and Nunavut). For 2008, statistics 
include the 10 provinces only.
For the Czech Republic, data relate to the fourth quarter of the reference year.
For Japan: Households with Internet access via FTTx, ADSL, cable and fixed wireless broadband.
For Korea: Data also include mobile [broadband] phone access. 
For New Zealand: The information is based on households in private occupied dwellings. Visitor-only dwellings, such as hotels, are 
excluded. 
  
1 See http://www.ihsglobalinsight.com; http://www.telegeography.com.
2 See generally, CIA Factbook, https://www.cia.gov/library/publications/the-world-factbook.
Federal Communications Commission DA 11-732
2
OECD Rankings, Wireless Broadband Subscriptions per 100 inhabitants, June 2010
Source: OECD Broadband Portal Table 1d(2)
OECD wireless broadband subscriptions per 100 inhabitants, June 2010
0
10
20
30
40
50
60
70
80
90
100
Kor
ea
Swe
denJapan
Norw
ay
Pola
nd
Irel
and
Denma
rk
Aust
ralia
Unit
ed Stat
es
Swit
zerland
Luxe
mbo
urg Spain Italy
Icelan
d
Slovak RepublicUnit
ed Kin
gdomFranc
e
Neth
erlandsGerm
any
Finla
nd
Por
tuga
l
CanadaHunga
ry
Belgiu
m
ChileTurkeyMexic
o
Austr
ia
Cze
ch Republic
Countries with partial data
Federal Communications Commission DA 11-732
3
1.  Australia
Regulation:  Australia’s Department of Broadband, Communications and the Digital Economy 
(DBCDE) formulates telecommunications policy.3 Its four broad areas of focus are: (1) transforming the 
structure of telecommunications and enhancing access to digital economy platforms by promoting the 
delivery of fast, affordable and reliable broadband and communications infrastructure across Australia, 
(2) facilitating the digital television transition and enhancing the broadcasting sector, (3) helping all 
Australians realize the benefits of the digital economy, and (4) supporting effective consumer information 
and research and working with industry to encourage industry-driven solutions to specific consumer 
issues, including cybersafety and cybersecurity.4
The Australian Communications and Media Authority (ACMA) is the agency responsible for regulating 
broadcasting, the Internet, radiocommunications and telecommunications.  Among other things, it 
promotes self-regulation and competition in the communications industry, manages access to the 
radiofrequency spectrum and represents Australia’s communications interests internationally.5
The Australian Competition and Consumer Commission (ACCC) promotes competition and fair trade in the 
marketplace, and it regulates national infrastructure services.  Its primary responsibility is to ensure that 
individuals and businesses comply with the government’s competition, fair trading and consumer 
protection laws.6
The ACCC has mandated loop unbundling for Telstra, the incumbent telecommunications company, since 
1999.  Operators can make their own access agreements with Telstra, though the ACCC may intervene if 
there are disputes over pricing arrangements.  Approximately 10 percent of Telstra’s central offices are 
capable of supporting loop unbundling for competitors.7 Over 2,220 of Telstra’s 5,000 exchanges had at 
least one facilities-based competitor, and 245 exchanges had five or more facilities-based competitors.
In April 2009, Australia announced that it would create a new company (majority owned by the 
government) to build a national, wholesale only, open-access, fiber-to-the-premises (FTTP) broadband 
network with a goal of providing, by 2021—when the rollout is complete—broadband services to 93 
percent of all Australians at speeds of 100 Mbps.8 The government plans to invest AU$27.5 billion 
(US$27.2 billion) in equity.9 The seven percent of the population not reached by the extensive fiber 
network will be served by other platforms such as terrestrial wireless or satellite, with speeds of at least 
12 Mbps.  The government conditionally plans to reduce its ownership in the network after the network is 
built.  
In June 2010, Telstra signed an agreement with the National Broadband Network (NBN) to manage the 
deployment and transition to the FTTP infrastructure to be built with public funds.  The agreement also 
gives NBN access to Telstra’s facilities, backhaul services and space in Telstra exchanges.10  
  
3 See DBCDE, http://www.dbcde.gov.au.
4 See DBCDE, Corporate Plan 2011-13, at http://www.dbcde.gov.au/about_us/corporate_plan_2011-13.
5 See ACMA, http://www.acma.gov.au/WEB/STANDARD/pc=ACMA_ROLE_OVIEW.
6 See ACCC, http://www.accc.gov.au/content/index.phtml/itemId/142.
7 See OECD Communications Outlook 2009, at 34 (2009), available at
http://www.oecd.org/document/44/0,3746,en_2649_34225_43435308_1_1_1_1,00.html. 
8 DBCDE, National Broadband Network, http://www.dbcde.gov.au/broadband/national_broadband_network.   
9 Id. 
10 http://www.minister.dbcde.gov.au/media/media_releases/2010/060.
Federal Communications Commission DA 11-732
4
In November 2010, the ACCC issued a statement on the Implementation of the Universal Service Policy 
(USP) for the transition to the NBN environment.11 The policies established under the USP are broader 
than the issues addressed in the earlier Universal Service Obligation (USO), which was limited to 
standard telephone services.  The USP is an important component in the development and implementation 
of universal services in telecommunications.  While the ACCC will not have a direct role in administering 
the USP, it will have responsibility for the regulation of competition and communications infrastructure 
under the Trade Practices Act 1974 (TPA).12
Market and Competition:  The four largest ISPs in Australia are Telstra, SingTel Optus, iiNet, and 
Primus Telecommunications followed by Internode and AAPT.13 At the end of June 2010, Australia had 
9.5 million active Internet subscribers with non-dial up accounting for approximately 92 percent of all 
Internet connections and 71 percent of all subscribers receiving download speeds of 1.5 Mbps or greater.   
Digital subscriber line (DSL) technology accounted for 44 percent of Internet connections.14 This share 
has decreased since December 2008 when DSL represented 63 percent of broadband connections.  Mobile 
wireless connections, the fastest growing Internet access technology, increased to 3.5 million in June 
2010, an increase of 21.7 percent since December 2009.15
Other Media:  The Australian Broadcasting Corporation (ABC) runs multiple national and local radio 
networks and TV stations as well as the Australia Network, the main public broadcaster for the Asia-
Pacific region.  A second large public broadcaster, Special Broadcasting Service (SBS), operates radio 
and TV networks broadcasting in multiple languages.  There are several national commercial TV 
networks, a large number of local commercial TV stations, and hundreds of commercial radio stations.  
Cable and satellite systems also are available. 
  
11 http://www.acma.gov.au/WEB/STANDARD/pc=PC_2451#2.2.
12 ACCC, Implementation of Universal Service Policy for the Transition to the National Broadband Network 
Environment - Discussion Paper (Nov. 2010), available at 
http://www.accc.gov.au/content/index.phtml/itemId/957780.
13 Senator Stephen Conroy, Minister for Broadband, Communications and the Digital Economy, Measures to 
Improve Safety of the Internet for Families, http://www.minister.dbcde.gov.au/media/speeches/2009/075.
14 http://www.abs.gov.au/ausstats/abs@.nsf/mf/8153.0.
15 Id. 
Federal Communications Commission DA 11-732
5
Topography:  Australia occupies an area slightly smaller than the contiguous 48 states of the United 
States.  Australia’s population is concentrated along the eastern and southeastern coasts.  The terrain is 
mostly low plateau with deserts and fertile plain in the southeast.
Fixed Total Fiber Cable DSL Other16
Fixed broadband subs per 
100 inhabitants17 24.1 0.1 4.1 19.3 0.7
Fixed broadband subs (June 
2010)18 5,313,000
% of households with fixed 
broadband access (2008) 19 62.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants20
47.1
Mobile wireless broadband 
subs (June 2010) 21 10,381,000
  
16 “Other” can include broadband over power lines, satellite, which could be fixed or mobile, and terrestrial fixed 
wireless.
17 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
18 Id.
19 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
20 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011). Includes satellite, which could be 
fixed or mobile, and terrestrial fixed wireless, which is generally not a mobile service but is included by the OECD 
in its mobile broadband statistics; does not include mobile-broadband equipped handsets that do not subscribe to a 
data package for a separate fee and did not make an Internet data connection via IP in the previous three months.
21 Id.
Federal Communications Commission DA 11-732
6
2.   Austria
Regulation:  The Austrian Regulatory Authority for Broadcasting and Telecommunications (RTR) 
(Rundfunk und Telekom Regulierungs-RTR) and the Telecom Control Commission (TKK) share 
regulatory oversight of the telecommunications market in Austria.22 The TKK makes determinations of 
significant market power and imposes ex ante remedies as appropriate.  The RTR, which is divided into 
broadcasting and telecommunications sections, provides technical expertise to and handles all 
administrative matters on behalf of the TKK.  As required under European Union (EU) law, Austria 
incorporated the 2002 European regulatory framework for communications into its national 2003 
Telecommunications Act.23
The use of unbundled local loops was mandated under the previous Austrian Telecommunications Act, 
passed in January 1998.  The incumbent, Telekom Austria, is subject to loop unbundling.24 As of 
December 2009, Telekom Austria had well over 280,000 unbundled lines in service.25
The Austrian Broadband Initiative issued in 2003 sets out various recommendations to, among other 
things, promote Austria’s transition to an information and knowledge-based society, develop 
telecommunications infrastructure, and bridge the social and geographical digital divide.26  
Recommendations of the initiative include creating a task-force to help with implementation, promoting 
universal coverage in regions where broadband rollout is not supported by a viable business case, and 
encouraging e-government initiatives and government-supplied content.27 More recently, Austria set a 
goal of having broadband speeds of up to 25 Mbps available to all Austrians by 2013.28
In February 2010, Austria partially deregulated its broadband market after determining that mobile 
broadband should be considered part of the residential broadband market.29  
Market and Competition: There are three main broadband service providers in Austria.  Telekom 
Austria (operating under the “eTel” brand) is the leading provider, followed by UPC Liberty Global Inc. 
(LGI) and Tele2 Austria.  Other broadband providers are TS-Online, Chello (UPC Telekabel), UTA and 
PCCW (wireless).  At the end of 2009, there were approximately 1.88 million fixed broadband lines in 
Austria.  Austria has been one of the leaders in mobile broadband within Europe.  The five major mobile 
broadband providers in Austria had launched 3G service by the end of 2003.  Providers are expecting 
  
22 See RTR, http://www.rtr.at/en/rtr/RTRGmbH; TKK, http://www.rtr.at/en/rtr/OrganeTKK.
23 See RTR, Legal Framework, http://www.rtr.at/en/tk/Recht. 
24 CESInfo, DICE Report, available at http://www.cesifo-
group.de/portal/page/portal/DICE_Content/INFRASTRUCTURE/COMMUNICATION_NETWORKS/Fixed-
line%20Access%20Regulation/Impl-LLU-oecd.pdf.
25 Telegeography GlobalComms Database: Austria (2010) (accessed Nov. 13, 2010), available at
http://www.telegeography.com/research-services/globalcomms-database-service/.
26 See http://www.oecd.org/countrylist/0,3349,en_2649_34223_38711225_1_1_1_1,00.html; see also
http://www.cisco.com/global/EMEA/d__nl__ds/ettx/pdf/day1/2003_06_03_cisco_metro_ethernet.pdf (outlining 
details of the initiative).   
27 Id.  
28 EC Information Society, Broadband Policy Measures: National Broadband Strategies, available at
http://ec.europa.eu/information_society/activities/broadband/policy/index_en.htm#National_broadband_strategies.
29 http://www.analysysmason.com/About-Us/News/Newsletter/Mobile-broadband-has-led-to-deregulation-in-the-
Austrian-broadband-market (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
7
substantial growth in the country’s mobile broadband market, and Austria’s mobile operators are expected 
to be among the first in Europe to launch commercial 4G services.30  
Other Media:  Commercial radio and television broadcasters have been available since the 1990s in 
addition to Austria’s public broadcaster, Österreichischer Rundfunk (ORF).  Cable and satellite television 
are available, as well as German television stations.
Topography: Austria occupies an area slightly smaller than Maine.  Austria’s population is concentrated 
in eastern lowlands because of steep slopes, poor soils and low temperatures elsewhere in the country.  
The terrain in the west and south is mostly mountains (Alps) and mostly flat or gently sloping along the 
eastern and northern margins.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants31 23.3 0.1 6.9 15.9 0.5
Fixed broadband subs (June 
2010)32 1,951,518
% of households with fixed 
broadband access (2009) 33 57.8
Mobile
Mobile wireless broadband 
subs per 100 inhabitants34
17.6
Mobile wireless broadband 
subs (June 2010) 35 1,473,769
  
30 IHS Global Insight, Austria: Telecoms Report (2010) (accessed Mar. 2, 2011).
31 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
32 Id.
33 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
34 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  Austria reported only partial data. 
35 Id.
Federal Communications Commission DA 11-732
8
3.  Belgium
Regulation: National telecommunications goals and policy objectives are set by the Ministère des 
Communications et de l'Infrastructure.  The independent regulator is the Institut Belge des Services 
Postaux et des Télécommunications (BIPT).36  BIPT is the regulatory body responsible for the postal and 
the telecommunications sectors.  With regard to the telecommunications markets, BIPT is responsible for 
promoting competition, ensuring compliance with the regulatory framework, and protecting consumer 
interests.   BIPT is also responsible for managing certain resources, such as the electromagnetic spectrum 
and numbering resources. 
Belgium first mandated local-loop unbundling in October 2000, but alternative operators have historically 
used bitstream access to provision DSL services.  The guidelines for bitstream access are outlined in the 
Belgacom Reference Offer Bitstream Access decision, and those for local-loop unbundling are set forth 
under the Belgacom Reference Unbundled Offer decision.37
Belgium’s broadband strategy, released in mid-2009, includes plans to improve broadband through 
mapping, access regulations, tax relief, relief from rights of way charges, sharing of inside wiring and 
public-private partnerships.38 One of the primary goals of the strategy is to stimulate fiber and cable 
deployment.  The strategy also highlights broadband applications such as intelligent transport systems, 
smart grids, and e-health.  Other recent developments in Belgium include the auction of four 3G licenses 
and the sale of LTE-suitable spectrum.39  
Market and Competition:  The Belgian broadband market ranked in the top 10 EU markets for 
broadband adoption in 2009.  The country’s incumbent wireline operator is Belgacom.  Its competitors 
include telecommunications companies Versatel (KPN) (unbundled loops) and Telenet (cable system).  
Local-loop unbundling is used primarily for the provision of differentiated DSL services.  By the end of 
2008, there were 47,137 fully unbundled lines in Belgium with another 46,680 shared access lines.  
Together, those lines accounted for about three percent of all DSL lines in Belgium and two percent of all 
broadband lines in the country.40  
 
Other Media:  Belgium’s market is a segmented into three major communities (Flemish, French, and 
German-speaking), each of which is responsible for its own broadcast media.  Multiple TV channels exist 
for each community.  Over 90 percent of households are connected to cable and can access broadcasts of 
TV stations from neighboring countries.  Each community has a public radio network that co-exists with 
private broadcasters. 
  
36 See IBPT, http://www.ibpt.be.
37 See BROBA, http://www.belgacomwholesale.be/wholesale/en/jsp/dynamic/product.jsp?dcrName=nws_broba; 
BRUO, http://www.belgacomwholesale.be/wholesale/en/jsp/dynamic/product.jsp?dcrName=nws_bruo.
38 See Quickonomie.be, economy and reform, available at 
http://www.apritel.org/fotos/editor2/Minister_van_Quickenborne.pdf.
39 See BIPT Auction, http://www.auction2011.be (accessed Apr. 1, 2011).
40 BIPT, A Comparative Study by Analysis of Retail Prices for Broadband Internet Connections in Belgium and six 
other European countries (March 2007), available at 
http://bipt.be/en/406/ShowDoc/2265/Communications/A_comparative_study_by_Analysis_of_retail_prices_f.aspx.
Federal Communications Commission DA 11-732
9
Topography:  Belgium occupies an area about the size of Maryland.  Belgium’s terrain consists of flat 
coastal plains in the northwest, central rolling hills, and the rugged mountains of Ardennes Forest in the 
southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants41 30.2 13.2 16.7 0.3 0.0
Fixed broadband subs (June 
2010)42 3,254,811
% of households with fixed 
broadband access (2009) 43 63.4
Mobile
Mobile wireless broadband 
subs per 100 inhabitants44
6.9
Mobile wireless broadband 
subs (June 2010) 45 749,775
  
41 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
42 Id.
43 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
44 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
45 Id. 
Federal Communications Commission DA 11-732
10
4.  Bulgaria
Regulation:  The Ministry of Transport, Information Technology and Communications (MTITC) is 
responsible for formulating state policy for telecommunications.46 The Communications Regulation 
Commission (CRC), an independent agency established in 2002 in accordance with EU 
telecommunications requirements, is responsible for approving licenses, and frequency, technical, market, 
and legal regulation.  The CRC promotes market competition, enforces license conditions, and 
promulgates appropriate consumer protection measures.  Bulgaria adopted its Electronic Communications 
Act in 2007, following its accession to the EU.47
Bulgaria’s National Broadband Strategy for 2010 was approved by its Cabinet in November 2009 and 
will fund high-speed Internet access projects in 26 smaller cities (with about 20,000 residents each).  Half 
of the strategy’s projects will be funded through the government’s Operational Program for Regional 
Development; private-sector partners will fund the other half.  Initially, priority will be given to business 
investment projects in smaller towns and villages.48 The broadband strategy encourages the use of online 
medical, legal and educational services.
Market and Competition:  The Bulgarian Telecommunications Company (BTC, operating as Vivacom) 
is the incumbent wireline carrier and the leading provider in the fixed broadband market.  Competitors 
include CableTel/EuroCom (cable system) and Broadband Cable (via resale of DSL services, local-loop 
unbundling). In addition, alternative last mile infrastructure is provided by fixed wireless and satellite 
operators and Power-line technology (PLT).  Nexcom has offered WiMAX-based broadband since 
January 2007, and currently provides coverage to nearly half of Bulgaria’s population.49 Vestitel, owned 
by national gas company Overgas, has deployed fiber-to-the-home (FTTH) infrastructure along its parent 
company’s gas distribution network in the largest cities, and it plans to begin rolling out service in 2011.50
Other Media:  Bulgaria’s broadcast media consists of four national terrestrial television stations, one 
state-owned and three privately-owned stations.  Many additional television stations are available via 
cable and satellite providers.  National radio is broadcast over three networks with a host of private radio 
stations broadcasting in urban areas.
  
46 See MTICT, http://www.mtitc.government.bg/index.php.
47 See CRC, http://www.crc.bg/index.php?lang=en.
48 See The Sofia Echo, http://sofiaecho.com/2009/11/25/820727_bulgarias-national-broadband-strategy-foresees-
government-funded-Internet-in-smaller-cities; MTITC, 
http://mtitc.government.bg/page.php?category=92&id=3562&seek=broadband.
49 See WiMAX by Nexcom, http://wimax.nexcom.bg/en/thetechnology/description/.
50 See TMCnet Bloggers, http://blog.tmcnet.com/telecom-crm/2009/03/27/moveros-mobility-study-verimatrix-in-
slovenia-vestitel-in-bulgaria-sun.asp.
Federal Communications Commission DA 11-732
11
Topography:  Bulgaria occupies an area slightly larger than Tennessee.  Bulgaria’s terrain is mostly 
made up of mountains with lowlands in the north and southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants51 12.85 Data N/A Data N/A 4.1 Data N/A
Fixed broadband subs 
(2009)52 969,700
% of households with fixed 
broadband access (2009) 53 26
Mobile
Mobile wireless broadband 
subs per 100 inhabitants54
9.0
Mobile wireless broadband 
subs (Q4 2010) 55 655,729
  
51 See ITU, ICT Statistics Database (2009), http://www.itu.int/ITU-D/icteye/Indicators/Indicators.aspx (ITU 
Statistics Database).
52 Id.
53 See eGovernment Factbook (2009), http://www.epractice.eu/en/document/288394.
54 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (available by 
subscription) (High Speed Packet Access (HSPA) connections only).  HSPA, which uses the FDD transmission 
scheme, includes HSDPA (High Speed Downlink Packet Access), HSUPA (High Speed Uplink Packet Access) and 
HSPA Evolved.  
55 Id.
Federal Communications Commission DA 11-732
12
5.  Canada 
Regulation:  Industry Canada, headed by the Minister of Industry, sets telecommunications and radio 
communications policy.  Industry Canada is also responsible for international submarine cable licensing 
as well as spectrum policy and management.56 The Canadian Radio-Television and Telecommunications 
Commission (CRTC) is an independent entity that regulates and supervises the Canadian broadcasting 
and telecommunications systems.  The CRTC operates under the provisions of the Telecommunications 
Act (1991) and the Bell Canada Act (1987), and its mandate is to ensure that the telecommunications 
systems serve the Canadian public.  The CRTC does not regulate cell phone company rates, quality of 
service, or business practices.57 The Competition Bureau, an independent law enforcement agency, is 
responsible for promoting and maintaining fair competition to maintain competitive prices, product 
choice, and quality of service.58
Incumbent operators are required to obtain approval from the regulator for their wholesale and unbundled 
loop rates.  Both the cable and DSL segments are open to third-party access. In 2006, the CRTC 
approved proposed rates for third-party access to leading cable TV systems networks.
The CRTC aims to eventually deregulate all of the telecommunications market in order to increase price 
competition in markets with sufficient competitors.59 In 2008, the CRTC introduced a new framework for 
the deregulation of non-essential wholesale services.  A number of wholesale services, which have been 
identified as non-essential and therefore not mandated, will gradually be deregulated over three to five 
years.  One-third of the wholesale services have been identified to be deregulated by the end of 2012, and 
the remaining services are to be reviewed in 2013.60
Canada’s 2009 budget “provide[d] CAN$225 million [US$199 million] over three years to Industry 
Canada to develop and implement a strategy on extending broadband coverage to as many unserved and 
underserved households in Canada as possible, beginning in 2009-10.”61 As a result, a program entitled 
“Broadband Canada: Connecting Rural Canadians” was launched.  Industry Canada undertook an 
extensive mapping exercise in order to understand the extent to which Canadians remain unserved or 
underserved.  Based on the mapping data, geographic service areas (GSAs) were defined, and on 
September 1, 2009, a competitive call for applications was launched to fund projects in the GSAs.  Over 
570 applications were received and over 90 projects totaling more than CAN$140 (US$127.4) million are 
being funded.  Projects will be funded up to 50 percent of eligible project costs.62
On October 21, 2009 the CRTC issued a framework to be used in evaluating complaints about Internet 
traffic management practices.63 The framework states that ISPs must be transparent about the use of such 
practices.  In addition, economic approaches to traffic management, such as network investment or 
charging consumers based on usage, should be preferred to technical means such as traffic shaping.  
  
