Federal Communications Commission DA 12-646
Before the
Federal Communications Commission
Washington, D.C. 20554
In the Matter of
Connect America Fund
High-Cost Universal Service Support
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WC Docket No. 10-90
WC Docket No. 05-337
ORDER
Adopted:  April 25, 2012 Released:  April 25, 2012
By the Chief, Wireline Competition Bureau:
I. INTRODUCTION
1. In the USF/ICC Transformation Order, the Commission comprehensively 
reformed universal service funding for high-cost, rural areas, adopting fiscally responsible, 
accountable, incentive-based policies to preserve and advance voice and broadband service while 
ensuring fairness for consumers who pay into the universal service fund (Fund).1 As a 
component of those reforms, the Commission adopted a benchmarking rule intended to moderate 
the expenses of those rate-of-return carriers with very high costs compared to their similarly 
situated peers, while further encouraging other rate-of-return carriers to advance broadband 
deployment.2 In this order, we adopt the specific methodology for establishing such limits or 
“benchmarks” for high cost loop support (HCLS).3
2. The Commission’s benchmark rule responded to problematic incentives and 
inequitable distribution of support created by the prior rules.  Under the prior rules, some carriers 
with high costs may have had up to 100 percent of their expenditures on loop costs reimbursed 
from the federal universal service fund.  Because, prior to the USF/ICC Transformation Order, 
these carriers generally faced no overall limits on their expenditures, our rules gave carriers 
incentives to increase loop costs with little regard to efficiency or the burden on the Fund, and 
  
1 See Connect America Fund; A National Broadband Plan for Our Future; Establishing Just and 
Reasonable Rates for Local Exchange Carriers; High-Cost Universal Service Support; Developing a 
Unified Intercarrier Compensation Regime; Federal-State Joint Board on Universal Service; Lifeline and 
Link-Up; Universal Service Reform—Mobility Fund; WC Docket Nos. 10-90, 07-135, 05-337, 03-109, CC 
Docket Nos. 01-92, 96-45, GN Docket No. 09-51, WT Docket No. 10-208, Report and Order and Further 
Notice of Proposed Rulemaking, 26 FCC 17663 (2011) (USF/ICC Transformation Order and FNPRM); 
pets. for review pending sub nom. In re: FCC 11-161, No. 11-9900 (10th Cir. filed Dec. 8, 2011).
2 Id. at 17741-47, paras. 210-26.
3 Specifically, the methodology implements the Commission’s rule, adopted in the USF/ICC 
Transformation Order, to limit reimbursable capital and operating costs for purposes of determining HCLS 
by using benchmarks for reasonable costs among similarly situated rate-of-return carriers.  See id. at 17745, 
para. 220.
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without regard to whether a lesser amount would be sufficient to provide supported services to 
their customers.  Moreover, because HCLS overall is capped, carriers that did take measures to 
reduce costs to operate more efficiently lost support to their peers that increased costs.
3. The benchmarking rule adopted by the Commission addresses these problems by, 
for the first time, placing reasonable overall limits on costs eligible for reimbursement through 
HCLS and redistributing freed-up HCLS to carriers that stay within these limits to allow for new 
broadband investment.4 The Commission sought comment on a specific methodology to limit
reimbursable capital and operating costs within HCLS and directed the Wireline Competition 
Bureau (Bureau) to finalize a methodology after receiving public input in response to the 
proposal.5  
4. The methodology we adopt today, which is described in more detail in the 
attached technical appendix,6 builds on the analysis proposed in the USF/ICC Transformation 
FNPRM,7 but also includes several changes in response to the comments from two peer reviewers 
and interested parties and based on further analysis by the Bureau.8 These changes significantly 
improve the methodology while redistributing funding to a greater number of carriers to support 
continued broadband investment.  We now estimate that support to approximately 100 study areas 
with very high costs relative to similarly situated peers will be limited, while approximately 500 
study areas will receive additional, redistributed support to fund new broadband investment.9  
5. In view of the Commission’s intent to “phase in reform with measured but 
certain transitions,”10 we will phase in the application of these limits.  As directed by the 
Commission, we are providing public notice in Appendix B of this order regarding the updated 
company-specific capped values that will be used in the HCLS formula.  These capped values 
(which we also refer to as limits or benchmarks) will be used from July 1, 2012 through 
December 31, 2012,11 in place of an individual company’s actual cost data for those rate-of-return 
cost companies whose costs exceed the caps.12 While the HCLS benchmarks will be 
implemented beginning July 1, 2012, we will not reduce support amounts immediately by the full 
  
4 Id.
5 See id. at 17743-47, paras. 214-26, 18059-62, paras. 1079-88, 18285-94, App. H.
6 See infra Appendix A.
7 See USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 18059-62, paras. 1079-88, 18285-94, 
App. H.
8 See Letter from Patrick Halley, FCC, to Marlene Dortch, FCC, WC Docket Nos. 10-90, 07-135, 05-337, 
GN Docket No. 09-51, CC Docket Nos. 01-92, 96-45, 03-109, at Apps. B & C (filed Mar. 9, 2012) (Sanyal 
Peer Review and Waldon Peer Review, respectively).
9 Based on the methodology proposed in the USF/ICC Transformation Order and FNPRM, the 
Commission estimated that support to 280 rate-of-return cost study areas would be reduced and that 340 
rate-of-return cost study areas would receive additional support.  USF/ICC Transformation Order and 
FNPRM, 26 FCC Rcd at 18061, para. 1084. 
10 Id. at 17671, para. 11.
11 See infra section III.G for a detailed discussion of how the transition will be implemented. 
12 USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 17744, para. 218.  Although the 
methodology determines capped values only for rate-of-return cost companies, the Commission directed 
the National Exchange Carrier Association (NECA) to modify the HCLS formula for average schedule 
companies to reflect the caps derived from the cost company data.  See infra para. 10 and note 28.
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amount as calculated using the benchmarks.  Instead, we will reduce support commencing in July 
2012 by twenty-five percent of the difference between the support calculated using the study 
area’s reported cost per loop and the support as limited by the benchmarks, unless that reduction 
would exceed ten percent of the study area’s support as otherwise would be calculated based on 
NECA cost data, absent implementation of this rule.  Beginning January 1, 2013, we will reduce 
support by fifty percent of the difference between the support calculated using the study area’s 
reported cost per loop and the support as limited by the benchmarks in effect for 2013.  Beginning 
January 1, 2014, when we expect to have updated wire center boundaries, as discussed below, we 
will update the regressions (the coefficients), and support will be limited, in full, by the 
benchmarks in effect for 2014.13 When fully implemented, we estimate that the roughly 100 
study areas that are capped would see approximately $65 million in support reductions, while the 
roughly 500 study areas that are not capped would receive approximately $55 million in 
additional support for broadband investment.  
II. BACKGROUND
6. In the USF/ICC Transformation Order, the Commission adopted a framework to 
establish reasonable limits on recovery of capital costs and operating expenses to improve the 
incentives for rate-of-return carriers to invest prudently and operate efficiently.14 The 
Commission explained that “under our [previous] rules, a company receives support when its 
costs are relatively high compared to a national average – without regard to whether a lesser 
amount would be sufficient to provide supported services to its customers.  The [previous] rules 
fail to create incentives to reduce expenditures; indeed, because of the operation of the overall cap 
on HCLS, carriers that take prudent measures to cut cost under our [previous] rules may actually 
lose HCLS support [sic] to carriers that significantly increase their costs in a given year.”15  
7. The Commission’s new rule places “limits on the HCLS provided to carriers 
whose costs are significantly higher than other companies that are similarly situated” and 
provides that “support will be redistributed to those carriers whose unseparated loop cost is not 
limited by operation of the benchmark methodology.”16 The Commission found that its “new rule 
will discourage companies from over-spending relative to their peers” and “provide additional 
support to those companies that are otherwise at risk of losing HCLS altogether, and would not 
otherwise be well-positioned to further advance broadband deployment.”17
8. The Commission set forth the parameters of the methodology the Bureau must 
  
13 The Commission directed the Bureau annually to update the regressions.  See USF/ICC Transformation 
Order and FNPRM, 26 FCC Rcd at 17744, para. 218.  NECA, OPASTCO, and WTA sought 
reconsideration on this point. Petition for Reconsideration and Clarification of the National Exchange 
Carrier Association, Inc.; Organization for the Promotion and Advancement of Small Telecommunications 
Companies; and Western Telecommunications Alliance, WC Docket No. 10-90, et al., at 10 (filed Dec. 29, 
2011).  This issue, and other arguments raised in petitions for reconsideration of the requirements adopted 
in the USF/ICC Transformation Order and FNPRM, will be addressed at a future date by the full 
Commission.
14 See USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 17744-45, para. 219.
15 Id.
16 Id. at 17745, para. 220.
17 Id.
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use to limit payments from HCLS.18 The Commission required the Bureau to compare 
companies’ costs to those of similarly situated companies; concluded that statistical techniques 
should be used to determine which companies shall be deemed similarly situated; provided a non-
exhaustive list of variables that the Bureau may consider for purposes of this analysis;19 granted 
the Bureau discretion to determine whether other variables, such as soil type, would improve the 
regression analysis; and sought comment in the USF/ICC Transformation FNPRM on sources of 
publicly available soil data.20 The Commission delegated to the Bureau the authority to adopt and 
implement a methodology within these parameters and to update the methodology as the Bureau 
gains more experience and additional information.21
9. The methodology proposed in Appendix H to the USF/ICC Transformation 
FNPRM used quantile regression analyses, NECA cost data, and 2010 Census data to generate a 
set of limits for each rate-of-return cost company study area.22 The proposal would have limited 
the values used in eleven of the twenty-six steps in NECA’s Cost Company Loop Cost 
Algorithm, which is used to calculate the study area’s total unseparated cost per loop, and 
ultimately its HCLS.  The proposed regression-derived limits were set at the 90th percentile of 
costs for each of the eleven algorithm steps, compared to similarly situated companies for each 
individual step.  A company whose actual costs for a particular algorithm step are above the 90th
percentile would be limited to recovering amounts that correspond to the 90th percentile of cost; 
i.e., the lesser of the company’s capped algorithm value and the actual value would be inserted 
into the appropriate algorithm step for purposes of calculating the cost per loop used to determine 
HCLS.  The Commission sought comment on whether the 90th percentile is the appropriate 
dividing line to disallow recovery of cost, or whether a lower or higher threshold, such as the 85th
percentile or the 95th percentile, would be more appropriate.23
III. DISCUSSION
10. In this order, we implement the Commission’s rule to use benchmarks to impose 
reasonable limits on reimbursable capital and operating costs for rate-of-return carriers for 
purposes of determining HCLS and adopt the methodology that the Bureau will use to determine 
carrier-specific benchmarks for rate-of-return cost companies. Consistent with parameters set 
forth by the Commission, we compare companies’ costs to those of similarly situated companies 
using statistical techniques to determine which companies shall be deemed similarly situated.24  
  