56 See Industry Canada, http://www.ic.gc.ca.
57 See CRTC, http://www.crtc.gc.ca/eng/home-accueil.htm.
58 See Competition Bureau, http://competitionbureau.gc.ca/eic/site/cb-bc.nsf/eng/home.
59 IHS Global Insight, Canada: Telecoms Report (2010).
60 Id. 
61 Industry Canada, Summary of Broadband Deployment Initiatives in Canada (Nov. 2010) at 2.
62 Id.; see http://www.ic.gc.ca.
63 CRTC, Telecom Regulatory Policy CRTC 2009-657: Review of the Internet traffic management practices of 
Internet service providers (2009), available at http://www.crtc.gc.ca/eng/archive/2009/2009-657.pdf.
Federal Communications Commission DA 11-732
13
Traffic management practices must address a defined need and must not be unjustly discriminatory.  The 
framework applies only to fixed broadband access and not to wireless access platforms.    
In August 2010, the CRTC required incumbent telephone companies and cable carriers to make their 
Internet access services (aggregated ADSL service and third-party Internet access service) available to 
competitive ISPs at speeds that match their own retail offerings.64 In recognition of the investments that 
telephone companies have made in their networks, the CRTC allows them to charge competitors an 
additional 10 percent mark-up over their costs.65 Cable companies had already been required to provide 
access to alternate ISPs at speeds that match their own retail offerings.66  
Market and Competition:  Competition in broadband is predominantly facilities-based.  The Internet 
access industry consists of approximately 500 companies.  Of these, nine percent are incumbents that own 
the vast majority of the copper twisted pair access links to homes and businesses.  Eighteen percent are 
cable companies; 19 percent are utilities, municipalities, and other providers that mainly provide service 
utilizing dial-up, DSL, fiber, satellite or fixed wireless facilities; and the remaining 54 percent are 
resellers that mainly provide dial-up Internet access service.  The five largest Internet access service 
providers and their affiliates control 76 percent of the retail Internet market.  The incumbent wireline 
operators (excluding their out-of-territory operations) and cable operators hold, respectively, 40 percent 
and 48 percent of the Internet access market.  Providers include cable companies such as Rogers, Cogeco, 
Shaw, and Vidéotron; telecommunications carriers such as Bell Canada, Bell Alliant, Telus, MTS 
Allstream, and Sasktel; and resellers include AOL Canada, 3Web/CIA.com, 295.ca, and Inter.net Canada 
(Uniserve).  Other providers, such as Inukshuk Wireless (joint venture of Bell Canada and Rogers), 
mainly serve the business segment.67
Rogers launched Canada’s first mobile service that enables video calls in April 2007.68 By May 2010, 
Bell Canada’s 3G service was available to over 90 percent of the population.  Canada’s first 4G Long 
Term Evolution (LTE) mobile broadband network is expected to begin operations in late 2011.69
Other Media:  Canada, with two public television broadcasting networks, has about 150 television 
stations.  Each broadcasting network has a large number of network affiliates.  Canadians have access to a 
wide range of stations, including U.S. stations, due to multi-channel satellite and cable systems.  Canada 
has roughly 2,000 licensed radio stations.  They are a mix of public and commercial radio broadcasters. 
The Canadian Broadcasting Corporation (CBC), the public radio broadcaster, operates four radio 
networks, including Radio Canada International and radio services to indigenous populations in the north. 
  
64 http://www.crtc.gc.ca/eng/com100/2010/r100830.htm.
65 Id.
66 Id.
67 IHS Global Insight, Canada: Telecoms Report (2010) (accessed Mar. 2, 2011).
68 Telegeography GlobalComms Database: Canada (2010) (accessed Nov. 13, 2010).
69 Id. 
Federal Communications Commission DA 11-732
14
Topography:  Canada occupies an area somewhat larger than the contiguous 48 states of the United 
States.  Approximately 90 percent of the population is concentrated within 100 miles of the U.S. border.  
The terrain is mostly plains with mountains in the west and lowlands in the southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants70 31.1 0.0 16.9 13.1 1.1
Fixed broadband subs (June 
2010)71 10,495,741
% of households with fixed 
broadband access (2008) 72 66.9
Mobile
Mobile wireless broadband 
subs per 100 inhabitants73
14.25
Mobile wireless broadband 
subs (Q4 2010) 74 4,836,606
  
70 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
71 Id.
72 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).  In even numbered years, Canada 
includes only its 10 provinces in its statistics and excludes its three territories.
73 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only).
74 Id.
Federal Communications Commission DA 11-732
15
6.  Chile
Regulation:  Chile does not have an independent telecommunications regulator.  The Undersecretariat of 
Telecommunications, the Subsecretaria de Telecomunicaciones (SUBTEL), a subcabinet level arm of the 
Ministry of Transportation and Telecommunications (MTT), acts as both policymaker and 
telecommunications regulator.75
Chile was among the first countries in the world to liberalize its telecommunications market, beginning in 
the mid-1970s, under the Pinochet military government.  Chile has an open telecommunications market, 
with competition in local, domestic long distance and international calling.  Under SUBTEL regulations, 
all ISPs must interconnect domestically and provide consistent consumer information on service features 
such as latency rates and packet size for quality of service purposes.  In June 2009, Chile launched an 
online portal that allows consumers to compare offerings of all Internet providers.76
The Chilean government plans to implement a series of reforms over the next few years to improve 
telecommunications in the country, with special emphasis on increasing access to broadband services, 
promoting net neutrality and facilitating service convergence.  In July 2010, Congress approved a Net-
Neutrality Law that guarantees that ISPs cannot interfere with content accessed by Internet users.  
SUBTEL’s implementing regulations were published on March 18, 2011.  In addition to ensuring users 
have access to content without discrimination, the regulations permit ISPs to offer tiered speed service 
levels and pricing.  Previously, Chilean ISPs only offered unlimited access for a flat fee, which allowed a 
small number of heavy users to create network congestion.77
Market and Competition:  Broadband providers in Chile include Telefónica Chile (incumbent), VTR 
(cable), Telefónica del Sur, GTD Manquehue, Entel and CMET Telecomunicaciones.  Telefónica Chile 
holds 44.9 percent of the broadband market as of the end of October 2009, followed by VTR (39.4 
percent), Telefónica del Sur (5.1 percent), and Telmex (5.4 percent), which launched its own WiMAX 
network in 2007.  
Telmex Chile and VTR hold wireless local loop licenses that allow them to offer wireless broadband 
services to the public using WiMAX technology, particularly in remote, underserved areas.  Telmex 
launched services in the capital city of Santiago and 14 other urban centers in March 2007.  In 2008, VTR
began deploying a WiMAX network.  
Telefónica Chile, Entel, and Claro have been offering 3G/3.5G services for a number of years.  4G is 
expected to be deployed commercially in Chile in late 2011/2012. 
Other Media: Chile has a mix of national and local terrestrial television channels, coupled with 
extensive cable television networks.  Television Nacional de Chile (TVN), a state-owned network, is self-
financed through commercial advertising revenues and is not under direct government control.  Overall, 
Chile has a large number of privately-owned television stations and approximately 250 radio stations.
  
75 See SUBTEL, http://www.subtel.cl/prontus_subtel/site/edic/base/port/inicio.html.
76 See http://www.mibandaancha.cl/prontus_bpp/site/edic/base/port/inicio.html.
77 See http://www.bnamericas.com/news/telecommunications/amended-net-neutrality-regulation-calms-critics.
Federal Communications Commission DA 11-732
16
Topography:  Chile occupies an area slightly smaller than twice the size of Montana.  Chile’s terrain 
consists of low coastal mountains, a fertile central valley, and rugged Andes in the east.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants78 10.3 0.0 4.8 5.4 0.1
Fixed broadband subs (June 
2010)79 1,745,835
% of households with fixed 
broadband access (2006) 80 14.8
Mobile
Mobile wireless broadband 
subs per 100 inhabitants81
6.5
Mobile wireless broadband 
subs (June 2010) 82 1,092,267
  
78 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
79 Id.
80 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
81 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011). 
82 Id.  
Federal Communications Commission DA 11-732
17
7.  Cyprus
Regulation:  The Department of Electronic Communications of the Ministry of Communications and 
Works (MCW) oversees spectrum management.83 The Office of the Commissioner of Electronic 
Communications & Postal Regulation, established in 2002, is responsible for the introduction of effective 
competition in the provision of networks and services, and the protection of consumers, especially in 
issues relevant to the price and the quality of the provided services.84
Cyprus requires both unbundled loops and wholesale broadband access.85
Market and Competition:  DSL service is available in most urban and suburban areas and in some rural 
areas.86 Cable service is limited to a few urban locations.  Satellite Internet service is the only broadband 
option in areas not reached by DSL service.87 Broadband competitors include the Cyprus 
Telecommunications Authority (CYTA), a quasi-governmental agency; PrimeTel, the largest private 
telecommunication company in Cyprus; and Cablenet, a cable operator.88 Cytamobile-Vodafone and 
MTN provide 3G mobile broadband service in urban and suburban areas.89
Other Media:  There is a mix of state- and privately-run television and radio services.  The public 
broadcaster operates two television channels and four radio stations.  Also available in Cyprus are six 
private TV broadcasters, satellite and cable television services including telecasts from Greece and 
Turkey, and a number of private radio stations.  In areas administered by Turkish Cypriots, there are two 
public television stations, four public radio stations, and privately-owned TV and radio broadcast stations.
  
83 See MCW, http://www.mcw.gov.cy/mcw/mcw.nsf/index_en/index_en?OpenDocument.
84 See OCECPR, http://www.ocecpr.org.cy/nqcontent.cfm?a_id=767&tt=ocecpr&lang=gr; see also Cyprus 
Government, Office of the Commissioner of Electronic Communications and Postal Regulation, 
http://www.cyprus.gov.cy/portal/portal.nsf/All/6D2934F2A71AAF04C225702A0029F464. 
85
http://ec.europa.eu/information_society/policy/ecomm/doc/implementation_enforcement/annualreports/15threport/c
y.pdf. 
86 http://www.cyprusbroadband.net/cyprus-adsl.html. 
87 http://www.cyprusbroadband.net/.
88 See CYTA, http://www.cyta.com.cy/company_history_en.htm and http://www.cto-
ict.org/index.php?dir=03&sd=50&cid=20011; PrimeTel, http://www.prime-tel.com/Main/main.aspx?id=242; 
Cablenet, http://www.cablenet.com.cy/en/. 
89 http://www.cyprusbroadband.net/3g-mobile-broadband.html. 
Federal Communications Commission DA 11-732
18
Topography:  Cyprus is a little over half the size of Connecticut.  Cyprus’ terrain consists of a central 
plain with mountains to the north and the south, and scattered but significant plains along the southern 
coast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants90 20.21 Data N/A Data N/A 19.0 Data N/A
Fixed broadband subs 
(2009)91 176,000
% of households with fixed 
broadband access Data N/A
Mobile
Mobile wireless broadband 
subs per 100 inhabitants92
12.15
Mobile wireless broadband 
subs (Q4 2010) 93 101,778
  
90 ITU Statistics Database (accessed Dec. 9, 2010).
91 Id.
92 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only).
93 Id.
Federal Communications Commission DA 11-732
19
8.  Czech Republic
Regulation:  The Czech Telecommunication Office (?eský telekomunika?ní ú?ad or ?TÚ)94 is the 
country’s independent regulatory authority, though it is organizationally situated in the Ministry of 
Informatics (MICR). 95 The Telecoms Act of 2000 governs the telecommunications sector, and the Czech 
market was opened to competition in 2001.  
Local-loop liberalization began in 2003; at that time the Czech Republic was required to harmonize its 
telecommunications regime with the 2002 EU telecommunications directives.  Ceiling prices for 
unbundled local loops were modified in 2008.  These ceiling prices are still in effect, and 95 percent of 
local exchanges may offer fully unbundled lines.96 In 2009, Telefónica O2, the incumbent, introduced a 
new model for wholesale DSL, permitting alternative ISPs and their end users to opt out of Telefónica 
O2’s fixed-line telephony offering while subscribing to broadband Internet. 
The Czech Government adopted its “National Broadband Access Policy” in January 2005.  The policy is 
based on the OECD Council’s recommendations on promoting broadband development.  The policy’s 
main goal is to achieve a broadband adoption rate of approximately 50 percent by 2010.  The government 
will also use some of the funds from its sale of the former government-owned operator to develop a 
subsidy scheme for the development of broadband services.97
Market and Competition:  The incumbent operator in the Czech Republic is Telefónica O2.98 Its 
competitors include UPC (cable system operator); Dial Telecom; T-Mobile (loop unbundling, resale and 
alternate facilities); Radiokomunikace (alternate facilities and fixed wireless); and fixed wireless 
operators, Broadnet, a subsidiary of Vodafone, and U:fon.  Mobile broadband services are offered by four 
operators, T-Mobile, Telefónica, Vodafone and U:fon.  There were an estimated 1.5 million 3G 
subscriptions as of the end of 2009.  4G networks are in the planning stages.99
Other Media:  Roughly 130 television broadcasters operate 350 television channels, four of which are 
publicly operated and the remainder privately operated.  Thirteen of the television stations, including the 
four publicly operated stations, have national coverage.  There are also cable and satellite TV subscription 
services available.  About 70 radio broadcasters operate roughly 85 radio stations, 15 of which are 
publicly operated; 16 radio stations provide national coverage with the remainder local or regional.
  
94 See ?TÚ, http://www.ctupraha.cz/. 
95 See MICR, http://www.micr.cz/.     
96 https://cesifo-
group.de/portal/page/portal/DICE_Content/INFRASTRUCTURE/COMMUNICATION_NETWORKS/Fixed-line 
percent20Access percent20Regulation/dev-loc-loop-unbund_0.pdf. 
97 Telegeography GlobalComms Database: Czech Republic (2010) (accessed Nov. 13, 2010).
98 See Telecoms and Technology Forecast, Czech Republic Telecoms: Sub-sector Update (Economic Intelligence 
Unit) (Feb. 6, 2010).
99 Telegeography GlobalComms Database: Czech Republic (2010) (accessed Nov. 13, 2010).
Federal Communications Commission DA 11-732
20
Topography:  The Czech Republic occupies an area slightly smaller than South Carolina.  The terrain in 
Bohemia in the west consists of rolling plains, hills, and plateaus surrounded by low mountains; Moravia 
in the east consists of very hilly country.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants100 20.2 1.5 4.5 7.7 6.5
Fixed broadband subs (June 
2010)101 2,131,900
% of households with fixed 
broadband access (2009) 102 48.9
Mobile
Mobile wireless broadband 
subs per 100 inhabitants103
12.48
Mobile wireless broadband 
subs (Q4 2010) 104 1,265,071
  
100 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
101 Id.
102 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).  
103 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only).
104 Id.
Federal Communications Commission DA 11-732
21
9.  Denmark
Regulation:  The National IT and Telecoms Agency (NITA) is Denmark’s independent regulator.105  
NITA operates under the auspices of the Ministry of Science, Technology and Innovation (MSRI).106  
Danish law ensures that the MSRI cannot intervene in the NITA’s regulatory functions.  A third body –
the Danish Competition Authority (DCA) – is also involved in the regulation of the country's 
telecommunications sector.  The DCA is an autonomous entity under the Ministry of Economic and 
Business Affairs, and promotes fair competition, primarily by administering the Consolidated Act on 
Competitive Conditions and Consumer Interests in the Telecoms Market.107
The incumbent, Telia Denmark, is obligated to offer unbundled loops, sub-loops, and bitstream access.108  
In 2009, the EC approved the Danish regulator’s rules forcing TDC, a cable provider that controls large 
parts of the cable network, to open up its cable broadband network to competitors.109
The existing strategy for the rollout and use of broadband in Denmark is based on the 2001 broadband 
plan called “From Hardware to Content.”  According to the strategic goals outlined in the plan, all Danish 
citizens and business must have access to broadband of at least 512 kbps by the end of 2010.110 This goal 
has been met.111 In June 2010, Denmark announced a new broadband goal of 100 Mbps for all 
households and enterprises by 2020.112 Denmark is pursuing a market-based approach, ensuring that 
regulations are technology-neutral and using e-government services as “drivers” to ensure high demand 
for broadband.
Market and Competition:  The following companies compete in the Danish broadband market:  TDC; 
Cybercity; cable TV provider, Telia Stofa; Fixnet Nordic; Telenor; Telia Denmark; and FTTH providers, 
Dansk Bredband and Energi Midt.  Danske Telecom and ELRO provide WiMAX services.  Alternative 
infrastructure operators include Danske Telecom and Sonofon.  Cable providers include Dansk Kabel TV, 
TDC, and Telia Sofia.  Experts estimate that Denmark’s networks will be ready to support the projected 
demand for 50 Mbps downstream and 10 Mbps upstream speeds in 80 percent of Danish households by 
2013.113 The share of the market served by fiber grew from 4.8 to 6.7 percent in 2009.114
Other Media:  DR (Danish Broadcasting Corporation) is Denmark’s largest electronic media 
enterprise.115 DR is an independent, license-financed public institution.   DR TV operates four channels, 
  
105 See NITA, http://en.itst.dk/.
106 See MSTI, http://en.vtu.dk/.
107 Telegeography GlobalComms Database: Denmark (2010) (accessed Nov. 13, 2010).
108 Id.
109 See NITA, http://en.itst.dk/news/tdcs-cable-tv-network-opened-up-to-competitors. 
110 See NITA, Broadband Mapping 2010 (November 2010), available at 
http://en.itst.dk/statistics/telestatistik/broadband-mapping/broadband-mapping-
2010/Bredbandskortlegning%202010%20english.docx.pdf. 
111 IHS Global Insight, Denmark: Telecoms Report (2010) (accessed Mar. 2, 2011).
112 http://extranet.broadband-
europe.eu/Lists/StrategiesData/Attachments/41/Danish%20broadband%20goal%20June%202010_EN.pdf.
113 http://point-topic.com/content/operatorSource/profiles2/denmark-broadband-overview.htm. 
114 IHS Insight, Denmark: Telecoms Report (2010) (accessed Mar. 2, 2011).
115 See http://www.dr.dk/NR/rdonlyres/B96D837A-CC87-4F49-B7A6-
7B7FE89E1E22/1349984/2009FACTSONDR1.pdf.
Federal Communications Commission DA 11-732
22
and publicly-owned TV2 operates about six channels.  Satellite and cable feed broadcast are available for 
privately-owned stations.  DR Radio operates 4 nationwide FM radio stations, 15 digital audio 
broadcasting stations, and about 15 web-based radio stations; approximately 250 commercial and 
community radio stations are operational.
Topography:  Denmark occupies an area that is slightly less than twice the size of Massachusetts.  About 
one-quarter of Denmark’s population lives in greater Copenhagen.  The terrain consists of low and flat to 
gently rolling plains.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants116 38.1 4.4 10.0 22.3 1.5
Fixed broadband subs (June 
2010)117 2,105,000
% of households with fixed 
broadband access (2009) 118 76.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants119
47.4
Mobile wireless broadband 
subs (June 2010) 120 2,618,000
  
116 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
117 Id.
118 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
119 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
120 Id.  
Federal Communications Commission DA 11-732
23
10.  Estonia 
Regulation:  The Ministry of Economic Affairs and Communications (MEAC) sets communications 
policy.121 The independent regulator is the Technical Surveillance Authority (TJA), a governmental 
organization established in 2008 through the merger of the Communications Board, the Railway 
Inspectorate and the Technical Surveillance Inspectorate.122
In April 2009, the Estonian government announced that it will provide broadband access to all homes and 
businesses in the country by 2015.123 The “EstWin” initiative is projected to create a 4,125 mile fiber 
optic cable network offering speeds of up to 100 Mbps at a cost of 283 million Euros (US$374 million).  
The government, drawing on money from EU structural funds, will pay approximately 25 percent of the 
project, and the country’s major telecommunications companies will pay the remainder.124
Market and Competition:  Strong competition is present only in urban areas, where local cable 
operators compete with the incumbent telecommunications carrier, Elion, in the provision of Internet 
services.  As of the end of 2008, 82 percent of broadband subscribers had service with Elion or cable 
operators Starman and STV.125
Other Media:  Eesti Rahvusringhaaling (ERR) is the publicly-owned broadcaster, and it operates two 
television channels.  National private television channels are expanding service, including a range of 
channels aimed at Russian-speaking viewers.  More than half of Estonian households subscribe to cable 
television services.  ERR operates four radio networks.  The number of private commercial radio stations 
has been increasing locally, regionally and nationally. 
  