18 See id. at 17744, para. 217.
19 See id.  The variables identified by the Commission were:  number of loops, number of housing units 
(broken out by whether the housing units are in urbanized areas, urbanized clusters, and nonurban areas), as 
well as geographic measures such as land area, water area, and the number of census blocks (all broken out 
by urbanized areas, urbanized clusters, and nonurban areas).
20 See id. at 17744, para. 217, 18060, para. 1083.
21 See id. at 17744, para. 217.
22  See id. at 18059-60, para. 1080-82, 18285-94, App. H.  Although the Commission found that quantile 
regression is an appropriate technique to use in setting benchmarks for reimbursable investment and 
expenses, it invited further comment on alternative statistical techniques.  Id. at 18060, para. 1082.
23 See id. at 18059-60, para. 1080.  
24 These statistical techniques rely on a set of independent variables that control for a company’s costs 
based on its situation, such as the population density and soil type of the area it serves.  Section III.C below 
describes the full set of independent variables we are adopting, which is expanded from the proposal in the 
USF/ICC Transformation Order and FNPRM in response to the record we received.
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As described in more detail in the attached technical appendix, we use NECA cost data and 
quantile regression analyses to generate a capital expense (capex) limit and an operating expense 
(opex) limit for each rate-of-return cost company study area.25 The regression-derived limits are 
set at the 90th percentile of costs for capex and opex compared to similarly situated companies.26  
The capped values will be used in NECA’s loop cost algorithm in place of an individual 
company’s actual cost data for those rate-of-return cost companies whose costs exceed the caps, 
which will result in reduced support amounts for these carriers.27  As directed by the Commission, 
NECA will modify the HCLS formula for average schedule companies to reflect the caps derived 
from the cost company data.28 After application of the benchmark methodology, HCLS will be 
recalculated to account for the additional support available under the overall cap on total HCLS.  
Additional support will be redistributed to carriers whose loop cost is not limited by the 
benchmark methodology, and those carriers are required to use the additional support to preserve 
and advance the availability of modern networks capable of delivering broadband and voice 
telephony service.29
  
25 See National Exchange Carrier Assoc., Inc., Universal Service Fund Data, NECA’s Study Results, 2010 
Report (NECA 2010 USF Data), http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf11r10.zip, available at http://transition.fcc.gov/wcb/iatd/neca.html.  We use the 
NECA data because the Commission determined that the benefits of using data it already collects on a 
regular basis outweigh any advantages of an alternative approach.  See USF/ICC Transformation Order 
and FNPRM, 26 FCC Rcd at 17746, para. 224.  
When the Commission proposed to establish benchmarks for reimbursable capital and operating costs in 
February 2011, its proposal was “based significantly on analysis submitted by the Nebraska Rural 
Independent Companies.”  Connect America Fund; A National Broadband Plan for Our Future; 
Establishing Just and Reasonable Rates for Local Exchange Carriers; High-Cost Universal Service 
Support; Developing a Unified Intercarrier Compensation Regime; Federal-State Joint Board on Universal 
Service; Lifeline and Link-Up; WC Docket Nos. 10-90, 07-135, 05-337, 03-109, CC Docket Nos. 01-92, 
96-45, GN Docket No. 09-51, Notice of Proposed Rulemaking and Further Notice of Proposed 
Rulemaking, 26 FCC Rcd 4554, 4624, para. 201 (2011) (footnote omitted) (USF/ICC Transformation 
NRPM/FNPRM).  NRIC had submitted an analysis of capital expenditures and subsequently submitted an 
analysis of operating expenses.
26 Specifically, the 90th percentile of costs compared to similarly situated peers means that, based on data 
from all the carriers in the analysis, if there were 100 study areas with independent variable values, as 
adopted in section III.C below, that were the same as those for the study area in question, 90 of them would 
be expected to have capex and opex costs equal to or less than the 90th percentile prediction.
27 NECA’s HCLS formula, i.e., the 26-step Cost Company Loop Cost Algorithm, is available at 
http://transition.fcc.gov/wcb/iatd/neca.html.  See National Exchange Carrier Assoc., Inc., NECA’s 
Overview of Universal Service Fund, Submission of 2010 Study Results, App. B (filed Sept. 30, 2011) 
(NECA 2010 USF Overview), http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf11af.zip.
28 USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 17744, para. 218. Specifically, we direct 
NECA to file proposed modifications to the average schedule formula within 30 days of the release of this 
order.  
29 Beginning January 1, 2014, carriers unaffected by the benchmark limits will receive additional 
redistributed support as calculated using a lower adjusted national average cost per loop (NACPL). The 
lower NACPL will be the NACPL that would be used if total reduced support, as a result of the application 
of the benchmark methodology, is redistributed to all carriers. Support to carriers affected by the 
benchmark will be calculated using the NACPL established pursuant to section 36.622 of the 
Commission’s rules. 47 C.F.R. § 36.622. During the transition periods July 1, 2012 to December 31, 2012 
and January 1, 2013 to December 31, 2013, the total amount of HCLS available to study areas not affected 
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11. The methodology that we adopt builds on the proposed methodology in 
Appendix H of the USF/ICC Transformation Order and FNPRM,30 but includes some significant 
improvements based on the many useful comments and ex parte presentations in this proceeding, 
the comments of two peer reviewers, and further analysis by the Bureau.  As in the proposed 
methodology, we use quantile regression analysis and NECA cost data to generate a set of limits 
for each rate-of-return cost company study area and use the regression-derived limits in NECA’s 
formula for calculating loop cost.  We modify the proposal, however, by reducing the overall 
number of regressions from eleven to two: one for capital expenditures and one for operating 
expenditures.  In addition, Commission staff examined and tested additional independent 
variables that were available from publicly available data sources, placed additional data sources 
in the record, and updated the methodology to reflect this further analysis.  Below, and in the 
attached technical appendix, we explain these changes to the proposed methodology and respond 
to other significant issues raised in the record.
A. Number of Regressions
12. The most significant change in methodology is that this analysis generates two 
caps for each company – a capex limit and an opex limit.  The methodology proposed in the 
FNPRM generated eleven different caps for each company that would have limited the values in 
eleven of the twenty-six steps in NECA’s loop cost algorithm.  Based on our review of the record 
and further analysis, we conclude that a better approach is to divide a company’s total cost in step 
twenty-five of the algorithm into its capex and opex components and use two regressions instead 
of using eleven independent regressions.
13. Commenters took differing views on the appropriate number of regressions.  
Commenters supporting more aggregation argue that limiting total cost, or separately limiting 
capital and operating expenses, is a better approach and suggest we use a single regression 
equation, or at most two equations.31 One peer reviewer also recommended this approach.32  
  
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by the benchmark methodology will be the capped HCLS, as calculated pursuant to section 36.603(a) of the 
Commission’s rules, less the total amount to be paid to study areas affected by the benchmark methodology 
during the transition periods. HCLS paid to the study areas not affected by the benchmark methodology 
will be calculated using an adjusted NACPL to produce the capped support pursuant to section 36.603(a) of 
the Commission’s rules. 47 C.F.R. § 36.603(a).  See infra section III.G. 
We direct NECA to provide to the Bureau a recalculated NACPL for redistribution and a schedule of 
HCLS for all carriers for the six-month period of July 1, 2012 to December 31, 2012 within 30 days of the 
release of this order.  Consistent with current practice, the filing NECA makes each October with the 
Commission shall include NACPL information and the schedule of HCLS for all carriers for the next year.
30 USF/ICC Transformation Order and FNPRM, 26 FCC at 18059-62, paras. 1079-88, 18285-94, App. H.
31 See, e.g., National Association of State Utility Consumer Advocates (NASUCA) et al. Comments, WC 
Docket No. 10-90 et al., at 52 (filed Jan. 18, 2012) (NASUCA et al. Comments) (“To avoid the issue of 
adopting an uneconomical set of inputs, the Commission could estimate only one equation, a total cost 
equation.”); National Exchange Carrier Association et al. Comments, WC Docket No. 10-90 et al., at App. 
E, 1 (filed Jan. 18, 2012) (Roger Koenker, “Assessment of Quantile Regression Methods for Estimation of 
Reimbursable Cost Limits”) (Rural Association Comments) (“A preferable, and simpler, approach would 
be to develop one conditional quantile model for aggregate costs.”); Nebraska Rural Independent 
Companies (NRIC) Comments, WC Docket No. 10-90 et al., at 58 (filed Jan. 18, 2012) (NRIC Comments) 
(“Consolidating the 11 caps into two caps will also improve the reliability of the associated regression 
studies.”); NRIC Reply Comments, WC Docket No. 10-90 et al., at 6 (filed Feb. 17, 2012) (NRIC Reply 
Comments) (agreeing with Koenker that “a single cost cap can work as well as or better than the two caps 
(continued....)
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Conversely, some commenters argued that the proposed eleven limits would not have allowed the 
algorithm to calculate support as it was intended,33 and proposed that costs be further 
disaggregated to the underlying cost elements, i.e., “data lines,” that make up each algorithm 
step.34
14. The choice of how many cost limits to adopt reflects a balancing of 
considerations.  Using a greater number of regressions makes it possible to identify outliers at a 
granular level, but fails to account for the interrelationships within the cost categories that feed 
into the twenty-six step algorithm as identified in the record and in the peer review.35 In contrast, 
using fewer regressions limits the Commission’s ability to identify outliers, but enables carriers to 
account for the needs of individual networks and recognizes the fact that carriers may have higher 
costs in one category that may be offset by lower costs in others. 36  
  
(...continued from previous page)
NRIC originally suggested”); Carriers for Progress in Rural America Reply Comments, WC Docket No. 
10-90 et al., at 12 (filed Feb. 17, 2012) (proposing “that the Commission’s model be redesigned to 
maximize carriers’ overall efficiency,” [which] “could be accomplished by reducing the eleven cost 
categories to just two categories: a limit on capex and a limit on opex.”).
32 Sanyal Peer Review at 1 (“By disaggregating the total cost function, and estimating the cost lines 
separately using quantile regression, and then adding them up, assumes that the quantile of the sums equals 
the sum of the quantiles. An argument that is similar to the sum of means of a random variable being equal 
to the mean of the sum.  However, this relationship does not hold true for quantile regressions.”).
33 See, e.g., Moss Adams et al. Comments, WC Docket No. 10-90 et al., at 16 (filed Jan. 18, 2012) (Moss 
Adams et al. Comments ) (arguing that the proposed methodology does not allow NECA’s formula for 
calculating loop cost to calculate support as it was intended because the benchmarks limit algorithm steps 
in the formula rather than the data lines); Chillicothe Telephone Company Comments, WC Docket No. 10-
90 et al., at 7 (filed Jan. 18, 2012) (Chillicothe Comments); Central Texas Comments, WC Docket No. 10-
90 et al., at 8- 9, 10 (filed Jan. 18, 2012) (Central Texas Comments).  NECA collects cost data from rate-of-
return cost companies and the data lines for investments and expenses generally correspond to specific Part 
32 accounts or subaccounts.  See NECA 2010 USF Overview, 
http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-State_Link/Monitor/usf11af.zip, App. A 
(Universal Service Fund:  2011 Data Collection Instructions) available at
http://transition.fcc.gov/wcb/iatd/neca.html.   
34 See Moss Adams et al. Comments at 16 (noting that “all of the algorithm lines are calculations based on 
various data lines, so any proposed limitations can also be accomplished by adjusting the data lines”).  
Although some parties recommend placing limits only on certain cost categories, see, e.g., Accipiter 
Comments, WC Docket No. 10-90 et al., at 19 (filed Jan. 18, 2012) (Accipiter Comments), using data lines 
would inevitably increase the number of separate regressions.  
35 See, e.g., NRIC Comments, at 12, 55-59; NASUCA et al. Comments at 50 (arguing that the unintended 
consequences of the proposed methodology would include “large payments to accountants to develop 
techniques that allow carriers to avoid the constraints and the incentive to adopt an uneconomical set of 
inputs”); Sanyal Peer Review at 2 (“[I]ndividual cost capping ignores any complementary or 
substitutability between the various cost components.”).
36 See, e.g., Rural Association Comments at App. D, 14 (“By limiting each account separately, without 
regard to needs of individual networks, the Commission’s method discourages network optimization.”); 
NASUCA et al. Comments at 51 (arguing that under the proposed methodology “the carrier has an 
incentive to choose those inputs that allow it to remain under all of the caps, even though a different set of 
inputs would lead to a lower cost of service, because when the carriers adopts the lower total cost of service 
inputs it may exceed the cap related to just one of the inputs”); Accipiter Comments at 18 (“[T]he 
individual cost caps should consider the interplay between different cost categories to avoid penalizing a 
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15. Balancing these considerations, we conclude that it is appropriate to reduce the 
number of separate cost caps set from the proposed approach in Appendix H, but to retain 
separate limits for capex and opex.  We are persuaded that limiting eleven separate cost 
categories could have the effect of overly limiting carriers’ ability to optimize among spending 
tradeoffs.  At the same time, an approach that only limited total cost would provide fewer 
safeguards against overspending.  Capital and operating expenditures reflect fundamentally 
different measures of business performance.  Using two regressions instead of one provides 
carriers flexibility to manage their operations, while still enabling the Commission to identify 
more instances where carriers spend markedly more in either category than their similarly-
situated peers.    
16. The approach we adopt is also supported by other considerations.  In particular, 
the methodology we adopt simplifies the process of fitting the benchmark computation within the
structure of NECA’s loop cost algorithm.37 Instead of potentially limiting values in eleven of the 
twenty-six steps, we only change the value for companies that exceed the caps in step twenty-
five, total unseparated costs.38 Although we divide the components of step twenty-five into capex 
and opex components for purposes of running two regressions and create separate capex and opex 
limits, the two components are added together for purposes of calculating total costs, study area 
cost per loop, and ultimately HCLS.39  
B. Defining Capex and Opex
17. As discussed below and in more detail in the technical appendix, we define capex 
as the plant-related costs in step twenty-five, which include return on capital and depreciation, 
and define opex as the remaining components that are added in step twenty-five to calculate total 
costs.40 These revised definitions of capex and opex differ from those used in the proposed 
methodology in several important ways.
18. The most important revision to the capex definition is the treatment of 
depreciation in relationship to capital costs.  To determine capex limits, the proposed 
methodology created separate caps for two categories of gross plant (cable and wire facilities, and 
central office equipment), and for the depreciation and amortization associated with those plant 
categories.41 In the revised methodology, we define capex as the return on net plant and 
  
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higher investment in one cost category to produce lower costs in another category.”).  Accipiter also argues 
that we should select fewer individual cost categories subject to limits and only limit cost categories where 
incentives to overspend may exist.  See Accipiter Comments at 19.
37 It is important that the methodology fit within this framework because the Commission modified the 
HCLS mechanism; it did not replace it with a new regime.
38 Step twenty-five is the sum of steps thirteen through twenty-four.  
39 For companies whose actual capex and/or opex exceed the benchmarks, the capped values will be added 
in step twenty-five in place of an individual company’s actual cost data.  Capex components will be 
summed into step 25A and opex into step 25B; step 25C becomes the new total unseparated costs.  See 
Appendix A at para. 6.
40 As discussed in the technical appendix, for the dependent variables, the regressions use the natural log of 
the capex components and the natural log of the opex components.  See infra Appendix A at paras. 11, 23.
41 The proposed methodology created separate caps for steps 1, 2, 17 and 18 of the NECA algorithm.  See 
USF/ICC Transformation Order and FNPRM, 26 FCC at 18288, App. H, para. 15.
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depreciation.42 Many commenters pointed out that the proposed methodology did not properly 
account for accumulated depreciation and depreciation expense, and we agree.43 We do not 
agree, however, with those who argue that depreciation expense should not be included in the 
regression analysis.44 Although depreciation is termed an “expense” for regulatory accounting 
purposes, as the Rural Associations and several other commenters point out, depreciation expense 
is properly considered as a component of capital costs because it is directly related and calculated 
as a result of capital investment.45 The proposed methodology would have limited gross plant, 
but did not adjust the accumulated depreciation or depreciation expense as would have been 
necessary when gross plant was limited by the benchmark.  The method we now adopt includes 
net plant rather than gross plant, so we appropriately account for accumulated depreciation.46
19. Our revised opex definition includes the remaining components that are summed 
in step 25 in the NECA algorithm to determine total unseparated costs.47 The proposed 
methodology excluded three of these – corporate operations expense, operating taxes, and rents –
which we now include in determining opex.  In the USF/ICC Transformation Order, the 
Commission revised the formula for limiting recovery of corporate operations expenses for HCLS 
in section 36.621(a)(4) of the Commission’s rules.48 Because of this separate limitation, the 
proposed methodology did not create an additional limit for corporate operations expense.  Now 
  
42 Capex includes the return component for cable and wire facilities category 1 (C&WF) (step 23); the 
return component for central office equipment category 4.13 (COE) (step 24); depreciation and 
amortization expense assigned to C&WF (step 17); and depreciation and amortization expense assigned to 
depreciation assigned to COE (step 18). 
43 See, e.g., Moss Adams et al. Comments at 15-18; Rural Association Comments at 67-68, App. D at 9-11; 
Chillicothe Comments at 6-9; Central Texas Comments at 8- 9, 14-16.
44 Some commenters argue that regression should not be used to limit depreciation expense, but suggest an 
alternative method of limiting depreciation.  See, e.g., Moss Adams et al. Comments at 18 (recommending 
that “regression not be used to limit depreciation expense,” but arguing that “depreciation expense 
limitations should be computed as the percentage of the limitation of the associated plant investment 
multiplied by the depreciation expense”); Chillicothe Comments at 9; Central Texas Comments at 14; 
Guadalupe Valley Telephone Cooperative Comments, WC Docket No. 10-90 et al., at 5-6 (filed Jan. 18, 
2012) (Guadalupe Valley Comments).  Another commenter argues that there is no need to limit 
depreciation expense at all.  See NRIC Comments at 59 (“Since depreciation rates are regulated, and 
investment itself is capped, there is no need to cap depreciation expense.”).
45 See, e.g., Moss Adams et al. Comments at 18; Rural Associations Reply Comments, App. B at 3; Letter 
from Michael R. Romano, NTCA, to Marlene H. Dortch, FCC, WC Docket No. 10-90 et al., at 2 (dated 
March 23, 2012). 
46 Instead of creating separate caps for step 1 (C&WF) and step 2 (COE), the revised methodology includes 
the return on net plant steps 23 and 24 in the capex regression.  The return component for CW&F is 
calculated in step 23 by adding CW&F in step 1 to CW&F materials and supplies in step 7, subtracting 
accumulated depreciation assigned to CW&F in step 9, and multiplying that value by the 11.25% 
authorized rate of return to determine the return component for C&WF.  The return component for COE in 
step 24 is calculated in a similar manner.  The revised methodology recognizes that materials and supplies 
are plant-related capital costs and a component of the return on capital in steps 23 and 24. 
47 Opex includes C&WF maintenance (step13), and COE maintenance (step 14); network expenses (steps 
15 and 16); corporate operations expense (step 19); operating taxes (step 20); corporate benefits (step 21), 
and rents (step 22).
48 See 47 C.F.R. § 36.621(a)(4); USF/ICC Transformation Order and FNPRM, 26 FCC at 17747-49, paras. 
227-33. The Commission also extended the corporate operations limitation to interstate common line 
support (ICLS).  Id.
Federal Communications Commission DA 12-646
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that we are analyzing all operating costs as a whole, it is appropriate to include corporate 
operations expense, as well as the other operating expenses, taxes and rents.49 For purposes of 
this analysis, we will use either a carrier’s actual corporate operations expense or the amount 
allowable under section 36.621(a)(4), whichever is less.  By using the allowable amount, we 
avoid restricting carriers affected by section 36.621(a)(4) twice for their corporate operations 
expenses above that limitation.50
C. Selection of Independent Variables
20. The revised methodology also includes additional independent variables that 
were suggested by commenters and one of the peer reviewers, and eliminates some that had been 
included in the methodology proposed in the USF/ICC Transformation FNPRM, because we 
found the new variables to be better estimators of cost.  In the USF/ICC Transformation FNPRM, 
the Commission noted that NRIC’s Capital Expenditure Study included variables for frost index, 
wetlands percentage, soils texture, and road intersections frequency, and invited commenters 
advocating the inclusion of additional independent variables to identify the data source, 
completeness, and cost of the additional data, if not publicly available.51 The Commission 
specifically sought comment on sources of soil data other than the Soil Survey Geographic 
Database (SSURGO) used in the NRIC study and how to deal with areas where the SSURGO 
data are missing or incomplete.52 Many commenters suggest additional variables, and Bureau 
staff examined those for which data were available.  The technical appendix describes in more 
detail the independent variables included in the methodology, those examined but excluded, and 
those that commenters suggested but that could not be included because the data were either 
unavailable to the Commission, nonpublic, or could not be generated at the study area level.53  
We briefly discuss the variables included in the revised methodology below.
21. The methodology uses cost-driving variables directly where available and 
proxies that are sufficiently correlated with cost drivers where necessary.  For example, the 
number of loops is a direct measure of a study area’s scale, and the number of road miles is a 
proxy for total loop length.54 Because most cable follows roads, it is reasonable to believe that 
the number of road miles in a study area is a good proxy for the cabling required to serve that 
  