121 See MEAC, http://www.mkm.ee/en.
122 See TJA, http://www.tja.ee/?lang=en. 
123 See generally, The Baltic Course, http://www.baltic-course.com/eng/Technology/?doc=20853.
124 See TJA, http://www.tja.ee/?lang=en.
125 See Konkurentsiamet (Estonian Competition Authority) 2008 Annual Report, available at
http://www.konkurentsiamet.ee/public/AnnualReports_/Annual_Report_2008.pdf. 
Federal Communications Commission DA 11-732
24
Topography:  Estonia occupies an area that is slightly smaller than New Hampshire and Vermont 
combined.  The mainland terrain is flat, boggy, and partly wooded, while the south is hilly and the north 
is flat.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants126 22.47 Data N/A Data N/A 10.1 Data N/A
Fixed broadband subs 
(2009)127 301,100
% of households with fixed 
broadband access (2009) 128 62.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants129
3.00
Mobile wireless broadband 
subs (Q4 2010) 130 39,262
  
126 ITU Statistics Database (accessed Dec. 9, 2010).
127 Id.
128 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).  
129 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
130 Id.
Federal Communications Commission DA 11-732
25
11.  Finland
Regulation: The Ministry of Transport and Communications (MINTC)131 sets communications policy, 
and Finland’s independent communications regulator is the Finnish Communications Regulatory 
Authority (FICORA).132 The Finnish telecommunications market was first opened to competition when 
data communication and business networks were liberalized under the Telecommunications Act of 1987.  
The laws governing telecommunications and digital broadcast networks in Finland were converged in 
mid-2002 by broadening the scope of the 1987 Act to include cable TV and digital wireless terrestrial 
broadcasting.133
FICORA has imposed an obligation on operators with significant market power to lease local loops to 
other operators. 
The Finnish government passed legislation in 2009 to make broadband connectivity a fundamental right 
for every person in the country.  And in July 2010, new universal service obligations for 
telecommunications operators took effect, i.e., broadband access became included in basic 
communications services like telephone or postal services.  Thus, a reasonably priced broadband 
connection became every Finnish citizen’s basic right.134 The legislation is part of a commitment from 
the Finnish government to provide universal broadband services, which includes a pledge to make 100 
Mbps broadband access available to all Finnish residents by 2015.135
In 2009, the government allocated spectrum in the 1.8 and the 2.6 GHz bands to three mobile operators, 
which paved the way for the widespread rollout of 4G LTE mobile broadband services.  Sonera became 
the first competitor to offer 4G service at the end of 2010 and DNA and Elisa are expected to offer 4G 
service this year.136
Market and Competition:  Elisa, TeliaSonera, DNA and Finnet are the leading broadband providers in 
Finland.137 Elisa is the market leader with 34 percent of the broadband market as of the end of 2009.138  
TeliaSonera follows closely behind with around 29 percent, while DNA holds 14 percent and Finnet 
holds 13 percent.139 DSL services were introduced by Sonera (now TeliaSonera) in 1998, making Finland 
one of the first countries in the world to have broadband offerings.140 There are 17 cable television 
  
131 See MINTC, http://www.mintc.fi/web/en/home.
132 See FICORA, http://www.ficora.fi/en/index.html. 
133 See Goliath, http://goliath.ecnext.com/coms2/gi_0199-2883809/Finland-s-Broadcast-And-
Telecommunications.html.  The name of “Telecommunications Market Act” was also changed to “Communications 
Market Act” to reflect its new scope.
134  See MINTC, http://www.lvm.fi/web/en/pressreleases/view/1169259. 
135 Id. 
136 IHS Global Insight, Finland: Telecoms Report (2010) (March 22, 2011).
137 See FICORA, Market Review 3/2009: Price level of telecommunications services in Finland 2008 (Nov. 2009) 
(FICORA Market Review Report), available at
http://www.ficora.fi/attachments/ruotsiav/5mnNXXdeL/DOHA_n580363_v3_Market_review_3_2009_-
_Price_level_of_telecommunications_services_in_Finland_2008.pdf.
138 IHS Global Insight, Finland: Telecoms Report (2010) (December 6, 2010).
139 Id.
140 See Point Topic, http://point-topic.com/content/operatorsource/profiles2/finland-broadband-overview.htm. 
Federal Communications Commission DA 11-732
26
companies that offer broadband services in Finland.141 The largest is Welho, which operates from the 
capital, Helsinki.142  
Other Media:  Finland has a mix of publicly-operated television stations, which recently expanded 
services, and privately-operated television stations, the largest of which has introduced several special-
interest pay-TV channels.  Since September 2007, all TV signals have been broadcast digitally, and 
analog broadcasts via cable networks were terminated in February 2008.  With respect to radio, public 
broadcasting maintains a network of 13 national and 25 regional radio stations.  There are also a large 
number of private radio broadcasters. 
Topography:  Finland occupies an area slightly smaller than Montana.  Finland’s population is 
concentrated on a small southwestern coastal plain.  The terrain is mostly low, flat to rolling plains 
interspersed with lakes and low hills. 
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants143 26.9 0.3 4.3 21.8 0.6
Fixed broadband subs (June 
2010)144 1,437,600
% of households with fixed 
broadband access (2009) 145 73.7
Mobile
Mobile wireless broadband 
subs per 100 inhabitants146
22.1
Mobile wireless broadband 
subs (June 2010) 147 1,182,300
  
141 See FICORA,
http://www.ficora.fi/attachments/englantiav/5m4R6KvqC/Broadband_Prices_in_the_Nordic_Countries_2006.pdf. 
142 See FICORA Market Review Report. 
143 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
144 Id.
145 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
146 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
147 Id.  
Federal Communications Commission DA 11-732
27
12.  France
Regulation:  The General Directorate for the Information Technology and Postal Services (DiGITIP), a 
unit of the Ministry of Economy, Industry and Employment (MEIE), is responsible for France’s national 
telecommunications policy.148 Created in November 1998, the DiGITIP proposes and implements 
policies to promote an industrial and competitive environment favorable to France’s communications 
industry, both domestically and internationally.  France’s Autorité de Régulation des Communications 
Electroniques et des Postes (ARCEP) is the independent regulator.149 France’s telecommunications sector 
is governed by the Telecommunications Law of July 9, 2004, relating to electronic communication and 
audiovisual communication services, which amended the 1996 Telecommunications Act and incorporated 
the EU’s 2003 regulatory framework for electronic communications into French national law.
As of July 2009, unbundled loop facilities are available in exchanges covering more than 72 percent of 
the French population. ARCEP has emphasized that operators must resolve quality of service issues, 
including access to lines with technical problems.150 The regulator has mandated access to rights of way, 
poles, ducts, and existing sheaths, and the sharing of the terminal part of fiber networks.151 ARCEP has 
also developed a framework for fiber, which applies symmetric regulation to all operators – whoever is 
first to construct within a building is required to provide shared access to competitors.  In September 
2010, ARCEP published proposals to simplify mobile consumer contracts in an effort to improve 
transparency and competition in the domestic market.152
“Digital France 2012,” adopted in October 2008, sets out France’s proposals for infrastructure 
development and includes a plan to achieve universal broadband access in France by the end of 2012, i.e.,
make available to 100 percent of the population affordable Internet access (less than 35 Euros (US$52) 
per month) at speeds greater than 512 kbps.  This goal would be achieved through the designation of 
“universal broadband providers.”  These providers would be responsible for providing universal access 
and establishing public-private partnerships to increase the rollout of fiber networks.153
Market and Competition:  Competitors in the broadband market include Orange (France Telecom), Iliad 
affiliates Free and Alice, Club Internet, Neuf Cegetel (SFR), and Numericable. Orange, Neuf Cegetel and 
Iliad hold the largest market shares. Orange holds 47 percent of the total broadband market, with Neuf 
Cegetel at 22 percent and Iliad at 19 percent.  Cable has just over five percent of the broadband market.  
Cable still accounts for much of the alternative last-mile infrastructure although Iliad and Neuf Cegetel 
have begun the rollout of fiber.
The three leading broadband providers in France all offer IPTV and have committed to rolling out fixed-
mobile convergence services.  All three companies offer a “box” (Orange’s Livebox, Iliad’s Freebox and 
  
148 See MEIE, http://www.telecom.gouv.fr/accueil.php3. 
149 See ARCEP, http://www.arcep.fr/index.php?id=1&L=1. 
150 See https://www.cesifo-
group.de/portal/page/portal/DICE_Content/INFRASTRUCTURE/COMMUNICATION_NETWORKS/Fixed-line 
percent20Access percent20Regulation/dev-loc-loop-unbund_0.pdf. 
151 ARCEP, ARCEP pleased by operators’ publication of their FTTH technical and pricing reference offers. ARCEP
has published a practical guide on the terms and conditions of fiber rollouts, for property owners, managers and 
joint owners (Feb. 10, 2010),
http://arcep.fr/index.php?id=8571&L=1&tx_gsactualite_pi1[uid]=1251&tx_gsactualite_pi1[annee]=&tx_gsactualite
_pi1[theme]=&tx_gsactualite_pi1[motscle]=&tx_gsactualite_pi1[backID]=26&cHash=31099861b8. 
152 IHS Global Insight, France: Telecoms Report (2010) (November 12, 2010).
153 See http://www.arcep.fr/fileadmin/reprise/communiques/communiques/2009/comnq-nkm-fibre-100709.pdf. 
Federal Communications Commission DA 11-732
28
Neuf Cegetel’s Neuf Box) that customers can use to access broadband, VoIP, and Wi-Fi.  In addition, 
Bouygues Telecom offers a quadruple-play package called “Ideo.”154
In February 2010, the government announced that mobile operators will have to pay a minimum of 120 
million Euros for the last two remaining tranches of 3G spectrum in the 2.1 GHz band. 
Other Media: France has a mix of publicly- and privately-operated television stations.  State-owned 
France Televisions operates four networks, one of which is a network of regional stations.  There are a 
large number of privately-owned regional and local television stations.  The public broadcaster, Radio 
France, operates seven national networks and a series of regional networks.  Radio France Internationale 
(RFI), under the Ministry of Foreign Affairs, is a leading international broadcaster.
Topography:  France occupies an area slightly smaller than the size of Texas.  The terrain consists of 
mostly flat plains or gently rolling hills in the north and west; the remainder is mountainous, especially 
with the Pyrenees in the south, and the Alps in the east.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants155 31.4 0.1 1.6 29.7 0.0
Fixed broadband subs (June 
2010)156 20,257,000
% of households with fixed 
broadband access (2009) 157 57.5
Mobile
Mobile wireless broadband 
subs per 100 inhabitants158
30.0
Mobile wireless broadband 
subs (June 2010) 159 19,358,000
  
154 Le monde, Internet: les fournisseurs d’accès lancent des offers moins chères mais moins riches (Feb. 13, 2010), 
http://www.lemonde.fr/technologies/article/2010/02/12/Internet-les-fournisseurs-d-acces-lancent-des-offres-moins-
cheres-mais-moins-riches_1304840_651865.html; Le monde, Numericable va lancer un forfeit social Internet à 
9,99 euros (Feb. 8, 2010), http://www.lemonde.fr/economie/article/2010/02/08/numericable-va-lancer-un-forfait-
social-Internet-a-9-99-euros_1302930_3234.html.
155 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
156 Id.
157 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
158 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
159 Id.  
Federal Communications Commission DA 11-732
29
13.  Germany
Regulation: Policy-related issues in the telecommunications sector are directed by the Federal Ministry 
of Economics and Technology (BMWi).160 Its mission is to foster “successful economic activity” in 
Germany, and the Ministry plays a key legislative, administrative and coordination role in areas such as 
competition policy and trade issues that affect the German telecommunications sector.  Germany’s 
independent telecommunications regulator is the Federal Network Agency, Bundesnetzagentur 
(BnetzA).161
Agreements for Very high bitrate DSL (VDSL) wholesale access are mainly contractual, with the 
conditions decided between operators and approved by the regulator, rather than by direct guidance from 
the BnetzA.  Commercial negotiations over wholesale access to fiber optic networks failed to achieve 
agreements, however, and the BnetzA set the terms of access in a December 2009 order.  That order 
outlined the technical specifications for installing digital subscriber line access multiplexer (DSLAM) 
equipment in cabinets and fiber-optic cables in cable ducts, as well as the use of Deutsche Telekom’s 
(DT) unlit fiber when lack of space prohibits the sharing of passive infrastructure.  In early February 
2010, Germany’s highest administrative court ruled that DT did not have to give competitors access to 
dark fiber on its VDSL network. However, the court stated (affirming the regulator’s December 2009 
order) that DT did have to give competitors access to its street cabinets and empty pipes. In July 2010,
BnetzA extended the regulation of local-loop unbundling activation and deactivation fees.  The monthly 
fee competitors pay for access to unbundled loops from DT is currently US$14; the regulator is presently 
reviewing local-loop unbundling fees.162
Germany’s Broadband Strategy was released in February 2009.163 The strategy defines two overarching 
targets.  First, gaps in broadband penetration are to be eliminated, and capable broadband, defined as at 
least 1 Mbps, is to be made available nationwide by the end of 2010.  Second, a total of 75 percent of all 
German households are to have Internet access with speeds of at least 50 Mbps by 2014.164 The 
government describes its approach as “incentive-oriented.”165 In the short-term it will focus mainly on 
financial support for local authorities and improving financial options available to companies.  In the 
long-term, it will focus on incentives within the overall EU regulatory framework and provide stimulus 
where it can promote synergies from infrastructure projects.  Specific measures include optimizing shared 
use of existing infrastructure and facilities and compiling a broadband map and a database of construction 
sites.166 The German government has also taken steps to make more spectrum available for mobile 
broadband by freeing up the 900 MHz band for data and reallocating spectrum in the 800 MHz band 
made available as a result of Germany’s digital television transition.167  
  
160 See BMWi, http://www.bmwi.de/English/Navigation/root.html. 
161 See BnetzA, http://www.bundesnetzagentur.de/enid/98affacc9ef0ab056cda24ebc3920710,0/xn.html.    
162 IHS Global Insight, Germany: Telecoms Report (2010) (accessed Mar. 2, 2011).
163 BMWi, The Federal Government’s Broadband Strategy (Feb. 2009) (German Broadband Strategy), available at
http://www.bmwi.de/English/Redaktion/Pdf/broadband-
strategy,property=pdf,bereich=bmwi,sprache=en,rwb=true.pdf. 
164 German Broadband Strategy at 5.
165 Id. at 10.
166 Id. at 11-13.
167 Id. at 13; see also Zukunft Breitband (Germany’s Broadband Portal), Flächendeckende Breitbandversorgung 
forcieren - Aufbau von Hochleistungsnetzen unterstützen, http://www.zukunft-
breitband.de/BBA/Navigation/breitbandstrategie.html.   
Federal Communications Commission DA 11-732
30
In July 2008, the EC approved Germany’s 141 million Euros (US$223 million) state-aid plan to bring 
broadband to rural areas currently without access.  The plan has the potential to help rural areas in the 
former East Germany (GDR), which have lagged behind the rest of the country in terms of broadband 
access.  This is because the GDR information infrastructure was less developed than the western parts of 
Germany.  In November 2008, the EC approved another aid package worth 45 million Euros (US$61 
million) and another 25 million Euros (US$34 million) in January 2009, bringing the total amount of 
subsidy to 211 million Euros (US$286 million).  In 2010, the EC approved a framework proposed by the 
German government, which allows co-financing to support the establishment of high-speed networks in 
areas in which the market is unlikely to create them, as long such co-financing complies with state aid 
rules.168
Market and Competition:  As of 2009, 70 percent of German households had access to broadband 
services with speeds of at least 2 Mbps and 20 percent had access to VDSL technology supporting 
broadband speeds of up to 50 Mbps.169  
The broadband market is dominated by DSL providers, which have nearly 90 percent of the market.  T-
Home, incumbent DT’s fixed line unit, is the market leader, but it faces significant competition from 
companies utilizing resale, bitstream access or unbundled loops from DT.170  Its largest competitors in the 
fixed-line sector are Vodafone, United Internet, and Telefónica, which took over Hansenet.  Cable 
companies, including Kabel Deutschland GmbH, Unitymedia and Kabel BW, have been increasing their 
market share but still serve just over 10 percent of the broadband market.171 A number of regional 
carriers, such as M-Net (Munich) and NetCologne (Cologne) are rolling out fiber optic networks, 
including FTTH.172 There are also a small number of subscribers to broadband satellite services.173
There are four wireless network operators in the German market:  E-Plus, O2 Germany, T-Mobile 
Deutschland, and Vodafone Germany.  Each offers 3G service.  The digital dividend  (i.e., spectrum freed 
up following Germany’s transition to digital television) allowed the BnetzA to auction off a set of new 
radio frequencies, raising 4.4 billion Euros (US$5.5 billion) in proceeds, in the second quarter of 2010.  
The auction was the first allocation of the 800 MHz digital dividend spectrum in the EU.  Providers are 
currently starting to offer 4G services.174
Other Media:  National and regional public broadcasters compete with nearly 400 privately-owned 
national and regional television stations.  More than 90 percent of households have cable or satellite TV, 
while there are hundreds of radio stations broadcasting including multiple national radio networks, 
regional radio networks, and a large number of local radio stations.
  
168 See Federal Ministry of Economics and Technology - Press Release 2010-7-21, 
http://www.bmwi.de/English/Navigation/Press/press-releases,did=356040.html.   
169 German Broadband Strategy at 7.
170 Dialog Consult for the Association of the Telecommunications and Value-Added Service Providers (VATM), 
11th Joint Analysis of the Telecommunications Market 2009: Results of a survey of member companies of the in the 
third quarter of 2009 (Nov. 2009) at 14, available at http://www.vatm.de/uploads/media/10-02-2010.pdf.
171 Id. at 12.  OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).
172 At the end of 2009, the number of subscribers to fiber optic broadband access services was less than 100,000.  Id. 
at 14.
173 As of the end of 2008, there are approximately 30,000 subscribers to satellite-delivered broadband services in 
Germany.  German Broadband Strategy at 7.
174 IHS Global Insight, Germany: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
31
Topography:  Germany occupies an area that is slightly smaller than Montana.  Germany’s terrain 
consists of lowlands in the north, uplands in the center, and Bavarian Alps in the south.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants175 31.3 0.2 3.2 27.9 0.2
Fixed broadband subs (June 
2010)176 25,599,360
% of households with fixed 
broadband access (2009) 177 64.6
Mobile
Mobile wireless broadband 
subs per 100 inhabitants178
23.6
Mobile wireless broadband 
subs (June 2010) 179 19,342,600
  
175 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
176 Id.
177 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
178 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
179 Id.  
Federal Communications Commission DA 11-732
32
14.  Greece
Regulation:  Both the Ministry of Transport and Communications (MTC)180 and the independent 
regulator, Hellenic Telecommunications & Post Commission (EETT),181 are responsible for oversight of 
Greece’s regulatory framework.  In 2006, EETT incorporated the EU’s 2003 regulatory framework for 
electronic communications into Greek law, and imposed new regulations on local loop unbundling. 
In 2005, Greece adopted a national broadband plan titled Digital Strategy 2006-2013.182 The plan’s 
objectives are to use broadband and information and communications technologies (ICT) to enhance 
business productivity and to improve the quality of life for the Greek population, in part through the 
development of e-government optic networks for 75 cities and wireless networks for 120 smaller cities.183  
In February 2009, the Greek government announced a public-private partnership to build a national fiber-
optic network to Athens and 50 other cities (including the islands) with speeds of up to 100 Mbps for 
nearly 650,000 users by the end of 2010 and to be expanded to over two million households over the next 
seven years.184
Market and Competition:  Competitors in the broadband market include OTEnet, Forthnet, and Tellas.  
As of March 2008, 34 percent of OTE’s DSL lines were provided by third-party ISPs.185 Greece has no 
cable broadband networks.  Greece’s Internet sector is less developed than that of its European peers.  At 
the end of September 2008, OTE's total retail and wholesale ADSL customers (which excludes unbundled 
local loops) exceeded 924,000 (up from 892,500 three months previously).186
Greece’s three mobile broadband operators – CosmOTE, Vodafone Greece and WIND Hellas – offer 3G 
services.  Vodafone Greece launched its HSPA+ network in July 2009 in Athens.187
Other Media:  The broadcast media is dominated by the private sector.  There are roughly 150 private 
TV channels and about a dozen of these private channels broadcast at the national or regional level.  Also 
available are three publicly-owned terrestrial TV channels with national coverage, one publicly-owned 
satellite channel, three stations designed for digital terrestrial transmissions, and multi-channel satellite 
and cable TV services.  There are upwards of 1,500 radio stations broadcasting, nearly all of them 
privately-owned.  The state-run broadcaster has seven national stations, two international stations, and 19 
regional stations.
  
180 See MTC, http://www.yme.gr/index.php?getwhat=1&oid=531&id=&tid=531. 
181 See EETT, http://www.eett.gr/opencms/opencms/EETT_EN/index.html. 
182 See Ministry of Economy and Finance, Digital Greece and the Greek Digital Strategy (Jan. 2008), available at
http://www.mnec.gr/export/sites/mnec/en/press_office/DeltiaTypou/Documents/2008-01-
28_FactSheetOnDigitalGreece.pdf.
183 Id. at 6.
184 Nicolae Oaca, Broadband for All Europeans’ to Fight Economic Crisis, IEEE Global Communications 
Newsletter (June 2009) at 2.
185 See European Competitive Telecommunications Association (ECTA), http://www.ectaportal.com/en/. 
186 IHS Global Insight, Greece: Telecoms Report (2010) (accessed Mar. 2, 2011).
187 Id.
Federal Communications Commission DA 11-732
33
Topography:  Greece occupies an area slightly smaller than the size of Alabama.  Greece’s terrain is 
mostly mountainous with ranges extending into the sea as peninsulas or chains of islands.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants188 18.7 0.0 0.0 18.7 0.0
Fixed broadband subs (June 
2010)189 2,107,000
% of households with fixed 
broadband access (2009) 190 33.1
Mobile
Mobile wireless broadband 
subs per 100 inhabitants191
28.34
Mobile wireless broadband 
subs (Q4 2010) 192 3,030,010
  
188 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
189 Id.
190 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).  
191 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only).
192 Id.
Federal Communications Commission DA 11-732
34
15.  Hong Kong
Regulation:  Established in July 1993, the Office of the Telecommunications Authority (OFTA) is Hong 
Kong’s independent regulator for telecommunications.193 OFTA issues telecommunications licenses, 
administers the numbering plan, oversees technical standards and international affairs, manages spectrum, 
and provides technical support in the regulation of broadcasting services.  The Commerce and Economic 
Development Bureau (CEDB) is Hong Kong’s policy-making body for the telecommunications, 
broadcasting, and film industries.194 The CEDB sets information technology goals for Hong Kong, in 
cooperation with the Legislative Council of the government. 
Although Hong Kong has been a part of the People’s Republic of China since 1997, its communications 
market remains more competitive, more market-driven, and less regulated than in other parts of China. 
All sectors of Hong Kong’s telecommunications market have been liberalized, and there are no foreign 
ownership restrictions.
In July 2004, OFTA decided that mandatory local-loop unbundling would end by June 2008.  OFTA 
determined that this decision would promote investment and consumer choice in broadband networks.  
Unbundling is maintained in buildings where it is technically unfeasible or economically unviable for 
competitors to install infrastructure.
The “Digital 21 Strategy,” the blueprint for ICT development in Hong Kong, sets out a vision of building 
on Hong Kong’s position as a “world digital city.”  The strategy was first published in 1998 and is 
updated regularly.  The 2008 edition identified the following five action areas for implementation 
between 2008 and 2010:  (1) facilitating a digital economy, (2) promoting advanced technologies and 
innovation, (3) developing Hong Kong as a hub for technological cooperation and trade, (4) enabling the 
next generation of public services, and (5) building an inclusive, knowledge-based society.195
Market and Competition:  Competitors in the broadband market include PCCW, HKNet, and City 
Telecom (HKBN).  I-Cable provides broadband over its cable system.  HKBN, SmarTone, HKNet and 
other fixed wireless licensees utilize alternative last-mile infrastructure.
By mid-2009, the mobile market in Hong Kong was one of the most competitive in the world and cellular 
penetration was the highest in all of Asia.196 At the end of 2009, Hong Kong had over 3.8 million 3G 
users accounting for approximately 31 percent of the total mobile subscriber base.197
Other Media:  Hong Kong has two commercial terrestrial television networks each with multiple 
stations, and multi-channel satellite and cable TV systems.  There are also three radio networks, one of 
which is government-funded and operates about 15 radio stations.
  