49 For further discussion, see Appendix A at paras. 23, 26-28.
50 Most study areas are not affected by the corporate operations expense limitation in section 36.621(a)(4).  
NRIC argues that, if there were a single cap on total costs, there would be no need to cap a single expense, 
if total costs remain reasonable.  See NRIC Reply Comments at 7-8.  As an alternative to eliminating the 
corporate operations expense limitation, NRIC recommends the approach we take here.  See NRIC Reply 
Comments at 8 n.17.  (“Alternatively, even if the Commission decided to retain some kind of separate 
corporate operations cap, it could still constrain factor AL19, which is corporate operations expense, and 
the result would flow through automatically into the overall cap calculation for AL26.”).  
51 See USF/ICC Transformation Order and FNPRM, 26 FCC at 18060-61, para. 1083.     
52 See id.; U.S. Department of Agriculture, Natural Resources Conservation Service, Available Soil Survey 
Data (SSURGO) (2012), available at http://soildatamart.nrcs.usda.gov/ (last visited Apr. 24, 2012).
53 As discussed in the technical appendix, the regressions use the natural logs of the independent variables 
except those that are dummy variables, a pure index, or a percentage.  See infra Appendix A at para. 11.
54 See infra Appendix A at para. 33.  Several commenters argue that some measure of loop length is an 
important cost driver and suggest that some carriers already provide average loop lengths and other relevant 
data to the Rural Utilities Service (RUS).  See, e.g., Central Texas Comments at 6-7; Chillicothe Comments 
at 3-4; Accipiter at 26; Moss Adams et al. Comments at 11-12.
Federal Communications Commission DA 12-646
11
area.55 Some commenters suggest that the age of plant is an important variable, and we agree.56  
Many carriers have recently replaced aging plant with modern communications networks capable 
of providing voice and broadband service, and those carriers are not similarly situated to carriers 
with plant that is more fully depreciated.  Accordingly, while data on the average age of plant are 
not readily available, the revised methodology now includes a variable for the percentage of plant 
that has not yet been depreciated, which is highly correlated with plant age.  The revised 
methodology also includes variables that account for customer dispersion:  density (housing units 
divided by square miles); number of exchanges, which roughly accounts for the population 
centers in a study area; and portion of households in urbanized clusters or urbanized areas.57  
22. In addition, the revised methodology includes several geographic independent 
variables that Bureau staff developed from various data sources.  First, we agree with the many 
commenters who argue that the proposed methodology should include soils data.58 Bureau staff 
used the U.S. General Soil Map (STATSGO2) soils database to construct two soil-based variables 
that are included in the revised methodology:  depth of bedrock, and soils difficulty.59 Although 
the SSURGO database contains a richer set of soil variables and data at a more granular level 
than STATSGO2, it does not provide data for the entire country.  Some commenters argue that 
we should use the SSURGO data where available and STATSGO2 for the remaining study areas, 
but we decline to use an approach that treats study areas differently depending on the availability 
of the data.60 In addition, NRIC’s Capital Expenditure Study includes a frost index developed 
from the SSURGO data, but this information is not available for all areas in the STATSGO2 
database.  Several commenters discuss the need for such a frost index.61  As a proxy for this 
information, Bureau staff developed a climate variable based on the average annual minimum 
  
55 Other proxies for scale used in the methodology are the number of road crossings and the number of 
commonly-owned study areas in a state.  In its Capital Expenditure Study, NRIC predicted that road 
intersections would slow construction and impose other costs, and Bureau staff concludes this is another 
good proxy for scale.  See NRIC Capital Expenditure Study at 10.  In addition, Bureau staff expects that the 
number of commonly-owned study areas would be a good predictor of costs because some expenses could 
be shared among study areas.  See infra Appendix at paras. 35, 37.
56 See, e.g., Accipiter Comments at 5-6, 33-34; Guadalupe Valley Comments at 3-4; Carriers for Progress 
in Rural America Comments, WC Docket No. 10-90 et al., at 6-7 (filed Jan. 18, 2012); infra Appendix A at 
para. 38.
57 See infra Appendix A at para. 39-41.
58 See, e.g., NRIC Comments at 22-24; Moss Adams Comments et al. at 8; ATC Communications 
Comments, WC Docket No. 10-90 et al., at 3 (filed Jan. 18, 2012); Chillicothe Comments at 2; Northern 
Telephone Cooperative Comments, WC Docket No. 10-90 et al., at 3 (filed Jan. 18, 2012) (Northern 
Telephone Comments); Washington Independent Telecommunications Association et al. Comments, WC 
Docket No. 10-90 et al., at 4-5 (filed Jan. 17, 2012).
59 See Appendix A at paras. 43,45; U.S. Department of Agriculture, Natural Resources Conservation 
Service, U.S. General Soil Map (STATSGO2) available at http://soils.usda.gov/survey/geography/statsgo
(last visited Apr. 24, 2012).
60 See NRIC Comments at 24; NASUCA et al. Comments at 46; infra Appendix at paras. 53-54.
61 See, e.g., Blooston Rural Broadband Carriers Comments, WC Docket No. 10-90 et al., at 2 (filed Jan. 18, 
2012) (Blooston Comments); Interbel Comments, WC Docket No. 10-90 et al., at 10 (filed Jan. 18, 2012) 
(Interbel Comments); NRIC Comments at 25.
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12
temperature from the U.S. Department of Agriculture’s hardiness index.62  
23. We also agree with commenters who emphasized that carriers serving particular 
areas such as Alaska, Tribal lands, and national parks could face unique challenges.  In particular, 
some commenters suggest that it is more costly to provide service on Tribal lands;63 the
methodology now includes an additional independent variable for the percentage of each study 
area that is a federally-recognized Tribal land.64 In addition, Alaskan commenters argued that 
Alaska is unique because of its harsh climate and other factors; accordingly, the methodology 
now includes a variable indicating whether or not the study area is in Alaska.65  Some 
commenters also argued that it is more difficult to construct and maintain networks in national 
parks;66 the methodology also now includes an additional independent variable for the percentage 
of each study area that lies within a national park.67 NRIC’s Operating Expenses Study found 
that operating expenses were correlated with regions, and Bureau staff tested variables for the 
four census-based regions:  Western, Midwest, Northeast and South.68 The revised methodology 
also includes the two that were significant:  the Midwest and Northeast.
D. Use of Boundary Data
24. All geographic independent variables were rolled up to the study area using Tele 
Atlas wire center data, which is a widely-used commercially available comprehensive source for 
this information.69 Several commenters question the accuracy of those boundaries.70 For 
example, the Rural Associations point to a NECA study that concluded many of the Tele Atlas 
  
62 See infra Appendix A at para. 47; see also U.S. Department of Agriculture, U.S. National Arboretum, 
Plant Hardiness Zone Map (2012), available at http://www.usna.usda.gov/Hardzone (last visited Apr. 24, 
2012).
63 See, e.g., Gila River Telecommunications Comments, WC Docket No. 10-90 et al. (filed Jan. 18, 2012); 
Hopi Telecommunications Comments, WC Docket No. 10-90 et al. (filed Jan. 18, 2012); Mescalero 
Apache Telecom Comments, WC Docket No. 10-90 et al. (filed Jan. 18, 2012); National Tribal 
Telecommunications Association Comments, WC Docket No. 10-90 et al. (filed Jan. 18, 2012); Sacred 
Wind Comments, WC Docket No. 10-90 et al. (filed Jan. 17, 2012); Alexicon Telecommunications 
Consulting Comments, WC Docket No. 10-90 et al., at 18-19, App. B (filed Jan. 18, 2012) (Alexicon 
Comments).
64 See infra Appendix at para. 49-50.
65 See, e.g., Alaska Rural Coalition Comments, WC Docket No. 10-90 et al., at 17-19 (filed Jan. 18, 2012); 
Copper Valley Telephone Cooperative Comments, WC Docket No. 10-90 et al., at 5-7 (filed Jan. 17, 2012).
66 See, e.g., Interbel Comments at 3.
67 See infra Appendix at para. 49-50.  In the future, if sufficient data become available, we may consider 
including a variable that would account for all federal lands (i.e., that is not limited to national park lands).
68 See NRIC Operating Expense Study at 8; infra Appendix at para. 52.
69 TomTom Telecommunications Suite 2011.09 (formerly Tele Atlas North America), Wire Center 
Premium, for wire center boundary and central office location information.  Earlier study area boundary 
versions were also used to exclude the portions of study areas that were associated with frozen support. 
70 See, e.g., Calaveras Telephone Comments, WC Docket No. 10-90 et al., at 6-7(filed Jan. 18, 2012); Eagle 
Telephone Comments, WC Docket No. 10-90 et al., at 3 (filed Jan. 18, 2012); Moss Adams et al. 
Comments at 10; Northern Telephone Comments at 2-3; NRIC Comments at 2-29.
Federal Communications Commission DA 12-646
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boundaries “differ quite significantly from actual boundaries.”71 In addition, some companies 
that argue that their boundaries, and in particular the resulting measure of square miles in their 
service territories, were inaccurate in the proposed methodology have asked how they could 
correct errors in the data.72
25. The only comprehensive set of wire center boundaries are those commercially 
available from companies such as Tele Atlas and GeoResults.  There is precedent for using Tele 
Atlas’ (or a predecessor company’s) boundaries.  In particular, the Commission’s hybrid cost 
proxy model uses a customer location data set that was created using an earlier version of the 
Tele Atlas boundaries.73  
26. We decline to adopt NRIC’s proposal that we modify study area boundaries 
before implementing the regression methodology based on publicly available state maps.74 While 
many states have study area maps available on-line,75 the vast majority of those maps will not 
allow Commission staff to calculate the information required for the analysis we adopt.  Variables 
like road miles and those related to local soil conditions require having GIS-based boundaries that 
can be overlaid with other GIS-based data sets (like road networks and databases of soil 
conditions). It is not practical to derive such information from printed maps, images on websites 
or PDF files with any accuracy.  In addition, it is not clear whether state maps represent 
authoritative boundaries.  Therefore, we do not believe that the proposal by NRIC is a practical 
means to derive more reliable study area boundary information quickly.76  
27. Nevertheless, we recognize concerns remain regarding inaccuracies in this data 
set, and we adopt a two-part process to address these concerns.  First, in the near term, we will 
  