193 See OFTA, http://www.ofta.gov.hk/en/. 
194 See CEDB, http://www.cedb.gov.hk/about/index.htm. 
195 http://info.gov.hk/digital21/eng/index.htm. 
196 Telegeography GlobalComms Database: Hong Kong (2010) (accessed Nov. 13, 2010).
197 IHS Global Insight, Hong Kong: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
35
Topography:  Hong Kong occupies an area six times the size of Washington, DC.  The terrain is hilly to 
mountainous with steep slopes, and lowlands in the north.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants198 29.18 Data N/A Data N/A 15.1 Data N/A
Fixed broadband subs 
(2009)199 2,049,300
% of households with fixed
broadband access (2011) 200 82.9
Mobile
Mobile wireless broadband 
subs per 100 inhabitants201
38.22
Mobile wireless broadband 
subs (Q4 2010) 202 2,861,787
  
198 ITU Statistics Database, accessed Dec. 9, 2010.
199 Id.
200 http://www.ofta.gov.hk/en/datastat/key_stat.html (accessed Apr. 13, 2011).
201 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
202 Id.
Federal Communications Commission DA 11-732
36
16.  Hungary
Regulation:  The NCAH (National Communications Regulatory Authority) was established in 2004 as 
Hungary’s independent regulatory authority.203 The Act LXXXII of 2010 outlines fundamental changes 
in the regulation of the media and mass communication and also in the management and supervision of 
the public service media.  This law merged the two pre-existing broadcasting regulatory bodies, the 
National Communications Authority (NHH) and the National Radio and Television Commission (ORTT), 
into a new converged authority, the National Media and Communications Authority (NMHH).204
The incumbent, Magyar Telekom, has been required to offer unbundling to allow competitors access to its 
network since 2001.  
Hungary adopted a “National Broadband Strategy” in 2005.  Its aim is to facilitate content development 
and the spread of broadband communications in the private and public sectors.205 The government 
recently announced plans to make broadband Internet available to everyone as part of its digital renewal 
action plan.  The plan has four key components:  (1) ensuring equal opportunities to citizens, (2) 
increasing the competitiveness of businesses, (3) creating a modern IT system in public administration, 
and (4) developing the IT infrastructure. 206
Market and Competition:  Competitors in the broadband market include Magyar Telekom (T-Mobile), 
HTCC/Invitel, UPC, Fibernet, and DIGI.  The four largest cable broadband providers are UPC, T-Kabel, 
Fibernet, and DIGI.  Magyar Telekom also offers the Sky DSL service, which provides broadband via 
satellite networks.  As of the end of 2009, approximately 933,000 Hungarians subscribed to mobile 
Internet services, an increase of more than 80 percent over the previous year.207
Other Media:  Hungary has a mixed system of state-supported public service broadcast media and 
private broadcasters.  There are three publicly-owned TV channels, and the two main privately-owned TV 
stations are the major national broadcasters.  Hungary also has a highly developed market for satellite and 
cable TV as well as community radio stations. 
  
203 See NHAH, http://www.hif.hu/index.php?lang=en. 
204 See
http://www.epra.org/comasystem/view/presse/view_presse.pl?datensatz=preV7rd96SvzNUzFoipcbW5tIDnFvkN9BDzarZS
NXoAcHAD1qJ9XS1282137319.
205 See ITU, http://www.itu.int/wsis/stocktaking/plugin/documents.asp?project=1142001674&lang=en. 
206 See http://www.dteurope.com/business-sectors/news/government-pledges-full-broadband-coverage-in-
hungary.html; http://nyitraizsolt.hu/news-in-english/digital-renewal-to-boost-hungarian-creativity/.
207 IHS Global Insight, Hungary: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
37
Topography:  Hungary is slightly smaller than Indiana.  The terrain is mostly flat to rolling plains; there 
are hills and low mountains on the Slovakian border.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants208 19.6 1.8 8.7 8.2 1.0
Fixed broadband subs (June 
2010)209 1,968,049
% of households with fixed 
broadband access (2009) 210 50.9
Mobile
Mobile wireless broadband 
subs per 100 inhabitants211
7.5
Mobile wireless broadband 
subs (June 2010) 212 752,768
  
208 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
209 Id.
210 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
211 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
212 Id.  
Federal Communications Commission DA 11-732
38
17.  Iceland
Regulation:  Iceland’s Post and Telecom Administration (PTA)213 was created in 1997 and is an 
independent body under the direction of the Minister of Communications (MOC).214 The PTA is 
responsible for granting operational licenses for posts and telecommunications, supervising licensees and 
enforcing telecommunications policy and regulations.
The legal framework for electronic communications services is influenced by the EU Directives.  Having 
signed the Agreement on the European Economic Area, Iceland committed to adopt all of the EU 
Directives in the field of electronic communications.  Iceland’s Electronic Communications Act and the 
Act on the PTA, both of which were passed in 2003, implement the major provisions of the EU 
Communications Directive package of 2002.
In 2004, the government released a policy document called “Resources to Serve Everyone:  Policy of the 
Government of Iceland on the Information Society 2004-2007.”215 This national policy document 
included targets for e-government, e-business, education, environment, security, health care and social 
services, including access to a secure, reliable, high-speed network at competitive prices.216
Market and Competition:  Telecommunications infrastructure in Iceland is modern and fully digitized, 
with satellite-earth stations, fiber-optic cables, and an extensive broadband network.  The incumbent 
Siminn and Vodafone Iceland offer broadband via DSL lines.  Mobile phone and broadband penetration 
rates are among the highest in the world, the latter benefiting from extensive DSL and fiber networks.217
Other Media: Iceland has several privately-owned TV stations that broadcast nationally and roughly 
another half-dozen that operate locally.  It also has state-owned TV and radio services.  There are also 
multi-channel cable and satellite TV services.
  
213 See PTA, http://www.pta.is/default.aspx?cat_id=101. 
214 See MOC, http://eng.samgonguraduneyti.is/. 
215 See http://eng.forsaetisraduneyti.is/media/English/IT_Policy2004.pdf. 
216 Id.
217 http://www.ficora.fi/attachments/englantiav/5qfzR8JDE/Telecommunication_markets_in_the_Nordic_
countries.pdf at p. 19.
Federal Communications Commission DA 11-732
39
Topography:  Iceland occupies an area slightly smaller than Kentucky.  Iceland’s terrain is mainly a 
plateau interspersed with mountain peaks and ice fields.  The coast is deeply indented by bays and fiords.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants218 34.0 2.8 0.0 30.5 0.7
Fixed broadband subs (June 
2010)219 108,391
% of households with fixed 
broadband access (2009) 220 86.7
Mobile
Mobile wireless broadband 
subs per 100 inhabitants221
34.3
Mobile wireless broadband 
subs (June 2010) 222 109,459
  
218 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
219 Id.
220 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
221 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
222 Id.  
Federal Communications Commission DA 11-732
40
18.  Ireland
Regulation: Policy is set by the Department of Communications, Energy and Natural Resources 
(DCENR).223 The Irish telecom regulator is the Commission for Communications Regulation 
(ComReg).224 Under the Communications Regulation Act of 2002, ComReg sets prices, allocates 
frequencies, and issues licenses to applicants.  The incumbent, eircom, is required to provide unbundled 
loops and bitstream access to competitive providers.225  
In January of 2009, the Irish government announced its National Broadband Scheme (NBS), with a goal 
of providing mobile and wireless broadband to regions and populations that do not have broadband 
access.226 In December 2008, the government entered into a contract with Three (a Hutchison Whampoa 
company), to be the provider of services to unserved areas.  Residential and business customers within 
those areas can access mobile wireless broadband services with a minimum download speed of 1.2 Mbps 
and a minimum upload speed of 200 Kbps with a contention ratio of 36:1.227 In some areas where service 
will be very costly and difficult to reach, Three will be allowed to offer a satellite product of 1 Mbps 
download and 128 Kbps upload.  As of the end of 2010, the NBS has provided broadband service to 
1,028 areas where coverage was previously seen as insufficient.228 Under the NBS, Ireland has met the 
EU target of having basic broadband available to everyone by 2013 two years early. 
Market and Competition:  Leading broadband competitors in Ireland include eircom, Irish Broadband, 
BT Ireland, and UPC.  In the third quarter of 2009, eircom controlled 35.5 percent of the retail broadband 
market.  The remainder of the market was held by operators of alternative broadband platforms, including 
cable, fixed wireless, fiber, satellite and mobile broadband.229 Eircom and Three Ireland are the largest 
competitors in the mobile broadband market.230  
Other Media:  The publicly-owned broadcaster Radio Telefis Wireann (RTE) operates two television 
stations.  Nearly 75 percent of the population utilizes multi-channel satellite and television services that 
provide access to a wide range of stations.  In addition, the RTE also operates four national radio stations.  
A number of commercial broadcast stations operate at the local, regional, and national levels. 
  
223 See DCENR, http://www.dcenr.gov.ie/ 
224 See ComReg, http://www.odtr.ie/. 
225 See ComReg, http://www.comreg.ie/_fileupload/publications/pres170402.pdf.     
226 See Department of Communications, Energy and Natural Resources, National Broadband Scheme (2008), 
http://www.dcenr.gov.ie/Communications/Communications+Development/National+Broadband+Scheme.htm. 
227 Id.
228 “3 Ireland delivers broadband under National Broadband Scheme,” (Dec. 10, 2010), 
http://www.telecompaper.com/news/3-ireland-delivers-broadband-under-national-broadband-scheme.
229 ComReg, http://www.comreg.ie/_fileupload/publications/ComReg09101.pdf. 
230 Telegeography GlobalComms Database: Ireland (2010) (accessed Nov. 13, 2010).
Federal Communications Commission DA 11-732
41
Topography:  Ireland occupies an area slightly larger than West Virginia.  Over 40 percent of the 
population resides within 62 miles of Dublin.  The terrain consists of mostly level to rolling interior plains 
surrounded by rugged hills and low mountains, with sea cliffs on the west coast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants231 22.3 0.1 3.9 16.3 2.3
Fixed broadband subs (June 
2010)232 996,480
% of households with fixed 
broadband access (2009) 233 53.7
Mobile
Mobile wireless broadband 
subs per 100 inhabitants234
47.9
Mobile wireless broadband 
subs (June 2010) 235 2,139,829
  
231 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
232 Id.
233 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
234 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
235 Id.  
Federal Communications Commission DA 11-732
42
19.  Italy
Regulation:  The Ministry of Economic Development (MED) is responsible for overall supervision of 
Italy’s postal and financial systems, as well as coordination of telecommunications policy.236 The 
Department of Communications, located within the MED, reviews technical regulations related to 
ensuring service quality for ICT users; publishes technical procedures regarding type approval for 
terminal apparatus and the use and connection to telecommunications networks; grants licenses and 
authorizations; and assists with the planning, allocation and management of spectrum.  The Autorità per 
le Garanzie nelle Comunicazioni (AGCOM) is Italy’s independent regulator.237 Its responsibilities 
include determining which companies have significant market power; establishing interconnection 
agreements; setting conditions for access to public networks and granting licenses; ensuring quality of 
service; and supervising numbering policies. 
The take-up of residential broadband services has been largely influenced by two phenomena:  the 
absence of cable television and the relatively limited penetration (approximately 50 percent) of PCs in 
Italian households.  These factors are only partially mitigated by the availability of FTTH and significant 
take-up of mobile broadband, which is growing.
The government’s target is to have broadband available to all Italians by 2012, with 96 percent of the
population receiving speeds of 20 Mbps, and the remainder receiving at least 2 Mbps.238
Market and Competition:  The leading competitors in the Italian broadband market are Telecom Italia, 
FastWeb, Wind, Tiscali, and Vodafone (Tele2).239 Alternative last-mile infrastructure (provided by 
competitive local exchange carriers and fixed wireless and satellite operators), the resale of DSL services, 
local-loop unbundling and WiMAX have all provided competition for the incumbent Telecom Italia.  All 
four Italian mobile providers (Telecom Italia, Wind, Vodafone and 3 Italia) offer 3G mobile broadband 
service, with Telecom Italia and Vodafone having the largest shares of the market.  Italy lags behind its 
neighbors in 4G testing and deployment, with Telecom Italia currently testing its technology and expected 
to be the first to offer service.240
Other Media: There are two main media leaders in Italy:  the publicly-owned Radiotelevisione Italiana 
(RAI), and the privately-owned Mediaset.  Both companies have three national terrestrial stations.  
Additional broadcasts are available through a large number of private stations and Sky Italia, which is a 
satellite TV network.  RAI also operates three AM/FM nationwide radio stations.  Italy has around 1,300 
commercial radio stations.
  
236 See MED, http://www.comunicazioni.it/english_version/english_ministry/. 
237 See AGCOM, http://www2.agcom.it/eng/eng_intro.htm. 
238 National strategies for ultrabroadband infrastructure deployment: Experiences and challenges (April 26-27, 
2010), http://www.wik.org/index.php?id=492&L=1.
239 AGCOM Report, available at http://www2.agcom.it/eng/mkt_analysis/mkt_12_summary.pdf. 
240 IHS Global Insight, Italy: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
43
Topography:  Italy occupies an area slightly larger than Arizona.  The terrain is mostly rugged and 
mountainous with some plains and coastal lowlands.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants241 21.4 0.5 0.0 20.9 0.0
Fixed broadband subs (June 
2010)242 20,883,448
% of households with fixed 
broadband access (2009) 243 39.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants244
47.9
Mobile wireless broadband 
subs (June 2010) 245 2,139,829
  
241 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
242 Id.
243 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
244 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
245 Id.  
Federal Communications Commission DA 11-732
44
20.  Japan
Regulation:  The Ministry of Internal Affairs and Communications (MIC) develops communications 
policy and administers the Telecommunications Business Law and the Radio Wave Law.246 MIC also 
functions as Japan’s regulator, issuing telecommunications and broadcasting licenses, and overseeing 
wire and radio-based services for domestic and international communications.  The Telecommunications 
Business Dispute Resolution Commission (TBDRC) has the power to fine, revoke licenses, and order 
remedies without appeal or challenges from the government.  MIC cannot overrule or challenge TBDRC 
decisions or become involved in its deliberations.  
In September 2006, MIC released its “New Competition Promotion Program 2010,” a roadmap for a 
comprehensive review of its competition rules.  Revised by the MIC in 2008, the plan seeks to promote 
facilities-based competition, review regulations and the calculation method for interconnection charges of 
NTT East/West, promote competition in the mobile communications market, develop environments 
intended for implementation of IP-enabled communication terminals, review tariff policies, review 
universal service system, develop environments intended to ensure network neutrality, strengthen dispute 
settlement functions and enhance consumer protection measures.  The proposed broadband infrastructure 
entailed establishing broadband in all regions that lacked broadband capability and 90 percent ultra-fast 
broadband coverage, as well as providing mobile phone access for 200,000 persons outside the range of 
mobile phone areas by the end of 2010.247 Such proposed broadband infrastructure has made some 
progress but has been delayed in some areas due to lack of interest by investors. 248
Market and Competition:  The broadband market leader is NTT.  Other providers include Jupiter 
Broadband (cable broadband); Japan Telecom, KDDI and PoweredCom (all through alternative last-mile 
infrastructure); SoftbankBB; KDDI; eAccess; Nifty, Opticom; TEPCO and NEC Big Globe.  The focus of 
the broadband market in recent years is on fiber.  The number of FTTH subscribers reached 17.2 million 
in January 2010.  FTTH continues to be the most dominant broadband technology in the country and a 
key driver for overall growth in broadband services.  Additionally, in the competitive mobile broadband 
market, NTT DoCoMo is the leader followed by KDDI and Softbank Mobile.  Japan’s mobile broadband 
providers are currently in the process of upgrading to a 4G technology platform.249
Other Media: Japan’s other media consists of a combination of public, commercial broadcast television 
and radio stations including a total of five national terrestrial television networks that includes one public 
broadcaster.  The large number of radio and television stations furnishes the public with a wide array of 
choices.  Satellite and cable entities provide access to popular international media.
  
246 See MIC, http://www.soumu.go.jp/english/index.html.
247 See Ministry of Internal Affairs and Communication, Efforts toward eliminating the digital divide, 
http://www.soumu.go.jp.cache.yimg.jp/english/ib/index.html. 
248 MIC Communication News, Ministry of Internal Affairs and Communications, Vol. 19, No. 1 (Apr. 25, 2008) 
(accessed Dec. 14, 2010), 
http://www.soumu.go.jp/main_sosiki/joho_tsusin/eng/Releases/NewsLetter/Vol19/Vol19_01/Vol19_01.html. 
249 See IHS Global Insight, Japan: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
45
Topography:  Japan occupies an area slightly smaller than California.  The terrain is mostly rugged and 
mountainous.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants250 26.3 14.6 4.2 7.3 0.2
Fixed broadband subs (June 
2010)251 33,550,555
% of households with fixed 
broadband access (2009) 252 65.2
Mobile
Mobile wireless broadband 
subs per 100 inhabitants253
75.3
Mobile wireless broadband 
subs (June 2010) 254 96,115,074
  
250 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
251 Id.
252 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
253 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
254 Id.  
Federal Communications Commission DA 11-732
46
21.  Korea
Regulation:  The Korea Communications Commission (KCC) was created in February 2008 when the 
government combined the Ministry of Information and Communication (MIC) and Korean Broadcasting 
Commission (KBC) to form the KCC.255 This converged body regulates telecommunications and 
broadcasting.  The Korea Communications Standards Commission (KCSC) is responsible for ensuring 
“public value and fairness” of broadcasting and Internet content.256 The KCSC is a non-governmental, 
independent organization, and its relationship with the rest of the government is unique.  If the KCSC 
decides that government action is necessary to remedy a situation, it must make a recommendation to the 
KCC. 
The KCC administers Korea’s broadband plan – the “u-Korea Master Plan” – which MIC adopted in 
2006.  This plan’s goal was “to achieve the world’s first ubiquitous society” and to have every household, 
regardless of income, be equipped with access to the Internet with a minimum transmission speed of 1 
Mbps.257 In February 2009, Korea announced plans to upgrade the national network to offer 1 Gbps 
service by 2012.  By May 2009, it was announced that the KCC was working with operators to establish a 
new regulatory framework designed to provide for an all-IP era.  In addition, the report called on the KCC 
to improve the openness of fixed line and wireless networks.258
Market and Competition:  KT Corp. is the broadband market leader, followed by SK Broadband and 
LGU+, respectively.  Other competitors in this market are Tbroad and CJHelloVision.
In the earlier stages of broadband development in Korea, providers drove broadband adoption by 
developing interactive games and making them key services.259 Gaming and music downloads are the top 
two most popular broadband services in Korea.260 As for mobile broadband, SK Telecom recently 
announced a new strategy to invest 5.1 trillion by 2014 that will expand networks and meet the soaring 
demand for high-speed data services.  This plan was sparked by the sales boom in smart phones and other 
digital gadgets in the last fiscal year.261
Other Media:  Korea’s television market is comprised of multiple national television networks; two of 
the three largest are publicly operated.  The largest privately-owned television network is Seoul 
Broadcasting Service.  Other types of television subscriptions available to the public are cable and 
satellite.  As for radio, there are multiple publicly- and privately-owned broadcasting networks with 
numerous affiliates, as well as independent local stations.
Topography:  Korea occupies an area slightly larger than Indiana.  The terrain consists of mostly hills 
and mountains with wide coastal plains in the west and the south.
  
255 See KCC, http://www.kcc.go.kr/user/ehpMain.do.   
256 See KCSC, http://www.kocsc.or.kr/eng/01_About/Message.php. 
257 See http://www.ipc.go.kr/ipceng/public/public_view.jsp?num=2480&fn=&req=&pgno=1 (accessed Apr. 1, 
2011).
258 See http://www.ipc.go.kr/servlet/download?pt=/ipceng/public&fn=u-KOREA+Master+Plan+.pdf. 
259 Kim Yongsoo et al., World Bank, Building broadband:  Strategies and policies for the developing world (Jan. 
2010), available at
http://web.worldbank.org/WBSITE/EXTERNAL/TOPICS/EXTINFORMATIONANDCOMMUNICATIONANDT
ECHNOLOGIES/0,,contentMDK:20795271~pagePK:210058~piPK:210062~theSitePK:282823,00.html#2010  
(download from 2010 publications list).
260 Id.
261 IHS Global Insight, South Korea: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
47
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants262 34.4 17.9 10.6 5.9 0.0
Fixed broadband subs (June 
2010)263 16,789,947
% of households with fixed 
broadband access (2009) 264 83.8
Mobile
Mobile wireless broadband 
subs per 100 inhabitants265
95.0
Mobile wireless broadband 
subs (June 2010) 266 46,302,317
  
262 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
263 Id.
264 See KCC.  The data for Korea available in the OECD Broadband Portal Table 2a (95.9%) includes mobile 
broadband access.
265 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
266 Id.  
Federal Communications Commission DA 11-732
48
22.  Latvia
Regulation:  Latvia’s Department of Communications in the Ministry of Transport (MOT) is responsible 
for policy in the communications sector.267 The Public Utilities Regulation Commission (Sabiedrisko 
pakalpojumu regul?šanas komisija or SPRK) was established in 2001 as a unified regulatory body with 
oversight of the telecommunications, energy, railway and postal sectors.268 The SPRK approves tariffs, 
issues licenses and supervises technical regulations and standards.  
There are no fully unbundled local loops in Latvia, and the typical wholesale access offer usually amounts 
to a simple resale agreement in which both the brand and the retail price of the service are controlled by 
the fixed incumbent.  
The “Broadband Network Development Strategy 2006-2012,” adopted in December 2005, uses state and 
EU structural funds (ERDF) to cover up to 35 percent of the total costs for the expansion of high-quality 
broadband network infrastructure in rural areas.269
Market and Competition:  Competitors to the incumbent carrier, Lattelkom, include Telekom Baltija, 
Apollo (Lattelecom), Baltkom, Latnet, Izzi (formerly Telia Multicom), and Vernet.  Cable companies and 
fixed wireless companies serve 43 percent of the total broadband lines and provide infrastructure-based 
competition in some parts of the country.  Lattelecom and Baltkom have both invested in FTTH networks 
in the capital of Riga.
Bite Latvia, another Latvian operator, launched commercial 3G services in 2006 and eventually phased in 
High Speed Downlink Packet Access (HSDPA) technology to the country in 2007.  In 2009, Bite further 
extended its 3G/3.5G service network to several new areas across Latvia, covering 19 towns and cities. 
Bite Latvia and Latvijas Mobilais Telefons (LMT) have planned 4G launches in the near future.270
Other Media:  Latvia has several foreign-owned national and regional commercial TV stations.  Two 
national TV stations are publicly-owned.  Cable and satellite multi-channel TV services with domestic 
and foreign broadcasts are also available.  There is a publicly-owned broadcaster that operates four radio 
networks with dozens of stations available throughout the country.  In addition, a number of private 
broadcasters operate radio stations.
  
267 See MOT, http://www.sam.gov.lv/satmin/content/?cat=134. 
268 See SPRK, http://www.sprk.gov.lv/?setl=2. 
269 See European Union, eGovernment Fact Sheet – Latvia – Strategy (last updated September 2009), available at
http://www.epractice.eu/en/document/288288. 
270 Telegeography GlobalComms Database: Latvia (2010) (accessed Nov. 13, 2010).
Federal Communications Commission DA 11-732
49
Topography:  Latvia occupies an area slightly larger than West Virginia.  The terrain is mostly fertile, 
low-lying plains with some hills in the east.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants271 18.64 Data N/A Data N/A 9.6 Data N/A
Fixed broadband subs 
(2009)272 419,200
% of households with fixed 
broadband access Data N/A
Mobile
Mobile wireless broadband 
subs per 100 inhabitants273
7.21
Mobile wireless broadband 
subs (Q4 2010) 274 161,299
  
271 ITU Statistics Database (accessed Dec. 9, 2010).
272 Id.
273 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
274 Id.
Federal Communications Commission DA 11-732
50
23.  Lithuania
Regulation:  The Information and Communication Technology Department of the Ministry of Transport 
and Communications (MTC) is responsible for making policy in the communications sector.275 The 
independent regulator is the Communications Regulatory Agency (Ryši? Reguliavimo Tarnyba or 
RRT).276 RRT promulgates rules and regulations on interconnection of telecommunications networks, 
pricing and the provision of telecommunications services.
The “Development Strategy of the Broadband Infrastructure of Lithuania for 2005-2010” was published 
on December 31, 2002.  Its goals include ensuring availability of broadband to 98 percent of small and 
medium enterprises by 2010.277 It also established the public company “Placiajuostis Internetas,” a non-
profit organization, to develop rural broadband access and training.278
Market and Competition:  Incumbent TeoLT is the leader in the broadband market, followed by 
Balticum, Infrostruktura, Lithuanian Telecom (Takas), Microlink, Omnitel (TeliaSonera), Penkj
Kontinentai, Tele2, and Vinita.  These entities provide cable broadband, alternative infrastructure (via 
competitive local exchange carriers and satellite operators) and the resale of DSL services.  In 2008, 
Omnitel was the market leader in mobile broadband with 3G operations and 1.991 million subscribers.279
Other Media:  The public broadcaster in Lithuania operates three channels, one of which is a satellite 
channel that was introduced in 2007.  Various privately-owned commercial television broadcasters 
operate national and multiple regional channels.  Other services include a large number of privately-
owned local TV stations, as well as multi-channel cable and satellite TV services.  There are three 
publicly-owned radio networks and a multitude of privately-owned commercial broadcasters, many with 
repeater stations in various regions throughout the country.
  
275 See MTC, http://www.transp.lt/en. 
276 See RRT, http://www.rrt.lt/index.php?-1341057335. 
277 See http://www.transp.lt/Default.aspx?Element=ViewArticle&Lang=EN&TopicID=215&ArticleID=1936. 
278 See http://www.placiajuostis.lt/index.php?option=com_content&task=view&id=4&Itemid=4&lang=en. 
279 IHS Global Insight, Lithuania: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
51
Topography:  Lithuania occupies an area slightly larger than West Virginia.  The terrain consists of 
fertile lowlands and many scattered small lakes.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants280 19.28 Data N/A Data N/A 6.9 Data N/A
Fixed broadband subs 
(2009)281 6,333,800
% of households with fixed 
broadband access Data N/A
Mobile
Mobile wireless broadband 
subs per 100 inhabitants282
6.9
Mobile wireless broadband 
subs (Q4 2010) 283 229,470
  
280 ITU Statistics Database (accessed Dec. 9, 2010).
281 Id.
282 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
283 Id.
Federal Communications Commission DA 11-732
52
24.  Luxembourg
Regulation:  The Ministry of Media and Communications (MMC) is responsible for telecommunications 
policy.284 The Institut Luxembourgeois de Regulation (ILR) regulates the telecommunications sector 
under the guidelines of the EC’s regulatory framework.285
In August 2008, the ILR adopted two important decisions focused on the market for local loop 
unbundling  and the wholesale access market. 286 As a result of these two decisions, P&T Luxembourg, 
the incumbent, has an obligation to give access and interconnection to its local loops as well as 
demonstrate transparency and non-discrimination in its policy and accounting separation.287 P&T 
Luxembourg is legally required to open its broadband networks to competitors via wholesale agreements 
and bitstream access.288  At the end of 2008, there were 12,000 unbundled lines.289
Markert and Competition:  Competitors include Luxembourg Online, P&T Luxembourg, and 
Orange.290 P&T Luxembourg is the largest provider, holding a 68 percent share in the country’s 
broadband market.  Competition to P&T Luxembourg is provided via cable broadband, the resale of DSL 
service, and local-loop unbundling.  Resale is the largest form of alternative broadband access in 
Luxembourg and accounts for 10 percent of the broadband market.  As a result of Luxembourg’s 
liberalized market, two new 3G operators, Astralis and Luxembourg Online have sparked competition in 
the mobile market.291
Other Media:  Luxembourg is home to Europe’s largest privately-owned broadcast media group, RTL 
Group, and its largest satellite operator, Societe Europeenne des Satellites (SES).  The RTL Group operates 
45 television stations and 31 radio stations in Europe.  Domestically, the RTL group operates TV and radio 
networks; other domestic private radio and TV operators as well as French and German stations are available; 
satellite and cable TV services are accessible in Luxembourg.
  
284 See MMC, http://www.mediacom.public.lu/. 
285 See ILR, http://www.ilr.public.lu/. 
286 Telegeography GlobalComms Database: Luxembourg (2010) (accessed Nov. 13, 2010).
287 Id.
288 Id.
289 IHS Global Insight, Luxembourg: Telecoms Report (2010) (accessed Mar. 2, 2011).
290 Id.
291 Id.
Federal Communications Commission DA 11-732
53
Topography:  Luxembourg occupies an area slightly smaller than Rhode Island.  The terrain is mostly 
comprised of gently rolling uplands with broad, shallow valleys.  In the north, there are uplands to 
slightly mountainous terrain and a steep slope down to the Moselle flood plain in the southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants292 34.1 0.2 5.8 28.0 0.1
Fixed broadband subs (June 
2010)293 169,757
% of households with fixed 
broadband access (2009) 294 71.1
Mobile
Mobile wireless broadband 
subs per 100 inhabitants295
42.0
Mobile wireless broadband 
subs (June 2010) 296 209,178
  
292 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
293 Id.
294 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
295 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
296 Id.  
Federal Communications Commission DA 11-732
54
25.  Malta
Regulation:  The Ministry for Infrastructure Transport and Communications (MITC) is responsible for 
making policy in the communications sector.297 The Malta Communications Authority (MCA) was 
established in January 2001, under the Electronic Communications (Regulations) Act of 1997.298 The 
MCA is tasked with regulating electronic communications and e-commerce.  The Act of 1997, as 
amended, includes requirements for interconnection and access to unbundled loops for competitive 
providers.  
Malta’s broadband plan is titled “The Smart Island:  The National ICT Strategy for Malta (2008-2010).” 
Among its goals for 2010 are to (1) connect 80 percent of households to broadband, (2) ensure that 75
percent of the population are “ICT-literate,” and (3) establish 101 high-speed broadband access centers in 
communities throughout Malta.299 The EU’s Eurostat database indicates that in 2010 broadband service 
was available to 69 percent of households in Malta. 
Market and Competition:  Competitors in the broadband market include the incumbent carrier Go, 
Melita Cable, Vodafone and other smaller ISPs.300 Go uses DSL, Melita Cable uses cable facilities, and 
Vodafone uses WiMAX.  All three mobile operators, Vodafone, GO Mobile and Melita Mobile, have 
invested in HSPA technology allowing them to offer mobile broadband service in 2011.301
Other Media:  There is one publicly-owned television station, Television Malta, and several national 
television stations, two of which are owned by political parties.  Italian and British broadcast programs 
are available, while multi-channel cable and satellite TV services are obtainable.  The publicly-owned 
radio broadcaster operates two stations, with roughly 50 commercial radio stations functioning.
  
297 See MITC, https://mitc.gov.mt/?lid=1. 
298 See MCA, http://www.mca.org.mt/. 
299 See The Smart Island, The National ICT Strategy for Malta 2008-2010, http://www.thesmartisland.gov.mt/.  
300 MCA, Wholesale Broadband Access Market: Identification and Analysis of Markets, Determination of Market 
Power and Setting of Remedies, Final Decision (Nov. 14, 2008) at 40, http://www.mca.org.mt/. 
301
http://www.reportbuyer.com/telecoms/country_overviews_telecommunications/malta_telecoms_ip_networks_digita
l_media_forecasts.html. 
Federal Communications Commission DA 11-732
55
Topography:  Malta occupies an area that is slightly less than twice the size of Washington, DC.  The 
terrain is mostly low, rocky flats to dissected plains with many coastal cliffs.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants302 25.89 Data N/A Data N/A 12.9 Data N/A
Fixed broadband subs 
(2009)303 105,800
% of households with fixed 
broadband access Data N/A
Mobile
Mobile wireless broadband 
subs per 100 inhabitants304
10.89
Mobile wireless broadband 
subs (Q4 2010) 305 43,985
  
302 ITU Statistics Database (accessed Dec. 9, 2010).
303 Id.
304 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
305 Id.
Federal Communications Commission DA 11-732
56
26.  Mexico
Regulation: The Ministry of Communications and Transportation (SCT) is the telecommunications 
policymaker in Mexico, and the Federal Telecommunications Commission (COFETEL), and agency 
within SCT, is the telecommunications regulator.  
The SCT publishes regulations governing technical standards, establishes universal service targets, and 
together with COFETEL issues licenses.  COFETEL, in turn, is responsible for planning and promoting 
telecommunications regulations and programs, defining and issuing regulations governing technical 
standards, allocating radio frequencies (in cooperation with SCT), mediating interconnection 
disagreements between operators, implementing price regulations, and establishing and monitoring 
service quality standards.  COFETEL has technical, operative, expense and management independence 
from SCT.
The Federal Competition Commission regulates competition issues, and the National Commission on 
Foreign Investments has the authority to oversee issues regarding foreign-investment involvement in 
industry operators.306  
In June 1995, the government approved the Federal Telecommunications Law (FTL) to replace the 
previous telecommunications regulation, which dated back to 1940.  The FTL established the framework 
to liberalize the sector and open it up to competition.307 In April 2006, the Mexican Congress amended 
the FTL and the Federal Radio and Television Law to allow for the provision of triple-play services and 
designated COFETEL as the entity responsible for the control and supervision of all telecommunications 
services, including broadcasting services.308
In 2007, the Mexican government unveiled its “National Infrastructure Program 2007-2012” to promote 
infrastructure and investment in Mexico.  With respect to the telecommunications sector, the National 
Infrastructure Program aimed to increase:  (1) investment in telecommunications infrastructure to achieve 
greater fixed and mobile coverage, (2) broadband coverage throughout the country, and (3) the number of 
Internet users and other communications services.309  
Market and Competition:  The market is dominated by Telmex, followed by a number of smaller 
competitors, the majority of which operate last-mile fixed-wireless access networks.310 The leading
broadband providers are Telmex, Alestra, Maxcom, Cablevision, Axtel, Cablemás, and Marcatel.  As of 
2009, the majority of subscribers accessed the Internet via DSL, followed by cable, other technologies 
(such as dedicated access, ISDN, satellite), and dial-up.  According to the OECD’s broadband statistics 
for September 2010, Mexico has the most expensive broadband in terms of cost per megabit per second.  
  
306 IHS Global Insight, Mexico: Telecoms Report (2010) (accessed Mar. 2, 2011).
307 Id.
308 Id. 
309 In particular, the Mexican government sought to promote private investment of at least US$25 billion between 
2007 and 2012 as well as increase broadband coverage to 22 users per 100 residents and increase Internet usage to 
70 million users by 2012.
310 Fixed-wireless access networks use wireless technologies instead of copper wire to connect subscribers to the 
telephone network.  See http://www.citi.columbia.edu/wireless/!citi_fw.htm. 
Federal Communications Commission DA 11-732
57
As of September 2009, Telcel (formerly the mobile arm of Telmex and now owned by its sister group 
America Móvil), led the 3G market with an estimated 4.25 million subscribers, while Telefónica Móviles 
Mexico had around one million 3G subscribers.  Iusacell had just 150,000 3G subscribers.311
Other Media: Mexico has a large number of television stations and more than 1,400 radio stations, most 
of which are privately owned.  In the past, the Televisa group had a virtual monopoly in TV broadcasting, 
but new broadcasting groups and foreign satellite and cable operators are now available.
Topography:  Mexico is slightly less than three times the size of Texas.  The terrain is mostly high, 
rugged mountains, low coastal plains, and high plateaus with areas of desert.  
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants312 10.3 0.0 2.2 7.8 0.3
Fixed broadband subs (June 
2010)313 11,091,141
% of households with fixed 
broadband access (2009) 314 13.7
Mobile
Mobile wireless broadband 
subs per 100 inhabitants315
0.5
Mobile wireless broadband 
subs (June 2010) 316 507,069
  
311 Telegeography GlobalComms Database: Mexico (2010) (accessed Nov. 13, 2010).
312 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
313 Id.
314 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
315 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
316 Id.  
Federal Communications Commission DA 11-732
58
27.  Netherlands
Regulation: The Directorate-General for Energy and Telecom (DGET) within the Dutch Ministry of 
Economic Affairs is charged with promoting the availability and use of high-quality electronic 
communication networks throughout the Netherlands.317 Specifically, the DGET promotes the 
organization and operation of markets for energy, electronic communication and postal services, 
including advocating for users’ rights and protection, and, where necessary, encourages the ICT market to 
develop facilities, products and services for electronic communication.  The Independent Post and 
Telecommunications Authority of the Netherlands (OPTA) is the independent regulator.318 OPTA is 
charged with promoting competition in the national telecommunications market.  Every three years it is 
required to conduct analyses of all electronic communications services and examine price variations, the 
breakdown of the market and the opportunities available to new entrants. 
In 2002, the Netherlands created Nederland Breedband Land (NBL), an independent national platform to 
facilitate the “better and smarter” use broadband.319 Specifically, the NBL identifies and collects 
information regarding different broadband projects and bundles it in the Kennisbank or “Knowledge 
Bank.”  The NBL then disseminates this information through seminars, workshops and other events.  In 
addition, the NBL tracks potential “breakthrough” community broadband projects on a sector-by-sector 
basis to support their development as “best practices” and ensure their expansion to the national level.  
The NBL primarily focuses on the following sectors: healthcare, small and mid-range enterprises, 
education, security, government, living and working, and traffic and transport.320 In 2004, the Ministry of 
Economic Affairs released a Broadband Strategy Outline.321
Market and Competition:  The Netherlands has one of the highest broadband penetration rates in 
Europe.322 According to the OECD, in 2009 DSL was available to approximately 100 percent of the 
population.323 Broadband providers in the Netherlands include KPN,324 Orange,325 Tele2-Versatel, UPC, 
BBned, Ziggo and other cable providers.  The broadband sector reflects competition between the 
incumbent telecommunications carrier KPN, cable operators and other competitors utilizing unbundled
local loops.326 Ziggo is the largest fixed broadband provider with over a million broadband customers, 
while KPN is the second largest provider.327 All three Dutch mobile operators – KPN, Vodafone and T-
  
317 See DGET, http://ez.nl/english/Organisation/Organisation_chart/Directorate_General_for_Energy_and_Telecom. 
318 See OPTA, http://www.opta.nl/en/. 
319 See http://www.nederlandbreedbandland.nl/page/.  
320 See http://www.nederlandbreedbandland.nl/page/.  
321 Ministry of Economic Affairs (NL), The Broadband Paper; A question of pace and better utilization (May, 
2004).
322 See ITU, ICT Statistics: Internet Indicators: Subscribers, Users, Broadband Subscribers, http://www.itu.int/ITU-
D/icteye/Reporting/ShowReportFrame.aspx?ReportName=/WTI/InformationTechnologyPublic&RP_intYear=2008
&RP_intLanguageID=1.
323 See http://www.oecd.org/document/36/0,3746,en_2649_33703_38690102_1_1_1_1,00.html. 
324 See KPN website, http://.kpn.com/reporting08/review08/group_at_a_glance/index.html. 
325 T-Mobile acquired Orange Netherlands in 2007.  See http://www.t-
mobile.nl/corporate/htdocs/page/en/home/about_t-mobile/the_company.aspx.  
326 See OPTA, Broadband ULL, http://www.opta.nl/nl/wat-doet-opta/markten/breedband-ull/; see also OPTA, 
Broadband WBT, http://www.opta.nl/nl/wat-doet-opta/markten/breedband-wbt/.
327 KPN, This Is KPN, http://www.kpn.com/corporate/en/Company-profile-1/company-1/This-is-KPN.htm; 
http://www.broadbandtvnews.com/2011/04/26/ziggo-phasing-out-analogue-channels/; 
http://www.bloomberg.com/news/2011-04-05/ziggo-owners-said-to-seek-as-much-as-2-1-billion-in-share-sale.html.
Federal Communications Commission DA 11-732
59
Mobile – have 3G licenses and offer mobile broadband services.  In April 2010, OPTA completed the 
auction of 2.6 GHz frequency licenses, which were awarded to two new entrants, Ziggo 4 and Tele2 
Mobile, in addition to the three incumbents.328
Other Media: The Netherlands has more than 90 percent of households connected to cable or satellite 
TV systems that provide a wide range of domestic and foreign channels.  They also have a public service 
broadcast system that includes multiple broadcasters and a number of commercial TV stations in regional 
and local markets.  There are nearly 600 radio stations operating with a mix of public and private stations 
providing national or regional coverage.
Topography:  Netherlands occupies an area that is slightly less than twice the size of New Jersey.  The 
terrain is mostly coastal lowland and reclaimed land with some hills in the southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants329 37.8 0.9 14.8 22.0 0.0
Fixed broadband subs (June 
2010)330 6,245,000
% of households with fixed 
broadband access (2009) 331 77.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants332
28.9
Mobile wireless broadband 
subs (June 2010) 333 4,777,000
  
328 IHS Global Insight, Netherlands: Telecoms Report (2010) (accessed Mar. 2, 2011).
329 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
330 Id.
331 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
332 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
333 Id.  
Federal Communications Commission DA 11-732
60
28.  New Zealand 
Regulation:  The Ministry of Economic Development is tasked with fostering economic development 
and prosperity for New Zealand.  The Ministry advises the government and implements policy in relation 
to a wide range of economic issues.334 The broadband market is regulated by the Commerce Commission 
of New Zealand, an independent entity which was established under the Commerce Act of 1986.335
In late 2009 and early 2010, New Zealand announced two initiatives both aimed at increasing broadband 
penetration: the Ultra-Fast Broadband Initiative and the Rural Broadband Initiative.  The overall aim of 
the Ultra-Fast Broadband Initiative is to have an ultra-fast broadband network available to 75 percent of 
the population by 2019, and to priority users, such as businesses, schools and health services by 2015.336
The two main objectives for the Rural Broadband Initiative are providing 97 percent of New Zealand 
households and enterprises with broadband services capable of 5 Mbps or more, and connecting 97 
percent of New Zealand schools to ultra-fast broadband at speeds of at least 100 Mbps.337
Market and Competition:  The broadband market is dominated by Telecom New Zealand, which holds 
a 65 percent share.  The leading providers in the broadband market are Orcon, Telecom New Zealand, 
TelstraClear, and Vodafone.  Although Telecom New Zealand has maintained its dominant position, 
competition has begun to increase.  Competition to Telecom New Zealand is provided in several ways:  
cable broadband, alternative last-mile infrastructure, resale of DSL services, and local-loop unbundling. 
In November 2004, Telecom Mobile launched New Zealand’s first 3G service, which was initially 
available only in the main metropolitan areas.  In early 2005, Telecom Mobile introduced a video content 
service, and two months after that, announced that 3G would be rolled out to all major towns and cities in 
the country by the end of the year.338 A new competitor, 2degrees, began offering 3G services in August 
2010.339
Other Media:  The state-owned Television New Zealand operates multiple television networks while the 
state-owned Radio New Zealand operates three radio networks and an external shortwave radio service to 
the South Pacific region.  In addition, New Zealand has a small number of national commercial television 
and radio stations.  A large number of regional commercial television and radio stations as well as 
accessible cable and satellite TV systems are available.
  