71 Rural Association Comments, Appendix D at 3-4.  (“Of 357 study areas for which NECA has actual 
boundaries, 144 are not accurate within 5%, and 80 are not even accurate within 20%.  A significant 
number differ by more than 50%, and a few are completely (i.e., 100%) inaccurate.”).  Id.  See also Joint 
Comments of NECA, NTCA, OPASTCO, WTA, and the Rural Alliance, WC Docket No. 10-90 et al., at 
Attach. at 1-3 (filed July 12, 2010) (NECA et al. July 12, 2010 Comments). 
72 See, e.g., Letter from Joshua Seidemann, NTCA, to Marlene Dortch, FCC, WC Docket No. 10-90 et al. 
(filed Mar. 21, 2012).
73 Business Location Research was subsequently acquired by Geographic Data Technology, which was 
acquired by Tele Atlas.  See Federal-State Joint Board on Universal Service, Forward-Looking Mechanism 
for High Cost Support for Non-Rural LECs, CC Docket Nos. 96-45, 97-160, Tenth Report and Order, 14 
FCC Rcd 20156, 20181, para. 51 (1999) (Tenth Report and Order), affirmed, Qwest Corp. v. FCC, 258 
F.3d 1191 (10th Cir. 2001) (Qwest I).  The Commission has also used the TeleAtlas boundaries to create 
maps of study areas receiving the highest per-line support amounts and the states with the most competitive 
eligible telecommunications carriers in response to requests from the U.S. House of Representatives, 
Committee on Energy and Commerce.  See, e.g., FCC Responses to Requests 5 and 7 (July 27, 2011), 
available at http://democrats.energycommerce.house.gov/index.php?q=news/bipartisan-energy-and-
commerce-leaders-release-information-on-universal-service-fund. 
74 See Letter from Cheryl L. Parrino, Parrino Strategic Consulting Group, to Marlene H. Dortch, FCC, WC 
Docket No. 10-90 et al., Attach. A, at 4 (filed Apr. 13, 2012).
75 See id., Attach. B.
76 The Rural Associations acknowledge that compiling a new dataset of study area boundaries will require 
substantial effort because “[v]erifiable studies of documented serving areas of all RLECs would need to be 
completed to assure that calculations are correct.  These studies would involve obtaining maps of study area 
boundaries for each RLEC, which would need to be digitized to create a workable database of actual study 
area boundaries.”  Rural Association Comments, App. D at 4.
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provide a streamlined, expedited waiver process for carriers affected by the benchmarks to correct 
any errors in their study area boundaries.  Second, to correct any remaining inaccuracies in the 
Tele Atlas data set, we will issue a Public Notice to initiate the process of collecting study area 
boundaries directly from all rate-of-return carriers.  The Public Notice will seek comment on data 
specifications for a data request that the Bureau would issue after receiving input from the public 
and interested parties.  We expect that we will have updated boundary data before we rerun the 
regression to calculate capex and opex limits that will be used for calculating support for 2014, at 
which time the limits will apply in full.77  
28. In light of the protections we adopt to address errors in the TeleAtlas data, we 
decline to delay implementation of the benchmarks beyond the 18-month phase-in described 
below.  The Commission anticipated that “HCLS benchmarks will be implemented for support 
calculations beginning July 2012.”78 In many cases, more accurate boundaries would not change 
whether or not a particular company is capped or not by the benchmark methodology.  And the 
streamlined, expedited waiver process we adopt to correct boundaries in the near-term will 
address those specific instances where an inaccurate boundary could result in a company losing 
more support than it would otherwise.79  
29. Specifically, any carrier whose actual boundaries are different from the 
boundaries used by the Bureau in the methodology we adopt today may file a petition for waiver 
in accordance with section 1.3 of the Commission’s rules.80 To enable the Bureau to determine 
whether there are special circumstances (i.e., inaccurate boundaries) supporting a waiver, 
petitioners must provide accurate boundary information in a manner and format that Bureau staff 
can readily evaluate and process.81 In Appendix C, the Bureau sets forth a template for filing 
study area maps to help potential petitioners file information efficiently, accurately, and in a 
manner that will permit the Bureau to evaluate and process the information expeditiously.  
30. While potential petitioners may choose to submit boundary information in other 
formats, the Bureau cautions that information submitted in other formats may require additional 
processing, and that the processing could introduce errors and/or delay.  For example, if 
petitioners file hard copy maps, those would need to be rectified (stretched) to have a spatial 
  
77 We emphasize that because we phase in the benchmarks, companies will experience no more than half of 
the reduction otherwise required by the benchmarks until we have updated boundary data.  Phasing in the 
application of the limits over 18 months helps address concerns about the accuracy of the existing boundary 
data in the interim period before the limits apply in full.  
78 USF/ICC Transformation Order and FNPRM, 26 FCC at 17744, para 216.
79 Consistent with existing practice, if such a waiver request is granted and a true-up is required, a carrier’s 
support amounts will be trued-up back to July 1, 2012.
80 Generally, the Commission’s rules may be waived if good cause is shown.  47 C.F.R. § 1.3.  The 
Commission may exercise its discretion to waive a rule where the particular facts make strict compliance 
inconsistent with the public interest.  Northeast Cellular Telephone Co. v. FCC, 897 F.2d 1164, 1166 (D.C. 
Cir. 1990) (Northeast Cellular).  In addition, the Commission may take into account considerations of 
hardship, equity, or more effective implementation of overall policy on an individual basis. WAIT Radio v. 
FCC, 418 F.2d 1153, 1159 (D.C. Cir. 1969); Northeast Cellular, 897 F.2d at 1166.  Waiver of the 
Commission’s rules is appropriate only if both (i) special circumstances warrant a deviation from the 
general rule, and (ii) such deviation will serve the public interest.  NetworkIP, LLC v. FCC, 548 F.3d 116, 
125-128 (D.C. Cir. 2008); Northeast Cellular, 897 F.2d at 1166.  
81 See infra Appendix C.
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reference, and digitized by Bureau staff. Accordingly, petitioners that do not wish to use the 
Bureau’s template may wish to consult with Bureau staff in advance of filing boundary 
information in alternate formats to ensure that the information submitted can be processed 
quickly.  
31. Regardless of how the boundary information is filed, an officer of the company 
must certify under penalty of perjury that the information provided is accurate.  We also 
emphasize that carriers using this waiver process solely to seek changes to their study area 
boundaries used in the benchmark methodology are not required to file the financial data and 
other information required for waivers as set forth in the USF/ICC Transformation Order.82 The 
financial data and other information set forth in the USF/ICC Transformation Order is relevant 
for petitions for waiver alleging that “reductions in current support levels would threaten [a 
carrier’s] financial viability, imperiling service to consumers in the areas they serve.”83 In 
contrast, when considering whether there are special circumstances and the public interest is 
served by granting a waiver of the benchmark methodology, we will be focusing on ensuring that
accurate data is used to perform the necessary computations, regardless of the extent of support 
reduction.  In addition, carriers using this streamlined, expedited waiver process to make 
technical corrections to their study area boundaries need not pay the filing fee associated with 
requests for waiver of Part 36 separations rules.84  With the safeguard provided by this 
streamlined, expedited waiver process, we conclude it is appropriate to use the Tele Atlas 
boundaries on an interim basis.  
E. Use of Quantile Regression and the 90th Percentile Cost Threshold
32. As discussed in the technical appendix, we conclude that quantile regression 
analysis is the appropriate methodology to use to identify study areas that have capex and opex 
costs that are much higher than those of their similarly situated peers and to cap their cost 
recovery at amounts that are no higher than the vast majority of similarly situated study areas.85  
We also conclude that we should set the regression-derived limits at the 90th percentile of costs 
for capex and opex compared to similarly situated companies.  
33. Some commenters criticized the use of the 90th percentile, arguing that it was 
unreasonable because approximately forty percent of study areas in the methodology proposed in 
the FNPRM would have been subject to limits in one or more of the eleven cost categories used 
in that analysis.86 On further consideration, we have concluded that the proposed methodology 
was over-inclusive because a carrier that exceeded the cap in only one category, but had costs 
well below the caps in the other ten, would have received reduced support.  As discussed above, 
however, we are adopting a revised methodology that relies on aggregated capex and opex caps. 
Applying the revised methodology with a 90th percentile cap limits reimbursable costs for only 
fifteen percent of the study areas of cost companies.  The net effect is fewer study areas will see 
reduced support, and more companies will see additional support, due to the distribution of 
support among HCLS recipients.  
  