334 Ministry of Economic Development, http://www.med.govt.nz/. 
335 Telegeography GlobalComms Database: New Zealand (2010) (accessed Nov. 13, 2010).
336 Ministry of Economic Development, http://www.med.govt.nz/. 
337 Id. 
338 Telegeography GlobalComms Database: New Zealand, 2010.
339 IHS Global Insight, New Zealand: Telecoms Report (2010) (accessed Mar. 22, 2011).
Federal Communications Commission DA 11-732
61
Topography: New Zealand is roughly the size of Colorado.  Nearly 90 percent of New Zealand’s 
population lives in cities.  The country is predominantly mountainous with some large coastal plains.  
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants340 24.5 0.1 1.5 23.0 0.0
Fixed broadband subs (June 
2010)341 1,048,518
% of households with fixed 
broadband access (2006) 342 63.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants343
38.91
Mobile wireless broadband 
subs (Q4 2010) 344 1,645,964
  
340 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
341 Id.
342 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).  
343 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only).
344 Id.
Federal Communications Commission DA 11-732
62
29.  Norway
Regulation:  The Ministry of Transport and Communications (MTC) monitors telecommunications 
markets in Norway.345 The Norwegian Post and Telecommunications Authority (NPT) is an autonomous, 
self-financed administrative agency under the MTC.346 The NPT is responsible for monitoring private 
sector compliance with national telecommunications statutes, regulations and license requirements; 
supervising telecommunications providers; supervising registries; assigning domain names; and 
contingency planning for national network security.
In 2009, NPT adopted voluntary guidelines on network neutrality.347 These guidelines state that Internet 
users are entitled to an Internet connection with a predefined capacity and quality that enables them to use 
content, services, applications and devices of their choice, and that is free of discrimination with regard to 
the type of content, service, or application or based on the sender or receiver address.348
Market and Competition:  Broadband penetration in Norway is one of the highest in Europe.  The 
leading broadband competitors are Telenor and NextGenTel.  Other competitors include Ventelo and 
Get.349 Telenor has just over 50 percent of broadband subscribers.  Mobile broadband has been growing 
rapidly, with subscriptions up nearly 85 percent in 2009.350 NetCom’s Norwegian 4G network is 
expected to have coverage of the country’s four largest cities, with 4G voice services expected in 2011 
after compatible handsets become available.351 Telenor has also announced plans to run trials of its own 
LTE services in Oslo in the summer of 2011.352  
Other Media:  Norway’s state-owned public radio-TV broadcaster operates three nationwide television 
stations, three nationwide radio stations, and 16 regional radio stations.  There are also about a dozen 
privately-owned television stations that broadcast nationally and another 25 local TV stations.  Nearly 75 
percent of households in Norway have access to multi-channel cable or satellite TV systems.  
Additionally, Norway has two privately-owned radio stations that broadcast nationwide and another 240 
stations that operate locally.  
  
345 See MTC, http://www.regjeringen.no/en/dep/sd.html?id=791.
346 See NPT, http://www.npt.no/portal/page/portal/PG_NPT_NO_EN/PAG_NPT_EN_HOME. 
347 NPT, Network neutrality – Guidelines for Internet neutrality (Feb. 24, 2009), available at 
http://www.npt.no/ikbViewer/Content/109604/Guidelines%20for%20network%20neutrality.pdf. 
348 Id.
349 See Ventelo, http://www.ventelo.no/om-ventelo/fakta-om-ventelo/eierforhold.html; Get, 
http://get.no/web/omGet. 
350 IHS Global Insight, Norway: Telecoms Report (2010) (accessed Mar. 2, 2011).
351 Telegeography GlobalComms Database: Norway (2010) (accessed Nov. 13, 2010).
352 Id. 
Federal Communications Commission DA 11-732
63
Topography:  Norway occupies an area slightly larger than New Mexico.  Its terrain consists of mostly 
high plateaus and rugged mountains broken by fertile valleys.  There are also small, scattered plains, and 
the arctic tundra in the north.  The coastline is deeply indented by fjords.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants353 35.0 4.8 9.2 20.2 0.8
Fixed broadband subs (June 
2010)354 1,689,612
% of households with fixed 
broadband access (2009) 355 77.8
Mobile
Mobile wireless broadband 
subs per 100 inhabitants356
72.8
Mobile wireless broadband 
subs (June 2010) 357 3,517,859
  
353 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
354 Id.
355 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
356 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
357 Id.  
Federal Communications Commission DA 11-732
64
30.  Poland
Regulation:  The Ministry of Infrastructure (MOI) is responsible for telecommunications policy.358 In 
January 2006, Poland established the Office of Electronic Communications (UKE), which is the national 
regulatory authority for the telecommunications sector.359 The UKE is charged with analyzing the Polish 
market to confirm that there is no distortion or restriction of competition; ensuring efficient investment in 
infrastructure and promoting innovation; encouraging efficient use and effective management of radio 
frequencies and numbering; supervising orbital and numbering resources; licensing operators; enforcing 
compliance with electromagnetic compatibility requirements; and cooperating with the Polish Office for 
Competition and Consumers Protection in matters related to the enforcement of the rights of citizens 
using postal and telecommunications services. 
In April 2009, the government announced plans to direct 300 million Euros (US$397 million) for 
broadband expansion, with a goal of making broadband available to 90 percent of households and 100 
percent of businesses and public institutions by 2013.
Market and Competition:  Telekomunikacja Polska (TP), the incumbent wireline carrier, holds 
approximately 40 percent of the broadband market, while cable operators account for another 25 percent.  
The leading broadband cable providers include UPC Polska, Vectra, Aster City, and Multimedia Polska.  
Other competitors in the broadband market include resellers Netia, Dialog, Exatel, Tele2, NOM, GTS, 
and Energis; and alternative infrastructure providers Netia and Telefonia Dialog.  Mobile broadband 
subscriptions more than doubled from the end of May 2008 through the end of May 2009.  This growth 
has been partly due to poor fixed broadband infrastructure, giving mobile operators opportunities to 
acquire customers that do not have access to fixed broadband offerings.360 In 2009, Mobyland and 
CenterNet signed a letter of intent to share usage of their 1700/1800 MHz spectrum to roll out 4G LTE 
services.361 Also in 2009, Aero2 won a broadband license covering the entire country, which is also 
suitable for LTE services.362
Other Media:  State-run public television operates two national channels supplemented by 16 regional 
channels and several niche channels.  Other privately-owned entities operate several national TV 
broadcast networks and a number of special interest channels.  A large number of privately-owned 
channels also broadcast locally.  Nearly half of all Polish households are linked to either satellite or cable 
TV systems providing access to foreign television networks.  Poland’s state-run public radio operates five 
national networks and 17 regional radio stations.  In terms of radio, Poland has two privately-owned 
national radio networks, several commercial stations broadcasting to multiple cities, and a large number 
of privately-owned local radio stations.   
  
358 See MOI, http://www.en.mi.gov.pl/. 
359 See UKE, http://www.en.uke.gov.pl/ukeen/index.jsp?place=Menu07&news_cat_id=79&layout=0. 
360 IHS Global Insight, Poland: Telecoms Report (2010) (accessed Mar. 2, 2011).
361 Telegeography GlobalComms Database: Poland (2010) (accessed Nov. 13, 2010).
362 Id. 
Federal Communications Commission DA 11-732
65
Topography:  Poland occupies an area slightly smaller than New Mexico.  Poland’s terrain is mostly flat 
plains with mountains along the southern border. 
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants363 14.9 0.2 4.0 7.6 3.0
Fixed broadband subs (June 
2010)364 5,677,795
% of households with fixed 
broadband access (2009) 365 51.1
Mobile
Mobile wireless broadband 
subs per 100 inhabitants366
48.3
Mobile wireless broadband 
subs (June 2010) 367 18,401,344
  
363 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
364 Id.
365 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
366 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
367 Id.  
Federal Communications Commission DA 11-732
66
31.  Portugal
Regulation:  The Autoridade Nacional de Comunicações (ANACOM) is the independent regulator.368  
ANACOM has authority over postal and electronic communications.  The Competition Authority, an 
independent and financially autonomous institution, is empowered to deal with competition issues in all 
sectors of the economy, including regulated sectors such as electronic communications.  The Ministry of 
Public Works, Transportation and Communications (MOPTC) develops and implements national 
communications policies.  
In April 2006, ANACOM set maximum charges for local-loop unbundling offers, and in June 2007, it 
approved a decision regarding collocation procedures. 
In January 2009, Portugal’s government announced an 800 million Euros (US$1.1 billion) credit line for 
the rollout of next-generation broadband networks in the country.  This is the first step in a 2.18 billion 
Euros (US$3 billion) plan announced in December 2008 to boost the country’s economy.369
Market and Competition:  Portugal’s leading broadband service providers include Portugal Telecom 
(PT), ZON Multimedia/TV Cabo, Sonaecom Group, and Cabovisão.370 In the third quarter of 2009, 
Portugal Telecom held a 46 percent market share, ZON Multimedia/TV Cabo held 33 percent, and 
Sonaecom and Cabovisão each held eight percent.371
According to ANACOM, in March 2010, there were a total of 8.4 million 3G-capable devices active on 
Portuguese mobile networks, or more than 50 percent of the country’s total cellular subscription base.372  
The number of mobile network subscribers who actually use 3G services, such as video telephony, 
broadband-speed data/Internet access/transmission on headsets or computers, mobile TV and other 3G 
applications, was 3.1 million, which represents 19 percent of the national 2G/3G subscriber market.373
Other Media:  In Portugal, the publicly-owned TV broadcaster operates two domestic channels and 
external service channels to Africa.  Overall, there are around 40 domestic television stations.  Also, 
viewers have widespread access to international broadcasters with more than half of all households 
connected to multi-channel cable or satellite TV systems.  There are three publicly-owned national radio 
networks, providing regional and external services.  There are also several privately-owned national radio 
stations and around 300 regional and local commercial radio stations. 
  
368 See ANACOM, http://www.anacom.pt/render.jsp?categoryName=CATEGORY_ROOT&languageId=1. 
369 See ITU, Developments of Next Generation Networks (NGN): Country Case Studies (2009), available at 
http://www.itu.int/ITU-D/treg/Documentation/ITU-NGN09.pdf at 44. 
370 See ANACOM, http://www.anacom.pt/render.jsp?contentId=996599.  
371 IHS Global Insight, Portugal: Telecoms Report (2010) (accessed Oct. 22, 2010).
372 Telegeography GlobalComms Database: Portugal (2010) (accessed Nov. 13, 2010).
373 Id. 
Federal Communications Commission DA 11-732
67
Topography:  Portugal occupies an area slightly smaller than Indiana.  The terrain is mountainous north 
of the Tagus River with rolling plains in the south.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants374 19.1 0.1 7.6 10.5 0.2
Fixed broadband subs (June 
2010)375 2,036,790
% of households with fixed 
broadband access (2009) 376 46.2
Mobile
Mobile wireless broadband 
subs per 100 inhabitants377
21.3
Mobile wireless broadband 
subs (June 2010) 378 2,267,759
  
374 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
375 Id.
376 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
377 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
378 Id.  
Federal Communications Commission DA 11-732
68
32.  Romania
Regulation:  The policymaker is the Ministry of Communications and Information Society.379 The 
Romanian telecommunications regulator is the National Authority for Management and Regulation in 
Communications (ANCOM, previously ANC).380 Romania has harmonized the country’s regulatory 
system to meet the requirements of EU membership.  The most significant items on ANCOM’s current 
agenda include the revision of the tariffs for unbundled local loops and the liberalization of the 900 and 
1800 MHz frequency bands for data services.381
The Ministry of Communications and Information Society issued a broadband strategy in 2009, which 
called for the installation of 500 hotspots all over the country.382 The “Digital Romania - eStrategy for an 
Information Society” initiative and the National Broadband Strategy are the cornerstones of Romania’s 
ICT efforts.383 Among Romania’s priorities are e-government and projects for education, health, culture 
and tourism and a portal to integrate all cultural, tourist, historical, geographical, religious and territorial 
administrative information.384
Market and Competition:  Romtelecom, the incumbent wireline carrier, is the largest competitor in the 
broadband market, holding approximately 25 percent of the market.  Competitors include broadband 
cable providers, UPC Romania, RCS&RDS; resellers, PCNet, EUfonica; and alternative service 
providers, RCS&RDS and Atlas Telecom.  Subscriber growth has been limited in the past due to 
relatively high retail charges and poor network quality.  A number of alternative providers have entered 
the market offering resale DSL access, but this competition has been directed mostly toward the 
enterprise sector, with the residential broadband market being served by the incumbent and cable-based 
operators.  Leading mobile operators Orange and Vodafone have signaled that they plan to expand to the 
fixed sector as the regulatory conditions turn more favorable.385
Three of Romania’s four mobile operators offer 3G services.  At the end of 2008, Romania had the lowest 
mobile broadband penetration rate in the EU.  UMTS 900 is viewed as the solution to deploying 3G to 
less densely populated parts of the market, thereby extending the reach of mobile broadband further.  
Vodafone Romania upgraded to a HSPA+ network in September 2009.386
Other Media:  There is a mixture of public and private TV stations.  The public broadcaster operates 
multiple stations which include roughly 100 private national, regional, and local stations.  More than 75 
percent of households are connected to multi-channel cable or satellite TV systems that provide access to 
Romanian, European, and international stations.  The state-owned public radio broadcaster operates four 
national networks and regional and local stations while there is also more than 100 private radio stations 
broadcasting.
  
379 See Ministry, http://www.mcsi.ro/. 
380 See ANCOM, http://www.anrcti.ro/. 
381 IHS Global Insight, Romania: Telecoms Report (2010) (accessed Mar. 2, 2011).
382 http://www.ecomunitate.ro/en/Internet_gratuit_pentru_zeci_de_mii_de_galateni_(17450).html. 
383 See Connect-World, http://www.connect-world.com/articles/recent_article.php?oid=Europe_II_2009_02; 
http://www.gov.ro/chapter-14-information-society__l2a1048.html.
384 Id.
385 IHS Global Insight, Romania: Telecoms Report (2010) (accessed Mar. 2, 2011).
386 Id.
Federal Communications Commission DA 11-732
69
Topography:  Romania occupies an area slightly smaller than Oregon.  The central Transylvanian Basin 
is separated from the Moldavian Plateau in the east by the Eastern Carpathian Mountains, and it is 
separated from the Walachian Plain in the south by the Transylvanian Alps.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants387 13.16 Data N/A Data N/A 3.7 Data N/A
Fixed broadband subs 
(2009)388 2,800,000
% of households with fixed 
broadband access Data N/A
Mobile
Mobile wireless broadband 
subs per 100 inhabitants389
5.27
Mobile wireless broadband 
subs (Q4 2010) 390 1,149,193
  
387 ITU Statistics Database (accessed Dec. 9, 2010).
388 Id.
389 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
390 Id.
Federal Communications Commission DA 11-732
70
33.  Singapore
Regulation:  The Ministry of Information, Communications and the Arts (MICA) develops policy on 
information technology and telecommunications, as well as the arts.  MICA’s mission is to maintain the 
“Singaporean identity” by developing and promoting the arts, culture, design, media, and information 
technology.
The Infocomm Development Agency (IDA) is Singapore’s telecommunications regulator. Its duties 
include licensing, industry regulation, information security, and developing necessary infrastructure for e-
commerce, multimedia, content hosting, and other services.
In 2006, Singapore launched Intelligent Nation 2015 (iN2015), a 10-year plan for ICT development.  
Under this plan, Singapore is deploying a seamless next-generation broadband network with both a 
wireline and a wireless part.  The wireline portion is an ultra high-speed, all-fiber network that will 
provide access speeds of 1 Gbps and more to all physical addresses in Singapore, and is expected to reach 
95 percent of homes and offices by 2012.  The network will be wireline and wireless, and open to all 
service providers, competing with the two facilities-based operators, SingTel (incumbent and majority 
State-owned) and StarHub.391  
In June 2010, the government launched the Singapore Internet Exchange (SGIX) which provides a neutral 
central point for traffic exchange.392 The exchange will promote more efficient Internet service within 
Singapore and will also further the government’s efforts to make Singapore a regional and international 
hub for Internet traffic.393  
Market and Competition:  SingTel and StarHub are the leading competitors in the broadband market.  
SingTel had 495,000 retail broadband subscribers, representing 51 percent of the country’s broadband 
subscriber base as of the end of 2008.  StarHub, a major cable broadband service provider, had 373,000 
broadband subscribers with a market share of 38 percent.  StarHub is the leading cable broadband service 
and alternative infrastructure service provider, while PacNet is the leading reseller of broadband Internet 
services.  Singapore’s three mobile operators all launched their 3G services in 2005.  As of the end of 
2009, they had a total of 3.16 million 3G subscribers or 46 percent of the total mobile subscriber base in 
the country.394
Other Media:  The state controls broadcast media. MediaCorp, wholly owned by a state investment 
company, operates eight domestic TV stations.  Broadcasts from Malaysian and Indonesian stations are 
also available.  Satellite dishes are banned in Singapore while multi-channel cable TV service is 
accessible.  A total of 18 domestic radio stations broadcasting with MediaCorp are closely linked to the 
ruling party or controlled by the Singapore Armed Forces Reservists Association.
  
391 See http://www.ida.gov.sg/Infrastructure/20060919190208.aspx. 
392 See http://www.straitstimes.com/BreakingNews/Singapore/Story/STIStory_540557.html; http://sgix.sg/en/about/.
393 http://www.igov.gov.sg/NR/rdonlyres/E980473A-76C6-408F-ABB7-
8A042FEE9450/16292/SingaporeInternetExchangeCOSmediafactsheet.pdf.
394 IHS Global Insight, Singapore: Telecoms Report (2010) (Mar. 2, 2011).
Federal Communications Commission DA 11-732
71
Topography:  Singapore occupies an area that is slightly more than 3.5 times the size of Washington, 
D.C.  The terrain consists of lowland and a gently undulating central plateau, which contains a water 
catchment area and nature preserve.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants395 24.71 Data N/A Data N/A 11.3 Data N/A
Fixed broadband subs (June 
2010)396 1,170,700
% of households with fixed 
broadband access (2009)397 80
Mobile
Mobile wireless broadband 
subs per 100 inhabitants398
62.97
Mobile wireless broadband 
subs (Q4 2010) 399 2,348,174
  
395 ITU Statistics Database (accessed Dec. 9, 2010).
396 Id.
397 http://www.ida.gov.sg/Publications/20070822125451.aspx#usageHse2b.
398 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
399 Id.
Federal Communications Commission DA 11-732
72
34.  Slovak Republic
Regulation:  The Ministry of Transport, Posts and Telecommunications (MTPT) sets policy and controls 
the government’s ownership share in Slovak Telecom, the incumbent wireline carrier.400 The 
Telecommunications Regulatory Authority of the Slovak Republic (Telekomunika?ný úrad Slovenskej 
republiky or TÚSR) is the independent regulator.401 The TÚSR implements the Act on Electronic 
Communications, a law that entered into force in January 2004. 
Adopted in 2004, the National Strategy for the Broadband Access to Services of the Information Society 
in the Slovak Republic describes broadband availability in the Slovak Republic and sets a goal to achieve 
the level enjoyed by developed EU nations within five to eight years.  Steps to reach that goal include 
legislative changes, efficient use of spectrum, completing a digital television transition by 2012, and state 
support of broadband access development.402
Market and Competition:  Slovak Telekom controls over 90 percent of the DSL market.  Other 
competitors include broadband cable providers, UPC Slovakia, Satro; resellers, GTS, Dial Telecom, 
Slovanet, and Swan; alternative infrastructure providers, Orange, Slovanet, Slovenkse Elektarne, 
Zeleznicne Telekomunikacie, Slovensky Plynarensky Priemysel, and Swan; and fixed wireless access 
providers, GTS Nextra, Slovanet and Swan.  Three wireless providers hold 3G licenses, Orange Slovakia, 
T-Mobile Slovakia and Telefonica 02 Slovakia.
Other Media:  The Slovak Republic’s state-owned public broadcaster, Slovak Television, operates three 
national TV stations.  There are about 35 privately-owned television broadcast stations operating 
nationally, regionally, and locally.  About 40 percent of households are connected to multi-channel cable 
or satellite TV systems; channels from the Czech Republic and Hungary are widely viewed. There are 
more than 20 privately-owned radio stations in the country.
  
400 See MPTP, http://www.telecom.gov.sk/index/index.php?lang=en. 
401 See TÚSR, http://www.teleoff.gov.sk/index.php?ID=9. 
402 See http://www.telecom.gov.sk/index/index.php?ids=8811&lang=en. 
Federal Communications Commission DA 11-732
73
Topography:  The Slovak Republic occupies an area about twice the size of New Hampshire.  The 
terrain consists of rugged mountains in the central and northern region and lowlands in the south.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants403 15.1 3.4 1.6 7.0 3.0
Fixed broadband subs (June 
2010)404 816,179
% of households with fixed 
broadband access (2009) 405 41.7
Mobile
Mobile wireless broadband 
subs per 100 inhabitants406
32.7
Mobile wireless broadband 
subs (June 2010) 407 1,773,297
  
403 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
404 Id.
405 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
406 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
407 Id.  
Federal Communications Commission DA 11-732
74
35.  Slovenia
Regulation: Under the auspices of the Ministry of Economy, the Post and Electronic Communications 
Agency (Agencija za pošto in elektronske komunikacije or APEK) was created in 2004 as an independent 
regulatory body that regulates electronic communications, postal services and radio and television 
programs.408  
Slovenia’s “Strategy of the Development of Information Society” was initially created in 2007 in 
accordance with the European initiative i2010.409 The strategy was revised in 2008, and commits the 
government of Slovenia to an investment of over 15 million Euros (US$20.4 million) over the next year, 
with a goal of extending broadband (at least 1 Mbps) to households and public institutions by the end of 
2010.410
Market and Competition:  Telekom Slovenije, the incumbent wireline carrier, is the leading competitor 
in the fixed broadband market, holding 46.149.1 percent of the market as of the end of 20098.  T-2, a 
broadband service provider, follows with 19.68.2 percent.  Amis, Telemach, Tusmobil, UPC Ljublijanski 
kabel, and Telemach Rotovz, and Telemach Taborus Telekom,, also fixed broadband service providers, 
all held less than 10 percent of the broadband market.  Broadband competitors include broadband cable 
service providers, UPC Telemach, Ljublijanski, Kabel; alternative infrastructure providers, T-2; and 
reseller, T-2.  At the end of 20098, competitors provided broadband service to 289,400 subscribers using 
xDSL, 104,939 subscribers using cable modem, and 58,200 subscribers with unbundled loops and 14,700 
subscribers with bitstream access.411 Providers used FTTH for 68,44227,100 subscribers using FTTH.
412413 Three carriers offer 3G services Mobiletel, Si.Mobil and T-2.  A fourth carrier, Tusmobil, is 
currently deploying its 3G service.414
Other Media:  Radiotelevizija Slovenija, a public television broadcaster, operates a system of national 
and regional TV stations.  RTV has 35 domestic commercial television stations operating nationally, 
regionally, and locally.  About 60 percent of households are connected to multi-channel cable TV 
systems, and the public radio broadcaster operates three national, four regional stations and more than 75 
regional and local commercial and non-commercial radio stations. 
  