82 USF/ICC Transformation Order and FNPRM, 26 FCC at 17839-42, paras. 539-44.
83 Id. at 17839, para. 539.
84 See 47 C.F.R. § 1.1105.
85 See infra Appendix A at paras. 7-10.
86 See, e.g., Blooston Comments at 4; Rural Association Comments at 71
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34. Accordingly, we do not agree with commenters who argue that we should limit at 
most those carriers with costs above the 95th percentile.87 Indeed, we note that using the 90th
percentile with the modifications adopted today leads to approximately the same number of study 
areas with capped costs as would have been the case if we were to use the 95th percentile with the 
Appendix H methodology.88 We conclude that using the 90th percentile as part of the revised 
methodology appropriately balances the Commission’s twin goals of providing better incentives 
for carriers to invest prudently and operate more efficiently, and providing additional support to 
further advance broadband deployment.  By providing additional, redistributed HCLS to carriers 
that do not have the highest costs among similarly situated companies, our budget for high-cost 
support should enable more broadband deployment than if we continued funding more of the 
highest cost companies at current levels.
35. In view of the fact that many carriers will receive additional, redistributed HCLS, 
we take this opportunity to emphasize the obligations that attach to the additional funding.  
Section 254(e) of the Act requires that this additional funding – like all federal universal service 
support – be used “only for the provision, maintenance, and upgrading of facilities and services 
for which the support is intended.”89 Consistent with the USF/ICC Transformation Order, the 
overarching intent is to preserve and advance the availability of modern networks capable of 
delivering broadband and voice telephony service.90 Indeed, all rate-of-return carriers are 
required to provide broadband upon reasonable request beginning July 1, 2012, as a condition of 
receiving federal high-cost universal service support.91 Carriers must use their high-cost 
universal service support – including any additional funding – in compliance with these 
requirements.  
36. We further note that all rate-of-return carriers will be required to file a new build-
out plan, which accounts for the new broadband obligations, in 2013.92 Those plans must be 
updated annually to reflect progress on network improvements and build-out, which should 
reflect the impact of high-cost universal service support, including any additional funding.93 The 
Commission will be reviewing those plans and updates, as well as other information provided in 
the annual section 54.313 reports, to ensure that carriers are complying with their public interest 
obligations, including their build-out requirements.  Further, the progress report on those plans 
will be part of the factual basis that supports the annual section 54.314 certification by the states 
or carriers that support is being used for the intended purposes.94
  
87 See, e.g., Alexicon Comments at 14-15; NASUCA et al. at 53; NRIC Comments at 51-53.
88 Using the methodology proposed in Appendix H of the USF/ICC Transformation Order and FNPRM
and the 95th percentile would have limited reimbursable costs for approximately fifteen percent of the study 
areas – no different than selecting the 90th percentile with the other improvements we adopt today.  
89 47 U.S.C. § 254(e).
90 See USF/ICC Transformation Order, 26 FCC Rcd at 17670, para. 11, 17681, para. 51, para. 17854, para. 
587.
91 See id. at 17740, para. 206.
92 See id. at 17854, para. 587.
93 See id.
94 See id. at 17859-61 paras. 607-612.
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F. Other Issues
37. Retroactivity.  We disagree with commenters who assert that applying the 
benchmarks to limit HCLS payments constitutes retroactive rulemaking.95 A rule does not 
operate retroactively merely because it is “applied in a case arising from conduct antedating [its] 
enactment” or “upsets expectations based on prior law.”96 Rather, a rule operates retroactively if 
it “takes away or impairs vested rights acquired under existing law, or creates a new obligation, 
imposes a new duty, or attaches a new disability in respect to transactions or considerations 
already past.”97
38. Here, it cannot fairly be said that the application of these benchmarks will take 
away or impair a vested right, create a new obligation, impose a new duty, or attach a new 
disability in respect to the carriers’ previous expenditures.  There is no statutory provision or 
Commission rule that provides companies with a vested right to continue to receive support at 
particular levels or through the use of a particular methodology.98 Although application of the 
benchmarks may affect the amount of support a carrier receives for expenditures made in 2010 
(or before),99 it does not change the legal landscape in which those expenditures were made.  
Rather, as the Commission observed in the USF/ICC Transformation Order, “section 254 directs 
the Commission to provide support that is sufficient to achieve universal service goals, [but] that 
obligation does not create any entitlement or expectation that ETCs will receive any particular 
level of support or even any support at all.”100  
  
95 See, e.g., GVNW Consulting Comments, WC Docket No. 10-90 et al., at 11-12 (filed Jan. 17, 2012) (“the 
Commission’s proposal to adopt regression caps is unlawful and constitutes retroactive rulemaking”); 
Alexicon Comments at 12-14 (“this result is substantially similar to retroactive ratemaking”); Blooston 
Comments at 3-5 (“retroactive application of the [quantile regression analysis] . . . contravenes well-settled 
principle [sic] of agency law and precedent”).
96 Landgraf v. USI Film Products, 511 U.S. 244, 269-70 (1994).
97 Marrie v. SEC, 374 F.3d 1196, 1207 (D.C. Cir. 2004) (quotation omitted); see also Blanco de Belbruno 
v. Ashcroft, 362 F.3d 272, 283 (4th Cir. 2004) (“to determine whether a regulatory change has retroactive 
effect, we must determine that a rule ‘attaches new legal consequences to events completed before its 
enactment’”) (quoting INS v. St. Cyr, 533 U.S. 289, 321 (2001)).
98 See USF/ICC Transformation Order, 26 FCC Rcd at 17770-71, para. 293; 47 U.S.C. § 254; see also 
Rural Cellular Association v. FCC, 588 F.3d 1095, 1103 (D.C. Cir. 2009) (“[the] purpose of universal 
service is to benefit the customer, not the carrier”) (quotation omitted).  We note that the Commission has 
been seeking comment on whether and how to change the support methodology for rural carriers since 
2004, which should have made it evident to those carriers that they are not guaranteed a particular level of 
support.  See Federal-State Joint Board on Universal Service, CC Docket No. 96-45, Order, 19 FCC Rcd 
11538 (2004).  Indeed, the Commission’s proposals to reform support for rural carriers have ranged from 
the modest, targeted reforms adopted in the USF/ICC Transformation Order to more sweeping proposals to 
auction all high-cost support.  See, e.g., Federal-State Joint Board on Universal Service, WC Docket No. 
05-337, CC Docket No. 96-45, Notice of Proposed Rulemaking, 23 FCC Rcd 2495 (2008).
99 See supra note 25.
100 USF/ICC Transformation Order, 26 FCC Rcd at 17745, para. 221; see also Members of the Peanut 
Quota Holders Assoc. v. United States, 421 F.3d 1323 (Fed. Cir. 2005), cert. denied, 548 U.S. 904 (2006) 
(“The government is free to create programs that convey benefits in the form of property, but, unless the 
statute itself or surrounding circumstances indicate that such conveyances are intended to be irrevocable, 
the government does not forfeit its right to withdraw those benefits or qualify them as it chooses.”).
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39. Indeed, consistent with the Commission’s focus on service to consumers, the 
Commission declined to provide any group of companies with a blanket exception from universal 
service reforms for past investments, recognizing that the current rules were not efficiently 
serving universal service goals.  Providing such exceptions would have made it impossible to 
reform the system over any reasonable time period.  Instead, the Commission established an 
avenue for companies to demonstrate a need for temporary and/or partial relief from the new 
rules to ensure its customers do not lose service.101 Moreover, our decision to phase in the 
application of the limits over 18 months provides a greater opportunity for carriers to make any 
necessary adjustments.  
40. Critically, the revised methodology now includes an independent variable that 
captures age of plant, further addressing “retroactivity” concerns with respect to capex.  Adding 
this variable raises the cost limits for carriers that have invested recently, by allowing their costs 
to be judged relative to a peer group of other carriers that have also invested recently.  We also 
note that application of the limits to operating expenses clearly presents no “retroactivity” 
concerns.   
41. Predictability and Sufficiency.  We also reject the argument that implementing 
these benchmarks will undermine the predictability or sufficiency of support.102 At the outset, we 
note that this general argument effectively seeks reconsideration of the Commission’s policy 
judgment to adopt a rule imposing limits on capex and opex in the first instance, which is beyond 
the scope of this order to implement a methodology as directed by the Commission.  As the 
Commission explained in the USF/ICC Transformation Order, the HCLS mechanism operates in 
fundamentally the same way with or without the benchmarks.103 In both cases, a certain amount 
of unpredictability exists because a carrier’s support depends in part on a national average that 
changes from year to year, and companies “can only estimate whether their expenditures will be 
reimbursed through HCLS.”104 Moreover, as the Commission has suggested, if anything, support 
will now be more predictable for most carriers because the new rule discourages companies from 
exhausting the fund by over-spending relative to their peers.105 The addition of several new 
independent variables that capture attributes that do not change over time (e.g., depth of bedrock, 
soils difficulty, the percentage of study area that is a federally-recognized Tribal land, the 
percentage of each study area that lies within a national park, whether the study area is in the 
Midwest, Northeast, or Alaska) also improves the predictability of support.  In addition, as 
described below, we will use the same regression coefficients for capex and opex in 2013 as those 
calculated for 2012, which will provide more certainty as we phase in the application of the 
limits.  Accordingly, commenters’ concerns that support amounts will fluctuate radically from 
year to year are speculative and unpersuasive.
  
101 USF/ICC Transformation Order, 26 FCC Rcd at 17745, para. 222; see also id. at 17839-42, paras. 539-
44.
102 See, e.g., Blue Valley Telecommunications Comments, WC Docket No. 10-90 et al., at 4-5 (filed Jan. 
18, 2012); TCA Comments, WC Docket No. 10-90 et al., at 5-6 (filed Feb. 24, 2012); Rural Broadband 
Alliance Reply Comments, WC Docket No. 10-90 et al., at 14-18 (filed Feb. 17, 2012); Letter from 
Michael J. Balhoff, Balhoff & Williams, LLC, to Marlene H. Dortch, FCC, WC Docket No. 10-90 et al., at 
Attach. at 8 (dated April 12, 2012).
103 USF/ICC Transformation Order, 26 FCC Rcd at 17745, para. 220.
104 Id.
105 See id.
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42. As for sufficiency, the very purpose of the benchmarks is to ensure that carriers 
as a whole receive a sufficient (but not excessive) amount of HCLS, which is one component of 
high-cost support.  As discussed above, the methodology compares carriers’ costs to those of 
similarly situated carriers and reduces HCLS only to the extent that a carrier over-spends relative 
to its peers.  Moreover, excess support is redistributed to carriers that otherwise may be at risk of 
losing HCLS altogether, and may not otherwise be well-positioned to further advance broadband 
deployment.  Thus, the application of benchmarks is not only consistent with the Commission’s 
interpretation of “sufficient” as requiring that the fund remain “sustainable,” which the D.C. 
Circuit found to be a reasonable interpretation in Rural Cellular Association v. FCC,106 but it also 
complies with the stated intent of section 254 that the Commission’s universal service 
mechanisms should preserve and advance universal service.107  
G. Implementation
43. We will implement the limits on costs eligible for reimbursement though HCLS 
beginning July 1, 2012, but we will not reduce support amounts immediately by the full amount 
as calculated using the benchmarks.  Instead, we will reduce support beginning July 1, 2012 and 
until December 31, 2012 by twenty-five percent of the difference between the support calculated 
using the study area’s cost per loop as reported by NECA and the support as limited by the 
benchmarks, however, the reduction shall not be greater than ten percent of the study area’s 
HCLS support based on the cost data filed with NECA.  Beginning January 1, 2013 and until 
December 31, 2013, we will reduce support by fifty percent of the difference between the support 
calculated using the study area’s cost per loop as reported by NECA in October 2012 and the 
support as limited by the benchmarks in effect for 2013.  Beginning January 1, 2014, when we 
expect to have updated wire center boundaries, as discussed above, we will update the regression 
coefficients and incorporate the cost data submitted by NECA in October 2013, and support will 
be limited, in full, by the benchmarks in effect for 2014.  
44. By delaying the full impact of the reductions until 2014, we provide companies 
who would be adversely affected adequate time to make adjustments and, if necessary, 
demonstrate that a waiver is warranted either to correct inaccurate boundary information and/or 
“to ensure that consumers in the area continue to receive voice service.”108  For many companies 
affected by the benchmarks, the initial twenty-five percent phase-in reduction is a small 
percentage of their total HCLS.  For those whose reduction would be more than ten percent of 
their HCLS based on NECA cost data, we are limiting the reduction to ten percent for the 
remainder of 2012.  Moreover, continuing to limit the impact of support reductions in 2013 
provides an additional opportunity for carriers to make further adjustments.  On balance, we find 
that this measured transition strikes a reasonable balance between the goals of promptly making 
available additional support to those carriers who, under the new rule, will receive redistributed 
HCLS to further advance broadband deployment and providing an adequate amount of time for 
carriers that will experience reductions in support to make adjustments.  
  
106 588 F.3d 1095, 1102-1103 (D.C. Cir. 2009). 
107 See 47 U.S.C. § 254(b)(5).
108 USF/ICC Transformation Order and FNPRM, 26 FCC at 17839, para. 539.
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45. We also take steps to provide more certainty regarding the operation of the limits 
on capex and opex.109 In particular, to provide carriers with more certainty regarding the impact 
of the fifty percent phase-in in 2013, we will use the same regression coefficients for capex and 
opex in 2013 as those calculated for 2012, which enables carriers to estimate their 2013 support 
now.110 That is, we will not update the regressions, but we will recalculate individual study area 
caps based on the 2011 cost data filed with NECA, which will be submitted to the Commission in 
NECA’s annual filing in October 2012.  This will allow higher caps for those study areas with 
significant network investment in 2011.111 By taking into account the 2011 cost data filed with 
NECA, study areas that may not have qualified for HCLS based on their costs in prior years may 
be eligible to qualify for HCLS in 2013, thereby providing those study areas with additional 
support for broadband investment.  In addition, study areas whose costs drop below their 
computed benchmark for 2013 no longer will be considered capped, and therefore will receive 
support based on their own actual costs and will be eligible to receive redistributed support like 
other uncapped study areas. 
IV. PROCEDURAL MATTERS
A. Paperwork Reduction Act
46. This document does not contain new or modified information collection 
requirements subject to the Paperwork Reduction Act of 1995 (PRA), Public Law 104-13. In 
addition, therefore, it does not contain any new or modified information collection burden for 
small business concerns with fewer than 25 employees, pursuant to the Small Business 
Paperwork Relief Act of 2002, Public Law 107-198, see 44 U.S.C. 3506(c)(4).
B. Final Regulatory Flexibility Act Certification
47. Final Regulatory Flexibility Certification. The Regulatory Flexibility Act of 
1980, as amended (RFA)112 requires that a regulatory flexibility analysis be prepared for 
rulemaking proceedings, unless the agency certifies that "the rule will not have a significant 
economic impact on a substantial number of small entities."113 The RFA generally defines "small 
entity" as having the same meaning as the terms "small business," "small organization," and 
"small governmental jurisdiction."114 In addition, the term "small business" has the same 
  
109 NTCA, for example, expressed concern about “dynamic, year-by-year alteration of the caps.” See Letter 
from Michael R. Romano, NTCA, to Marlene H. Dortch, FCC, WC Docket No. 10-90 et al., at 1-2 (filed 
Mar. 23, 2012); Letter from Michael R. Romano, NTCA, to Marlene H. Dortch, FCC, WC Docket No. 10-
90 et al., at 1-2 (filed Apr. 2, 2012).  
110 In addition, as discussed above, we add several new independent variables that capture attributes that do 
not change over time thereby improving the predictability of support.  See supra section III.C and para. 41.
111 This could allow higher caps for study areas with significant network investment in 2011; for example, 
if that investment causes the percentage of undepreciated plant to grow.
112 The RFA, see 5 U.S.C. § 601 et seq., has been amended by the Contract With America Advancement 
Act of 1996, Pub. L. No. 104-121, 110 Stat. 847 (1996) (CWAAA). Title II of the CWAAA is the Small 
Business Regulatory Enforcement Fairness Act of 1996 (SBREFA).
113 5 U.S.C. § 605(b).
114 5 U.S.C. § 601(6).
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meaning as the term "small business concern" under the Small Business Act.115 A small business 
concern is one which: (1) is independently owned and operated; (2) is not dominant in its field of 
operation; and (3) satisfies any additional criteria established by the Small Business 
Administration (SBA).116
48. This Order implements, but does not otherwise modify, the rule adopted by the 
Commission in USF/ICC Transformation Order.117 These clarifications do not create any 
burdens, benefits, or requirements that were not addressed by the Final Regulatory Flexibility 
Analysis attached to USF/ICC Transformation Order.118 Therefore, we certify that the 
requirements of this order will not have a significant economic impact on a substantial number of 
small entities. The Commission will send a copy of the order including a copy of this final 
certification, in a report to Congress pursuant to the Small Business Regulatory Enforcement 
Fairness Act of 1996, see 5 U.S.C. § 801(a)(1)(A). In addition, the order and this certification will 
be sent to the Chief Counsel for Advocacy of the Small Business Administration, and will be 
published in the Federal Register.  See 5 U.S.C. § 605(b).
C. Congressional Review Act
49. The Commission will send a copy of this order to Congress and the Government 
Accountability Office pursuant to the Congressional Review Act.119
D. Data Quality Act
50. The Commission certifies that it has complied with the Office of Management 
and Budget Final Information Quality Bulletin for Peer Review, 70 Fed. Reg. 2664 (2005), and 
the Data Quality Act, Pub. L. No. 106-554 (2001), codified at 44 U.S.C. § 3516 note, with regard 
to its reliance on influential scientific information in the Report and Order in GN Docket No. 09-
191 and WC Docket No. 07-52.120
V. ORDERING CLAUSES
51. Accordingly, IT IS ORDERED, that pursuant to the authority contained in 
sections 1, 2, 4(i), 201-206, 214, 218-220, 251, 254, and 303(r), and of the Communications Act 
of 1934, as amended, and section 706 of the Telecommunications Act of 1996, 47 U.S.C. §§ 151, 
152, 154(i), 201-206, 214, 218-220, 251, 254, 303(r), 1302, and pursuant to sections 0.91, 0.131, 
0.201(d), 0.291, 0.331, 1.3, and 1.427 of the Commission’s rules, 47 C.F.R. §§ 0.91, 0.131, 
  
115 5 U.S.C. § 601(3) (incorporating by reference the definition of "small business concern" in Small 
Business Act, 15 U.S.C. § 632).  Pursuant to 5 U.S.C. § 601(3), the statutory definition of a small business 
applies "unless an agency, after consultation with the Office of Advocacy of the Small Business 
Administration and after opportunity for public comment, establishes one or more definitions of such term 
which are appropriate to the activities of the agency and publishes such definition(s) in the Federal 
Register."
116 Small Business Act, 15 U.S.C. § 632. 
117 See USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 17742-47, paras. 210-26.
118 See id. at 18324-63, App.O.
119 See 5 U.S.C. 801(a)(1)(A).
120 See Letter from Patrick Halley, FCC, to Marlene Dortch, FCC, WC Docket Nos. 10-90, 07-135, 05-337, 
GN Docket No. 09-51, CC Docket Nos. 01-92, 96-45, 03-109, at Apps. B & C (dated Mar. 9, 2012).
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0.201(d), 0.291, 0.331, 1.3, 1.427 and pursuant to the delegations of authority in paragraphs 210, 
217, 226 and 1404 of USF/ICC Transformation Order, 26 FCC Rcd 17663 (2011), that this Order 
IS ADOPTED, effective thirty (30) days after publication of the text or summary thereof in the 
Federal Register.
52. IT IS FURTHER ORDERED, that the Commission SHALL SEND a copy of this 
Order to Congress and the Government Accountability Office pursuant to the Congressional 
Review Act, see 5 U.S.C. § 801(a)(1)(A).
53. IT IS FURTHER ORDERED, that the Commission’s Consumer and Governmental 
Affairs Bureau, Reference Information Center, SHALL SEND a copy of this Order, including the 
Final Regulatory Flexibility Certification, to the Chief Counsel for Advocacy of the Small 
Business Administration.
FEDERAL COMMUNICATIONS 
COMMISSION
Sharon E. Gillett
Chief
Wireline Competition Bureau
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APPENDIX A
Modeling Limits on Reimbursable Operating and Capital Costs
Overview. This appendix describes a methodology for determining carrier-specific limits 
on High Cost Loop Support (HCLS) payments to rate-of-return cost carriers with very high 
capital expenses (capex) and operating expenses (opex) relative to their similarly situated peers.  
Building on the record received in response to the USF/ICC Transformation FNPRM, and the 
comments of two peer reviewers,1 the methodology adopted today refines the HCLS calculation 
algorithm proposed in the FNPRM.2 This appendix describes both the econometric process used 
to establish carrier-specific limits to HCLS payments for rate-of-return cost companies and the 
implementation process.  
54. The methodology described herein provides a detailed and implementable 
mechanism for examining all rural rate-of-return cost study areas and limiting HCLS payments in 
those study areas that have costs higher than the vast majority of their similarly-situated peers.  
We use data from all the rural rate-of-return cost carriers.3 We use quantile regression for 
parameter estimation rather than ordinary least squares for reasons set forth below.  The most 
significant change in methodology from that described in the FNPRM is that this analysis creates 
two caps, one each on capex and opex, rather than capping eleven different NECA algorithm 
steps.  Because this methodology builds upon NECA’s existing algorithm for calculating average 
loop costs, the revised methodology can be implemented quickly and simply.  
  