408 See APEK, http://www.apek.si/en/strategy. 
409 Government of the Republic of Slovenia, Development Strategy for the Information Society in the Republic of 
Slovenia si2010 (June 2007), available at
http://mvzt.gov.si/fileadmin/mvzt.gov.si/pageuploads/pdf/informacijska_druzba/61405-
EN_Strategija_razvoja_informacijske_druzbe_v_RS_si2010.pdf.  
410 CESInfo, DICE Report, available at http://www.cesifo-
group.de/portal/page/portal/DICE_Content/INFRASTRUCTURE/COMMUNICATION_NETWORKS/Cable%20N
etworks/dicereport309-db1.pdf. 
411 APEK, Annual Report 2009, , available at
http://www.apek.si/datoteke/File/Porocila/AnnualReport2009_final2.pdf.
412 APEK, Annual Report 2009, 32-42 , available at
http://www.apek.si/datoteke/File/Porocila/AnnualReport2009_final2.pdf.
413 Id.
414 IHS Global Insight, Slovenia: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
75
Topography:  Slovenia occupies an area slightly smaller than New Jersey.  The terrain consists of a short 
coastal strip on the Adriatic, an alpine mountain region adjacent to Italy and Austria, and a mix of 
mountains and valleys with numerous rivers to the east.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants415 23.71 Data N/A Data N/A 14.3 Data N/A
Fixed broadband subs 
(2009)416 479,000
% of households with fixed 
broadband access (2009) 56.1
Mobile
Mobile wireless broadband 
subs per 100 inhabitants417
14.35
Mobile wireless broadband 
subs (Q4 2010) 418 286,962
  
415 ITU Statistics Database (accessed Dec. 9, 2010).
416 Id.
417 Wireless Intelligence, https://www.wirelessintelligence.com/Index.aspx (accessed Apr. 14, 2011) (HSPA 
connections only). 
418 Id.
Federal Communications Commission DA 11-732
76
36.  Spain
Regulation:  The Secretary of Telecommunications in the Ministry of Industry, Tourism and Trade is 
responsible for proposing and carrying out government policy in the areas of telecommunications and 
audiovisual media.  Spain’s telecommunications market is regulated by the Comisión del Mercado de las 
Telecomunicaciones (CMT), Spain’s independent regulator.  CMT was created by statute in 1997 to 
adjudicate disputes between operators and service providers, promote competition in the ICT market, and 
grant licenses to domestic and foreign telecommunications companies.419
In November 2009, the Spanish government announced that Spanish citizens will have a legal right 
starting in 2011 to buy broadband Internet service of at least 1 Mbps at a regulated price wherever they 
live.420 The goals of Spain’s “Avanza Plan” include:  increasing the deployment of Internet services in 
every Spanish community, closing the digital divide in order to improve the quality of life of its citizens, 
and increasing the nation’s public expenditure in ICT to 7 percent of Spain’s GDP by 2010.421
Market and Competition:  The broadband market is dominated by Telefónica.  Other large competitors 
to Telefónica are Ono and France Telecom’s Orange, followed by Vodafone and Jazztel.  Broadband 
services are provided by broadband cable providers, Ono, R Cable, Euskaltel, Telecable; and resellers, 
Orange/Ya.com, Jazztel, Vodafone/Tele2.  Additionally, there are four network operators for the mobile 
broadband market: Telefónica  Móviles; Vodafone; Orange; and TeliaSonera Yoigo.422
Other Media:  There is a blend of both publicly-operated and privately-owned radio and television 
broadcasting stations in Spain.  These media outlets supply the public with a multitude of national, 
regional, local, public, and international channels.  Other available services include satellite and cable 
television.
  
419 CMT, Creation and Objectives, http://www.cmt.es/cmt_ptl_ext/SelectOption.do?nav=presentacion.
420 Reuters, http://www.reuters.com/article/idUSLH61554320091117.
421  OECD, Information on Society Strategies: From Design to Implementation, The Case of Spain’s Plan Avanza,
available at http://www.oecd.org/dataoecd/9/15/44242867.pdf; see also http://www.planavanza.es. 
422 IHS Global Insight, Spain: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
77
Topography:  Spain occupies an area that is slightly more than twice the size of Oregon.  The terrain 
consists of a large plateau surrounded by rugged hills with the Pyrenees in the north.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants423 22.4 0.1 4.1 18.0 0.2
Fixed broadband subs (June 
2010)424 10,336,868
% of households with fixed 
broadband access (2009) 425 51.3
Mobile
Mobile wireless broadband 
subs per 100 inhabitants426
35.3
Mobile wireless broadband 
subs (June 2010) 427 16,290,524
  
423 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
424 Id.
425 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
426 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
427 Id.  
Federal Communications Commission DA 11-732
78
37.  Sweden
Regulation:  The Post-och Telestyrelsen (PTS) is Sweden’s independent telecommunications regulator.  
The agency is responsible for monitoring the electronic communications and postal sectors and works on 
consumer and competition issues, efficient utilization of resources and secure communications.428
Organizationally, it falls within the Ministry of Enterprise, Energy and Communications (MEEC),429
which is also responsible for the government’s stake in TeliaSonera, the incumbent fixed telephone 
operator.  Under the national telecommunications law, however, the MEEC is barred from any 
involvement with or direct management of the incumbent operator.  Further, the Swedish Constitution 
safeguards the autonomy and independence of PTS by prohibiting any interference by Ministries in the 
day-to-day activities of PTS, which is governed by a nine-member Board of Directors appointed by the 
Government, and headed by a Director-General.   
Sweden published its “Broadband Strategy for Sweden” in November 2009.430 Sweden’s goal is for 40 
percent of all households and businesses to have access to broadband at a minimum speed of 100 Mbps 
by 2015 and for 90 percent to have access to that speed by 2020.  In August 2010, the Swedish 
Government announced its plans to divest its remaining 37.3 percent stake in TeliaSonera worth an 
estimated 88 billion kronor (US$13 billion).431 Speculation that the sale would be blocked by Social 
Democrats who oppose the sale and could overturn mandates to privatize the incumbent operator proved 
valid when, in March 2011, the Swedish Parliament voted to halt the sale.432  
Market and Competition:  TeliaSonera is the leading competitor in the broadband market, holding 
nearly 40 percent of the market share in 2010.  Other competitors include Telenor Sweden, Com hem 
(cable modem), Tele2, and other players. 433
Mobile broadband is set to be a dominant driver of growth in Sweden as a result of the rollout of 4G 
services and users abandoning fixed line connections.  TeliaSonera announced its new 4G Long Term 
Evolution (LTE) network at the end of 2009 and was one of the first operators in the world to roll out 4G 
services.434
Other Media:  Sweden’s publicly-owned television broadcaster operates two terrestrial networks and 
regional stations.  There are multiple privately-owned television broadcasters operating nationally, 
regionally, and locally.  In addition, there are about 50 local TV stations in Sweden, and viewers also 
have access to pan-Nordic and international broadcasters through multi-channel cable and satellite TV 
systems.  The publicly-owned radio broadcaster operates three national stations and a network of 25 
regional channels.  There are approximately 100 privately-owned local radio stations and an estimated 
900 community and neighborhood radio stations that broadcast intermittently.
  
428 IHS Global Insight, Sweden: Telecoms Report (2010) (accessed Dec. 16, 2010); See PTS, http://www.pts.se/en-
gb/.
429 See MEEC, http://www.sweden.gov.se/sb/d/2067. 
430 See http://www.sweden.gov.se/sb/d/2025/a/134980. 
431 Communications Direct news and information service, 
https://www.communicationsdirectnews.com/do.php/140/41748?199 (accessed Dec.16, 2010).   See also “Swedish 
Government Reveals Plans to Cut TeliaSonera Stake,” Information Policy, available at http://www.i-
policy.org/2010/08/swedish-government-reveals-plans-to-cut-teliasonera-stake.html.
432 Bloomberg Businessweek, Swedish lawmakers halt sale of state companies, (March 16, 2011), 
http://www.businessweek.com/ap/financialnews/D9M0ERRG3.htm. 
433 Telegeography GlobalComms Database: Switzerland (2010) (accessed Dec. 16, 2010).
434 IHS Global Insight, Sweden: Telecoms Report (2010) (accessed Mar. 2, 2011).
Federal Communications Commission DA 11-732
79
Topography:  Sweden occupies an area that is slightly larger than California.  The terrain is mostly flat 
or gently rolling lowlands with mountains in the west.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants435 31.8 7.8 6.4 17.5 0.2
Fixed broadband subs (June 
2010)436 2,972,866
% of households with fixed 
broadband access (2009) 437 79.5
Mobile
Mobile wireless broadband 
subs per 100 inhabitants438
75.6
Mobile wireless broadband 
subs (June 2010) 439 7,060,837
  
435 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
436 Id.
437 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
438 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
439 Id.  
Federal Communications Commission DA 11-732
80
38.  Switzerland
Regulation: The Federal Communications Commission (ComCom) is Switzerland’s independent 
regulatory authority for the telecommunications market.  ComCom was established by the Law on 
Telecommunications in 1997 and is not subject to any Federal Council or Department directives.  It is 
independent of the administrative authorities and has its own secretariat.  ComCom’s duties include 
informing the public of its activities through public statements and producing a yearly report for the 
Federal Council.  ComCom also plays an influential role in shaping the policies of the Swiss Ministry and 
the Federal Office of Communications (OFCOM), especially in regards to broadband deployment.  
Examples of other activities carried out by ComCom include granting licenses for the use of 
radiocommunications frequencies, awarding universal service licenses, approving national numbering 
plans, and fixing the terms of application of number portability and carrier selection.  ComCom instructs 
OFCOM to prepare its business and implement its decisions.440  
OFCOM’s duties include handling policy questions related to telecommunications and broadcasting in 
regards to radio and television.  It prepares decisions on these issues for the Federal Council, the Swiss 
Federal Department for the Environment, Transport, Energy, and Communications (DETEC), and 
ComCom.441 OFCOM is generally responsible for the implementation and the day-to-day regulation of 
telecommunications and broadcasting.  Although Switzerland is not part of the EU, ComCom endeavors 
to keep the Swiss regulatory regime in line with the EU’s telecommunications policies.442
Market and Competition: The leading players in the broadband market are Swisscom, Sunrise, and 
Cablecom.  Swisscom is the incumbent and leading telecommunications operator in Switzerland.  
Competition in the broadband Internet market is provided by cable broadband; alternative last-mile 
infrastructure provided by CLECs, fixed wireless, and satellite operators; resale of DSL services; and 
local loop unbundling.443
Swisscom was the first operator to offer commercial 3G services in 2004, with the launch of its mobile 
datacard product for laptop users.  By the end of 2009, Swisscom had extended 3G/3.5G coverage to 
nearly 90 percent of Switzerland.  It also plans to launch 4G coverage by 2011.444
Other Media:  The Swiss Broadcasting Corporation, the publicly-owned radio and television 
broadcaster, operates seven national television networks total; three broadcasting in German, two in 
Italian, and two in French.  There are a number of private commercial stations broadcasting regionally 
and locally.  Also, television broadcasts from stations in Germany, Italy, and France are widely accessed 
using multi-channel cable and satellite TV services.  The Swiss Broadcasting Corporation also operates 
18 radio stations that provide national and local coverage.
  
440 Federal Communications Commission (ComCom), http://www.comcom.admin.ch/index.html?lang=en.   
441 Id. 
442 IHS Global Insight, Switzerland: Telecoms Report (2010) (accessed Mar. 2, 2011).
443 Id. 
444 Telegeography GlobalComms Database: Switzerland (2010) (accessed Nov. 13, 2010).
Federal Communications Commission DA 11-732
81
Topography: Switzerland is slightly less than twice the size of New Jersey.  The terrain is mostly 
mountainous with a central plateau of rolling hills, plains, and large lakes.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants445 37.1 0.4 10.4 25.9 0.4
Fixed broadband subs (June 
2010)446 2,987,830
% of households with fixed 
broadband access (2007) 447 63.0
Mobile
Mobile wireless broadband 
subs per 100 inhabitants448
43.2
Mobile wireless broadband 
subs (June 2010) 449 3,373,000
  
445 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
446 Id.
447 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
448 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
449 Id.  
Federal Communications Commission DA 11-732
82
39.  Turkey
Regulation: The Telecommunications Authority (TK) is the independent regulatory authority for the 
telecommunications sector created in 2000 with financial and administrative autonomy.  TK’s decision-
making body is the Telecommunications Board, consisting of five members, including a president, 
appointed for a five-year term.  The main purpose of TK is to ensure complete liberalization in the 
telecommunications sector.  In 2001, the scope of TK’s power was expanded by giving it licensing 
powers.  TK’s main responsibilities include the management and supervision of frequencies, granting 
licenses, tariff and interconnection regulation, and the supervision of the law’s implementation, with the 
ability to launch inquiries and impose penalties.450
Market and Competition:  The leading operators in Turkey providing broadband services are TTnet, 
Superonline, Koc.net, and Eser Telekom.  Turk Telekom, which owns TTnet, provides ADSL services 
directly to consumers, while also allowing private ISPs to resell the service to end-users.  Superonline, a 
private company, holds over 40 percent of the ISP market. 451 The fixed telephone market is dominated 
by Turk Telecom with 91 percent of revenue from telephony services.  Turk Telecom provides landline, 
mobile, and Internet services.452
In September 2010, there were 61.9 million mobile subscribers in Turkey, an 85 percent penetration rate.  
Turkcell, Vodafone, and Avea lead the mobile telephony market.  All three won 3G licenses in December 
2008 and launched 3G services at the end of July 2009.  At the end of 2010, there were 1,158,866 mobile 
broadband subscribers and 16.6 million customers on 3G networks.453
Other Media:  Turkish Radio and Television Corporation, the national public broadcaster, operates 
multiple TV and radio networks and stations.  Turkey has multiple privately-owned national television 
stations and nearly 300 private regional and local television stations.  In terms of radio, there are more 
than 1,000 private radio broadcast stations.
  
450 IHS Global Insight, Turkey: Telecoms Report (2010) (accessed Mar. 2, 2011).
451 Id. 
452 Turkey Broadband Overview, http://point-topic.com/content/operatorSource/profiles2/turkey-broadband-
overview.htm. 
453 Id. 
Federal Communications Commission DA 11-732
83
Topography: Turkey is slightly larger than the size of Texas.  It has a high central plateau with narrow 
coastal plains and several mountain ranges.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants454 9.4 0.1 0.3 9.0 0.0
Fixed broadband subs (June 
2010)455 6,790,103
% of households with fixed 
broadband access (2007) 456 16.5
Mobile
Mobile wireless broadband 
subs per 100 inhabitants457
1.17
Mobile wireless broadband 
subs (June 2010) 458 841,945
  
454 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
455 Id.
456 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
457 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
458 Id.  
Federal Communications Commission DA 11-732
84
40.  United Kingdom
Regulation:  Ofcom was established as a corporate body by the Office of Communications Act 2002.459  
Ofcom is the regulator for the UK communications industries, with responsibilities across television, 
radio, telecommunications and wireless communications services.460 Ofcom manages spectrum and 
ensures that a “wide range of electronic communications services – including high speed data services – is 
available throughout the UK.”461  
The government’s “Digital Britain: Final Report,” released in June 2009, outlines the nation’s broadband 
strategy.462 In the report, the government committed to providing all British households with broadband 
access at a minimum speed of 2 Mbps by 2012.  The network will consist primarily of DSL lines and 
fiber to the street cabinets, supplemented by mobile broadband and possible satellite infill for remote 
areas.  Ofcom has also worked to encourage investment and competition in “super-fast broadband.”463  
Key objectives include promotion of digital delivery of public services, on-line availability of government 
information, telemedicine, education, and finances.
In March 2011, the Broadband Stakeholders Group, the government’s leading advisory group on 
broadband, issued a voluntary code of practice on traffic management transparency.464 The code sets 
standards for what information broadband providers should disclose and how the information should be 
provided so that it will be understandable, accessible, current and comparable.  The code has been signed 
by providers serving almost 95 percent of fixed-line broadband customers and over 90 percent of mobile 
customers in the UK.465
Market and Competition:  The leading broadband service provider in 2009 was BT Retail with 26.7 
percent of the retail broadband market.  Other competitors include Virgin Media, Carphone Warehouse 
(unbundled loop), Tiscali (unbundled loop), BskyB, Orange (unbundled loop), Vodafone (resale), Post 
Office (resale) and many smaller ISPs.
Orange provides 3G coverage to 94 percent of the country, while T-Mobile, Vodafone and O2 provide 3G 
coverage to 91 percent, 88 percent, and 84 percent of the country, respectively.  Ofcom continues to 
monitor the level of 3G coverage offered by operators, and published coverage maps for all five major 
players in 2009.466
Other Media: The public service broadcaster, BBC, is the largest broadcasting corporation in the world.  
It operates multiple TV networks with regional and local TV service.  The United Kingdom has a mixed 
system of public and commercial TV broadcasters along with satellite and cable systems that provide 
  
459 Office of Communications Act 2002, 2002 Chapter 11, available at 
http://www.opsi.gov.uk/acts/acts2002/ukpga_20020011_en_1.   
460 See Ofcom, Statutory Duties and Regulatory Principles, available at http://www.ofcom.org.uk/about/what-is-
ofcom/statutory-duties-and-regulatory-principles/.
461 Id.
462 Digital Britain: The Final Report, (June 16, 2009), available at
http://www.culture.gov.uk/what_we_do/broadcasting/6216.aspx. 
463 Ofcom, Delivering Super-fast Broadband in the UK: Promoting Investment and Competition (Mar. 3, 2009), 
available at http://www.ofcom.org.uk/consult/condocs/nga_future_broadband/statement/statement.pdf. 
464 See http://www.broadbanduk.org/content/view/479/7/. 
465 Id.
466 Telegeography GlobalComms Database: United Kingdom (2010) (accessed Nov. 13, 2010).
Federal Communications Commission DA 11-732
85
access to hundreds of TV stations throughout the world.  With regard to radio, the BBC also operates 
multiple national, regional, and local radio networks with multiple transmission sites.  A large number of 
commercial radio stations, as well as satellite radio services, are available.
Topography:  The United Kingdom occupies an area that is slightly smaller than Oregon.  The terrain 
consists of mostly rugged hills and low mountains with level to rolling plains in the east and southeast.
Fixed Total Fiber Cable DSL Other
Fixed broadband subs per 
100 inhabitants467 30.5 0.0 6.4 24.1 0.0
Fixed broadband subs (June 
2010)468 18,845,700
% of households with fixed 
broadband access (2009) 469 69.5
Mobile
Mobile wireless broadband 
subs per 100 inhabitants470
30.0
Mobile wireless broadband 
subs (June 2010) 471 18,550,000
  
467 OECD Broadband Portal, Table 1d (3) (June 2010) (accessed Feb. 11, 2011).
468 Id.
469 OECD Broadband Portal, Table 2a (July 2010) (accessed Feb. 11, 2011).
470 OECD Broadband Portal, Table 1d (2) (June 2010) (accessed Feb. 11, 2011).  
471 Id.  
Federal Communications Commission DA 11-732
APPENDIX F: Actual Broadband Speeds
The BDIA provides that the 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.”1 The index included in Appendix C 
addresses this requirement, providing advertised broadband speeds and prices in 37 foreign countries.  As 
some commenters have pointed out, however, actual speed data can provide a more accurate picture of the 
state of broadband service than advertised speed.2  
The Commission itself has recognized the value of actual speed data, both to consumers and 
policymakers.  In March 2010, the Commission launched The Consumer Broadband Test, a tool that 
measures broadband quality indicators such as speed and latency, and reports that information to 
consumers and the FCC.3 The purpose of the Consumer Broadband Test is to give consumers additional 
information about the quality of their broadband connections and to create awareness about the 
importance of broadband quality in accessing content and services over the Internet.  Additionally, the 
FCC may use data collected from the tool to analyze broadband quality and availability on a geographic 
basis across the United States.  Two broadband testing tools are used in this beta version:  the Ookla, Inc. 
Speed Test and the Network Diagnostic Tool (NDT) running on the Measurement Lab (M-Lab) 
platform.4 In addition to making these broadband tests available to consumers, the Commission has asked 
for 10,000 volunteers to participate in a study to measure home broadband speed in the U.S.5 The 
Commission is partnering in this effort with SamKnows Limited, a firm that successfully conducted a 
similar test in the United Kingdom.6 The testing requires installation of specialized performance-
monitoring equipment at each volunteer’s home. 
Ookla is one of the largest providers of speed test services for Internet users across the globe.  
Ookla determines speed and cost indices from the data it collects, which it provides on its website, 
www.netindex.com.  Though this IBDR explains the need to obtain better international speed data, some 
speed data that is currently available, such as Ookla’s, may be useful in comparing the range of actual 
broadband speeds available across different countries and regions.  Therefore, we provide in this appendix 
the average actual download speeds determined by Ookla in 15 foreign capital cities, and compare those 
speeds to 15 U.S. cities with comparable populations.
  
1 47 U.S.C. § 1303(b).
2 AT&T Comments at 4.  See also Prof. Rob Frieden Comments at 3 (the IBDR should “[u]se a credible average of 
delivered broadband speeds rather than advertised speeds” as broadband performance is affected by a number of 
factors, and advertised speeds “typically contain a disclaimer stating that actual performance may vary”); UK fixed 
broadband speeds, November/December 2010 Research Report: The performance of fixed-line broadband delivered 
to UK residential consumers, March 2, 2011 (finding that, among other things, ADSL speeds “varied widely and 
were typically much lower than advertised speeds”), available at
http://stakeholders.ofcom.org.uk/binaries/research/telecoms-research/bbspeeds2011/bb-speeds-nov-2010.pdf. 
3 See FCC Launches Broadband Consumer Tools: Agency Introduces First Mobile App, Consumer Broadband Test, 
and Broadband Dead Zone Report, News Release (March 11, 2010); see also Consumer Broadband Test website, 
http://www.broadband.gov/qualitytest/about/#qualitytest.
4 These applications transfer a small amount of generic data back and forth between a user’s computer and a testing 
server, measuring the rate of transmission from the server to user (download) and user to the server (upload).  See
http://www.broadband.gov/qualitytest/about/#qualitytest.
5 See FCC Survey Finds 4 out of 5 Americans Don’t Know Their Broadband Speed, News Release, June 10, 2010, 
available at http://hraunfoss.fcc.gov/edocs_public/attachmatch/DOC-298525A1.doc; see also Comment Sought on 
Residential Fixed Broadband Services Testing and Measurement Solution, Public Notice, DA 10-670 (rel. April 20, 
2010), available at http://hraunfoss.fcc.gov/edocs_public/attachmatch/DA-10-670A1.pdf.  
6 Id.
Federal Communications Commission DA 11-732
2
We preface our summary of this speed data by reiterating what the Commission states on 
broadband.gov about the quality of speed test data: it may not be an accurate representation of connection 
quality.7 The Ookla data in this appendix provides a snapshot of actual speeds users are experiencing in 
various cities.  We do not believe this data accurately represents the complete broadband picture 
necessary for a meaningful comparison of U.S. and foreign city speeds.8 Speed test results can be 
impacted by a range of factors, including the distance of the user from the testing server, end-user 
hardware, network congestion, and time of day.  Additionally, software speed tests only measure the line 
speed of the broadband service level for which a user subscribes and not the full capability of the 
broadband technology.  We also note that since Ookla’s speed test data is dependent on users who elect to 
run the test, the test results for a given city may not be representative of that entire population’s 
broadband service.  Further, Ookla’s netindex.com site does not indicate whether test results are from 
residential or business users.  A different mix of residential and business segments may affect the data 
because business users tend to have faster speeds than residential users.  Moreover, Ookla uses a subset of 
the total tests from any given area to compile its speed index.  The Ookla results may be a more accurate 
reflection of the speeds that customers choose to purchase than of the speeds that are available.  Finally, 
Ookla’s speed test data for the U.S. cities in the below table is based on test results from a wide range of 
broadband providers, both fixed and mobile.  The number of test results from each carrier may influence 
the average speed that Ookla reports (e.g., the overall average speed reported by Ookla could experience a 
downward shift if the majority of tests originate from users of slower providers or individuals who 
subscribe to lower speed tiers, or an upward shift if most tests results are from users of high-speed 
providers).
U.S. Cities Population (2009 
U.S. Census 
estimates)9
Average Download 
Speed (Mbps)10
Olympia, WA 46,100 21.0
Washington, DC  599,657 8.6
Denver, CO 610,345 10.2
Seattle, WA 616,627 11.7
Boston, MA 645,169 9.8
  
7 See http://www.broadband.gov/qualitytest/about/#qualitytest.
8 For example, Akamai, which operates a global network of Internet servers, presents broadband speed findings in 
its quarterly “The State of the Internet” report that are quite different than Ookla’s.  Akamai, The State of the 
Internet, 4th Quarter, 2010 Report, available at http://www.akamai.com/stateoftheinternet/ (Akamai Report).  
Akamai gathers data via its server network on connection speeds, traffic patterns, and many other Internet metrics.  
The latest Akamai Report provides a list of the 100 fastest cities in the world based on average connection speed, 
none of which have speeds that exceed 20 Mbps.  (The average connection speed metric “is used in order to mitigate 
the impact of unrepresentative maximum measured connection speeds.”  Akamai Report at n. 14).  In contrast, the 
Ookla data for seven out of the 15 foreign cities we surveyed show speeds that exceed 20 Mbps.  Additionally, 
Akamai shows that the average connection speed in Seoul is 13.8 Mbps, whereas Ookla shows Seoul’s average 
speed is 35.8 Mbps.  These and other variations (e.g., Akamai removes data from known academic and mobile 
networks when compiling its top 100 city lists, Akamai Report at 11, 14) contribute to our assessment that speed 
measurements on the city or country level may not be entirely representative.
9 See http://factfinder.census.gov/home/saff/main.html?_lang=en (site visited February 28, 2011).
10 According to Ookla, this “value is the rolling mean throughput in Mbps over the past 30 days where the mean 
distance between the client and the server is less than 300 miles.”  See http://www.netindex.com/download.  The 
data in this table was collected February 25-March 9, 2011.
Federal Communications Commission DA 11-732
3
Columbus, OH 769,332 8.3
San Francisco, CA 815,358 6.9
Dallas, TX 1,299,542 6.8
San Diego, CA 1,306,300 11.4
Philadelphia, PA 1,547,297 9.8
Phoenix, AZ 1,593,659 9.9
Houston, TX 2,257,926 7.7
Chicago, IL 2,851,268 9.4
Los Angeles, CA 3,831,868 7.8
New York, NY 8,391,881 11.7
Data Source, unless otherwise noted: Net Index, by Ookla (http://www.netindex.com/value)
Foreign Cities Population11 Average Download 
Speed (Mbps)12
Reykjavik, Iceland 119,900 20.2
Bern, Switzerland 122,496 22.9
Canberra, Australia 345,257 6.1
Copenhagen, 
Denmark
511,686 17.4
Oslo, Norway 567,980 17.0
Helsinki, Finland 573,604 26.3
Amsterdam, The 
Netherlands
747,093 20.3
Ottawa, Canada 1,198,668 10.0
Paris, France 2,125,851 24.8
Rome, Italy 2,710,932 5.6
Madrid, Spain 3,213,271 9.3
Berlin, Germany 3,386,667 26.2
London, UK 8,278,251 11.2
Tokyo, Japan 8,489,653 13.1
Seoul, South Korea 10,031,719 35.8
Data Source, unless otherwise noted: Net Index, by Ookla (http://www.netindex.com/value)
The data suggests that actual download speeds in some large European and Asian cities are 
substantially higher than the speeds in large U.S. cities (e.g., 24.8 Mbps in Paris versus 6.9 Mbps in San 
Francisco and 9.9 Mbps in Phoenix.).  Making definitive conclusions, however, are problematic due to 
  
11 Population data obtained from United Nations Demographic Yearbook 2008, available at
http://unstats.un.org/unsd/demographic/products/dyb/dybsets/2008%20DYB.pdf.  
12 According to Ookla, this “value is the rolling mean throughput in Mbps over the past 30 days where the mean 
distance between the client and the server is less than 300 miles.”  See http://www.netindex.com/download.  The 
data in this table was collected February 25-March 9, 2011.  
Federal Communications Commission DA 11-732
4
the issues discussed above: variations in time of day of testing; variations in distance from server and 
equipment of testing subscribers; speeds are reflective of the service purchased rather than what is 
available; subscribers that elect to test their speed may not be representative of all subscribers; and the 
mix of residential versus business subscribers and mobile versus fixed subscribers can skew the results.  
Our goal for future IBDRs is to obtain and share more detailed actual broadband speed data that will assist 
in making more robust comparisons.  
Federal Communications Commission DA 11-732
APPENDIX G: Econometric Analysis
There are many factors that influence residential broadband penetration and adoption.  In general, the 
number of broadband connections and the price of broadband service in a given region are likely to be 
determined by the interaction of supply-side and demand-side factors.  In addition, both the demand and 
supply curves will be influenced by other (exogenous) economic and demographic factors.  For example, 
demand for broadband will likely depend on income, age, education, and computer literacy; while the 
supply of broadband will depend on factors such as the population, population density, terrain, number of 
competitors, and government subsidies. 
As an initial attempt to examine the impact of certain economic and demographic characteristics on 
regional broadband adoption, we analyze OECD data on broadband connections, population, income, and 
education that were collected from the OECD.Stat database for 2006 and 2007.1 The OECD compiles 
various economic and demographic data series for 355 regions in 37 countries.  Of those, 170 regions in 
14 countries (including the District of Columbia and 50 U.S. states) have complete data for broadband 
connections, population, population density, and GDP per capita for at least one of the years.  The list of 
countries (and number of regions) for which complete data were obtained from OECD.Stat are listed in 
Table 1.2
Table 1:  Number of Regions and Broadband Penetration by Country
2006 2007
Country Number of Regions
Percentage of 
Households with 
Broadband3
Number of 
Regions
Percentage of 
Households 
with 
Broadband
Australia 8 28.4 8 43.6
Austria 9 32.8 8 45.7
Czech Rep. 8 27.8
Finland 4 53.2 5 62.7
Germany 13 34.7 13 49.7
Italy 21 16.2 21 25.1
Luxembourg 1 44.0 1 58.0
Netherlands 4 66.1 4 74.0
Norway 7 56.6 7 66.6
Portugal 7 30.2
Slovak Rep. 4 11.5
  
1 See http://stats.oecd.org/Index.aspx.  Regional data were obtained for the “Large Regions (TL2)” classification 
(i.e., the first sub-national level such as a U.S. state or Canadian province).  The data were accessed on Nov. 22, 
2010, and are contained in the full version of Appendix D (available at http://www.fcc.gov/reports/international-
broadband-data-report-second) as they were on the access date at http://stats.oecd.org/Index.aspx.  These years were 
chosen because they are the most recent years for which complete data is available from enough countries and 
communities to make the analysis worthwhile.
2 The OECD database does not have broadband data for the U.S. on a state-by-state basis for 2006.  To maintain 
consistency across countries, we limited our study to the OECD’s data.  Similarly, the OECD database does not
include region-specific data for both 2006 and 2007 for the Czech Republic, Portugal, or the Slovak Republic.]
3 The regional percentages are weighted by population and then averaged over the entire country.
Federal Communications Commission DA 11-732
2
Spain 19 29.2 19 39.2
United Kingdom 12 44.0 12 56.8
United States 51 50.5
Total 102 164
The co-variation between broadband adoption and various economic and demographic factors can be 
estimated through the following baseline regression model:
ittj jjitititit uTCGDPPopDenPopPctHHBB ++++++= å lfbbbb 3210
where PctHHBBit is the percentage of households with a broadband connection in region i at time t, Popit
is the total population (in 100,000s) in the region, PopDenit is hundreds of people per square kilometer 
(100/km2), GDPit is the regional per capita gross domestic product (in thousands of US dollars).  Country 
fixed effects are denoted by Cj, and Tt is a year fixed effect.  In addition to the baseline model above, 
other models (that control for the log of the independent variables or that include controls for education 
levels) are also estimated.4
Broadband connections are measured as a fraction of households (instead of a fraction of population) for 
two primary reasons.  First, measuring connections at the household level is likely more representative of 
the residential, wireline broadband market, as consumers typically make purchase decisions at the 
household level.  Therefore, the number of households in a region is likely to be a more accurate 
representation of what would be considered the upper bound of residential broadband penetration.  This is 
in contrast to the wireless broadband market where mobile phones and smart cards may lend themselves 
to a per-person interpretation.  Second, although the OECD collects per-person broadband data at the 
country level, only per-household data is reported at the regional level.  Therefore, using subscriptions per 
100 people is not an option for this regional analysis.
It is important to note some of the limitations of this analysis.  As in any regression, a causal 
interpretation of the regression parameters requires that the error term be strictly exogenous (or, loosely 
speaking, that there be zero correlation between the regressors and error term).  Without strict exogeneity, 
the estimated coefficients can (at best) be interpreted as (conditional) correlations between the 
independent variables and the percentage of households with broadband in a given region.  Correlation 
between the regressors and error (or the failure of strict exogeneity) may enter from a number of causes; 
three of them are omitted variables, endogeneity, and measurement error.  We briefly discuss each of 
these in turn.
First, the analysis is limited by the data currently available from the OECD.  Because of this, the analysis 
cannot consider other factors that may have an important impact on the supply and/or demand for 
broadband, including such factors as population age, computer literacy, government subsidies and 
regulation.  Any factor that is not explicitly modeled in the regression is implicitly included in the error 
term.  If any of the omitted factors is correlated with the included regressors, the model may over- or 
  
4 Population, population density, GDP, and education are the variables that are most widely available across a large 
number of regions in the OECD database.  There are other variables that may also impact broadband subscriptions, 
such as public and private R&D expenditures, number of people enrolled in college, persons employed in 
technology jobs, unemployment, etc.  However, values for these variables are not reported for many regions, and the 
inclusion of these variables in the model would lead to the exclusion of many more region-country-observations.  As 
noted above, over half of all OECD countries and regions have already been excluded from the analysis due to 
missing broadband data.
Federal Communications Commission DA 11-732
3
under-state the true impact of the independent variables on the percentage of households with broadband 
connections.
Second, GDP may actually be endogenous to the model.  That is, the level of income in the region may 
impact broadband penetration and adoption, but the extent of broadband availability is likely to contribute 
to a region’s level of income and both variables are likely affected by other exogenous factors.  Any 
endogeneity between broadband penetration and income will lead to correlation between GDP and the 
error term and to bias in the estimated coefficients.
Last, it is unclear whether the variables in the analysis are directly comparable across countries.  For 
example, the definition of “broadband” may differ from one country to another; accounting procedures 
used to construct GDP may not be uniform across countries; and the independent variables in the model 
are, themselves, estimates of unknown parameters with their own respective standard errors.  There could 
also be large variation in the independent variables within regions that is not captured by simply looking 
at the region averages (e.g., population density).  Any differences in variable definitions or sampling 
techniques across countries would prevent us from interpreting the model coefficients as causal effects.
In spite of these challenges, it is still a useful exercise to examine the relationships between broadband 
adoption and the demographic variables in our model.  In fact, we find that almost 36% of the total 
variation in broadband adoption rates across regions can be explained by simply controlling for the four 
variables in our model – population levels, population density, GDP, and education.  (This percentage 
jumps to 50% if year fixed effects are included in the model, and jumps to almost 90% with the inclusion 
of year and country fixed effects.)
Descriptive statistics for the model variables are given in Table 2.  The average region in the OECD 
sample has a population of 3.4 million people, a population density of 346 people per kilometer, and a per 
capita GDP of $35,660.  On average, almost 40% of the households in a region have a broadband 
connection, and about 24% of labor force participants in a typical region have a tertiary education.5
Table 2: Descriptive Statistics
Variables Scale Obs. Mean St. Dev. Min Max
PctHHBBit 266 39.80 15.54 9 76
Popit (in 100,000s) 266 34.71 41.03 0.27 363.78
PopDenit (100 per km2) 266 3.46 8.73 0.0016 52.79
GDPit (in billions US$) 266 129.24 185.93 1.16 1801.76
GDPit (in thousands US$) 266 35.66 13.31 12.43 157.37
PctTerEducit 250 24.09 8.00 7.66 47.74
Before proceeding to the regression results, we present scatter plots of the unconditional correlations 
between broadband adoption rates and the independent variables of our regression in Figure 1.6 There 
appears to be little correlation between the percentage of households with broadband and either total 
population or population density, at least before controlling for other factors.  However, there seem to be 
strong positive correlations between broadband adoption and both per capita GDP and the percentage of 
the labor force with a tertiary education.7 For regions with comparable GDP, it appears that the US 
  
5 Education data is missing for the 8 Australian regions for both 2006 and 2007.
6 The US regions are denoted with solid circles, while hollow circles denote non-US regions.
7 The US outlier in the GDP scatter plot is Washington, DC.
Federal Communications Commission DA 11-732
4
regions may lag slightly behind non-US regions in terms of broadband adoption.  This relationship seems 
to be reversed, though, with respect to education; for regions with comparable levels of education, the US 
regions appear to have slightly higher broadband adoption rates than non-US regions.  All four 
explanatory variables, however, are highly correlated with each other, so these plots may not be an 
accurate representation of how broadband adoption in US regions compares to the adoption of other 
regions.  The full regression model will allow us to estimate the conditional correlations between 
broadband adoption and each explanatory variable, while holding the others constant.
Figure 1: Broadband Adoption Scatter Plots
20
40
60
80
PctHHBB
-2 0 2 4 6
logTotPop
US regions non-US regions
Scatter Plot of Broadband Adoption and Total Population
20
40
60
80
PctHHBB
-6 -4 -2 0 2 4
logPopDen
US regions non-US regions
Scatter Plot of Broadband Adoption and Population Density
20
40
60
80
PctHHBB
3 3.5 4 4.5 5
logGDPpc
US regions non-US regions
Scatter Plot of Broadband Adoption and Per Capita GDP
20
40
60
80
PctHHBB
10 20 30 40 50
PctTerEduc
US regions non-US regions
Scatter Plot of Broadband Adoption and Education
Regression results are presented in Table 3.  Column (1) reports the results from the baseline model 
presented above.  The results indicate that, controlling for population density and income, regions with 
one million additional individuals will have broadband adoption rates that are 0.25 percentage points 
higher.  Regions with more highly concentrated populations will have higher broadband adoption rates 
(controlling for population and GDP), with adoption rates increasing by 0.20 percentage points for each 
additional 100 people per square kilometer.  These positive (and statistically significant) correlations are 
evident only after controlling for GDP.  Last, controlling for population and population density, a $1000 
increase in a region’s per capita GDP corresponds to a 0.25 percentage-point increase in broadband 
adoption.8
  
8 The inclusion of both total population and population density makes interpretation of the marginal effects of 
population changes more complicated.  Strictly speaking, it would not be possible to simultaneously increase a 
region’s population while holding population density constant without also increasing the geographic size of the 
region.  However, region boundaries rarely change and are likely constant for all regions over the two years in our 
(continued....)
Federal Communications Commission DA 11-732
5
The regression model in column (2) includes a regressor for education.  The estimated coefficient 
indicates that regions with a more educated workforce have higher broadband adoption rates, though the 
result is not statistically significant.  The coefficients on the other regressors are largely unchanged, 
though the coefficient on per capita GDP falls slightly and is no longer statistically significant.
Columns (3) and (4) replicate the regressions from columns (2) and (3), but the population, population 
density, and GDP variables are replaced by their respective logarithms.9 In these specifications, the 
coefficient on population is no longer statistically significant, and is fairly small in magnitude.  
Population density and GDP, however, remain positively correlated with broadband adoption rates at a 
statistically significant level.  More concentrated regions have higher adoption rates, as do regions with 
higher per-capita incomes (see column 3).  A 10% increase in the number of people per square kilometer 
corresponds to a 0.15 percentage-point increase in the percentage of households with broadband 
connections, and a 10% increase in per capita GDP corresponds to a 1.53 percentage-point increase in the 
percentage of households with a broadband connection.
Once again, the estimated coefficient on education (when added) is small in magnitude and not 
statistically different from zero (see column 4).  Overall, the regressions explain anywhere between 87% 
and 90% of the total variation in the percentage of households with broadband.
  
(...continued from previous page)
sample.  Consequently, the impact from a marginal change in population on broadband adoption will be a weighted 
average of the coefficients on total population and population density.  
One way to avoid this issue would be to drop total population from the model.  We estimated the models both with 
and without total population and found that the impact on the estimated coefficients of other regressors was 
negligible.  (For example, the coefficients on PopDen and GDP in Column (1) change from 0.198 and 0.254 to 
0.192 and 0.258, respectively.  Such is also true of the coefficient and standard error estimates in other 
specifications.)  Consequently, we include total population in the model for completeness.
9 The logarithmic specification is often used to improve estimation when the scale of the variables differs across 
observations.  For example, a 100,000 person increase in population may have different implications for broadband 
penetration in different regions.  The 100,000 person change would increase New York’s population by less than 
1%, but would increase the population in the Oslo Norway region by about 10%.  We would not expect a 100,000 
person change in population to have the same impact on broadband in both regions.  The logarithmic specification 
eliminates differences in scale and allows for a “percentage-change” interpretation of the regression coefficients 
rather than a “level-change” interpretation.
Federal Communications Commission DA 11-732
6
Table 3: Reduced-Form Panel Regression Results (2006-2007)10
Dep. Var:  Percentage of households with a broadband connection
(1) (2) (3) (4)
Regressors
Pop
(100,000)
0.026
(0.011)**
[0.005]**
0.024
(0.011)**
[0.007]**
--- ---
Log(Pop) --- ---
0.062
(0.416)
[0.339]
0.032
(0.451)
[0.300]
PopDen
(100 per km)
0.198
(0.035)**
[0.043]**
0.195
(0.042)**
[0.059]**
--- ---
Log(PopDen) --- ---
1.545
(0.389)**
[0.702]**
1.567
(0.435)**
[0.982]
GDP
($1000s per 
capita)
0.254
(0.140)*
[0.105]**
0.193
(0.150)
[0.165]
--- ---
Log(GDP) --- ---
15.27
(2.78)**
[1.95]**
14.78
(2.79)**
[3.08]**
Educ ---
0.184
(0.136)
[0.309]
---
-0.019
(0.111)
[0.224]
Country F.E. Yes Yes Yes Yes
Year F.E. Yes Yes Yes Yes
R-squared 0.87 0.87 0.89 0.90
N 266 250 266 250
  
10 Standard errors clustered at the region level are denoted by ( · ), and standard errors clustered at the country level 
are denoted by [ · ].  There are 170 regions and 14 countries in the sample.  Statistical significance at the 5% and 
10% levels are denoted by ** and *, respectively.