1 See Letter from Patrick Halley, FCC, to Marlene Dortch, FCC, WC Docket Nos. 10-90, 07-135, 05-337, 
GN Docket No. 09-51, CC Docket Nos. 01-92, 96-45, 03-109, at Apps. B & C (dated March 9, 2012) 
(Sanyal Peer Review and Waldon Peer Review, respectively).
2 Connect America Fund; A National Broadband Plan for Our Future; Establishing Just and Reasonable 
Rates for Local Exchange Carriers; High-Cost Universal Service Support; Developing a Unified 
Intercarrier Compensation Regime; Federal-State Joint Board on Universal Service; Lifeline and Link-Up;
Universal Service Reform—Mobility Fund; WC Docket Nos. 10-90, 07-135, 05-337, 03-109, CC Docket 
Nos. 01-92, 96-45, GN Docket No. 09-51, WT Docket No. 10-208, Report and Order and Further Notice of 
Proposed Rulemaking, 26 FCC 17663, 18285-94, App. H (2011) (USF/ICC Transformation Order and 
FNPRM); pets. for review pending sub nom. In re: FCC 11-161, No. 11-9900 (10th Cir. filed Dec. 8, 
2011). 
3 The analysis is based on 2010 NECA data.  See National Exchange Carrier Assoc., Inc., Universal Service 
Fund Data, NECA’s Study Results, 2010 Report (NECA 2010 USF Data), 
http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-State_Link/Monitor/usf11r10.zip, available at  
http://transition.fcc.gov/wcb/iatd/neca.html.  Pursuant to section 54.305 of the Commission’s rules, an 
acquiring carrier receives support for exchanges acquired from another carrier at the same per-loop support 
as calculated at the time of transfer.  See 47 C.F.R. § 54.305.  Rural carriers who incorporate acquired 
exchanges into an existing study area are required to provide separately the cost data for the acquired 
exchanges and the pre-acquisition study area.  Per operation of Commission rules (47 C.F.R. § 54.305(b)),  
the support for the acquired portion of the study area is frozen.  See National Exchange Carrier Assoc., Inc., 
NECA’s Overview of Universal Service Fund, Submission of 2010 Study Results, App. F (filed Sept. 30, 
2011) (NECA 2010 USF Overview), http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf11af.zip, available at http://transition.fcc.gov/wcb/iatd/neca.html.  The costs 
associated with the acquired portion of these study areas are generally lower because the acquired 
exchanges were from lower-cost carriers, so it would not be reasonable to add either the lines or the costs 
associated with those lines into the methodology as they would tend to make other cost company costs look 
high by comparison.   
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55. Background.  Today, cost companies eligible for HCLS file with NECA annual 
detailed cost data, pursuant to Part 36, at the study area level reporting their costs in many 
different cost categories.4 The cost categories are then fed into NECA’s 26-step Cost Company 
Loop Cost Algorithm.5 The early algorithm steps calculate intermediate values (based on the 
reported cost categories) and feed into the later algorithm steps.  Algorithm step 25, which 
calculates the carrier’s total unseparated cost for that study area, sums several of the preceding 
algorithm steps and then feeds into algorithm step 26, which computes the carrier’s total 
unseparated cost per-loop for that study area by dividing the value for algorithm step 25 by the 
number loops in the study area.6 HCLS for each study area is then calculated by the Expense 
Adjustment Algorithm.7 This algorithm ultimately determines HCLS payments based on a study 
area’s cost per-loop compared to the nationwide average cost per-loop.8  
56. Methodology for Imposing Limits. Appendix H of the FNPRM proposed to 
create 11 caps (four capex caps and seven opex caps).9 Several commenters argued that we 
should reduce the number of caps because efficient carriers might limit their total expenditures by 
spending a large amount in one cost category to avoid spending even more money in other 
categories.10 Additionally, some commenters and one of the peer reviewers suggested the use of 
a single cap, that is, a single dependent variable in the cost regressions, noting that the 90th
percentile of total cost is not the sum of the 90th percentiles of cost components.11  
57. For the reasons described in the HCLS Benchmarks Implementation Order, we 
conclude that using two caps, one for capex and one for opex, provides the appropriate balance 
between identifying unusually high costs and providing carriers operational flexibility.12  
58. To implement this revised framework, the updated methodology separates 
algorithm step 25 (Total Unseparated Costs) into total capex and total opex cost components.  
The current algorithm step 25 sums algorithm steps 13 through 24.  As a result of the updated 
methodology, capex components are now summed into algorithm step 25A and opex components
are summed into algorithm step 25B.  Consistent with the methodology proposed in Appendix H, 
  
4 See NECA 2010 USF Overview, App. A, at http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf10af.zip.
5 See NECA 2010 USF Overview, App. B, at http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf10af.zip.
6 Although NECA labels each algorithm step with a line number, we continue to use the word “step” in our 
description of the methodology to avoid possible confusion of lines with loops.
7 See NECA 2010 USF Overview, App. B, at http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf10af.zip.
8 The national average cost per loop used in the HCLS support calculation is set to ensure that total HCLS 
disbursements stay within the HCLS cap that year rather than the actual average loop cost.   See 47 C.F.R. 
§§ 36.603(a), 36.622.  Rural carriers receive support equal to 65 percent of their costs in excess of 115 
percent of the NACPL.  Additionally, carriers receive support equal to 75 percent for costs in excess of 150 
percent of the NACPL.  See 47 C.F.R. §§ 36.601-.631.
9 USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 18288-89, App. H, paras. 15-16.
10 Accipiter Comments at 19 and NASUCA Comments at 52.  Rural Association Comments, App. E, at 6-7 
(Koenker).   
11 Nebraska Rural Comments/ Rural Associations Comments at App. E, 5 (Koenker); Sanyal Peer Review 
at 1.
12 See supra HCLS Benchmarks Implementation Order at para. 15.  
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a company whose actual costs for algorithm step 25A or algorithm step 25B are above the 90th
percentile for that cost, compared to similarly situated companies, would be limited to recovering 
amounts that correspond to the 90th percentile of capex or opex costs, i.e. the costs that ninety 
percent of similarly situated companies would be estimated to have by the regression equation.13  
Algorithm step 25C becomes the new Total Unseparated Costs by summing algorithm steps 25A 
and 25B.  It then feeds into algorithm step 26 (Study Area Cost per Loop) and the subsequent 
Expense Adjustment Algorithm as before.  We identify the capex and opex components below.
59. Use of Quantile Regression.  As proposed in the FNPRM, we use quantile 
regression to estimate the caps for the capex and opex cost components.14  The goal of the 
regression methodology is to identify study areas that have capex and opex costs that are much 
higher than their similarly-situated peers and to cap their cost recovery at amounts that are no 
higher than the vast majority of similarly-situated study areas.  Quantile regression allows us to 
directly estimate the 90th percentile costs for study areas with given characteristics. The critical 
values become the capex and opex caps.  
60. We conclude that quantile regression is preferable to ordinary least squares for 
this application.  Ordinary least squares regression cannot be used to identify the proper critical 
values in the tail of the cost distribution without making strong assumptions about the nature of 
the cost distribution, in particular, that error terms are Gaussian (normally distributed) and 
homoscedastic.15 In contrast, quantile regression requires no assumptions about the error terms.  
This is important because the error terms of the ordinary least squares regressions for capex and 
opex are both heteroscedastic and non-normal.16 While methods exist to estimate corrections for   
heteroscedasticity and non-normal error terms in ordinary least squares regression, these would 
require additional computational steps without improving the precision of the quantile estimate.  
61. Quantile regression is also more resistant to the presence of outliers than 
ordinary least squares, which can produce biased parameter estimates when outliers are present.17
Thus, quantile regression parameter estimates are more stable than ordinary least squares 
parameter estimates if the data include outliers.18  And although ordinary least squares has 
methods available for dealing with outliers, such as excluding them from the analysis or using 
  
13 The term “similarly-situated peers” means that, based on data from all the carriers in the analysis, if there 
were (hypothetically) 100 study areas with independent variable values that were the same as those with the 
study area in question, 90 of them would be expected to have capex and opex costs equal to or less than the 
90th percentile prediction.
14 Both peer reviewers agreed that quantile regression is the proper tool for this analysis.  Waldon Peer 
Review at 1 and Sanyal Peer Review at 1.  See also, Rural Associations Comments at App. E, 7 (Koenker).
15 Even though OLS provides unbiased parameter estimates in the presence of heteroscedasticity, the 
standard errors are not unbiased.  Because the standard errors would be required to determine which 
observations lie above the critical cutoff values, in the presence of problems such as heteroscedasticity, 
some adjustment to the standard errors would be needed.  
16 For the capex model, we ran the regressions using ordinary least squares and performed two tests for 
heteroscedasticity: the White test and the Breusch-Pagan / Cook-Weisberg test. Both tests clearly rejected 
the null hypothesis of homoscedasticity with a p-value of less than .0001. Further, the Cameron & 
Trivedi's decomposition of IM-test shows that the error terms are not normal – the error terms suffer from 
kurtosis (p-value=0.0051), and  skewness (p-value = 0.0017), which are  statistically significant.  
17 G.S. Madalla, Introduction to Econometrics, 2nd Ed. 88 (1992) (Macmillan Publishing Co).
18 Lingxin Hao and Daniel Q. Naiman, Quantile Regression 20 (2007) (Sage Publications).
Federal Communications Commission DA 12-646
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dummy variables, these methods generally require an exercise of judgment to identify outliers.  
Quantile regression largely avoids the need to make such determinations.
62. Another significant advantage of quantile regression is that it allows the 
independent variables to have different effects on the dependent variable in the different 
quantiles.19 Thus, for example, as the percentage of a study area that is national parkland 
increases (holding everything else constant), the size of the study area’s cost increase could differ 
based on where it falls in the cost distribution of similarly-situated study areas (which quantile it 
is in).   This is not allowed in ordinary least squares, which assumes that the marginal effect is the 
same on all study areas.  Given that we are examining study areas with high costs relative to other 
study areas conditioned on the independent variables used in the design, this is a helpful property.
63. Use of the Log-Log Specification. As proposed in the FNPRM, we use the log-
log specification, and therefore take the natural log of the variables most sensitive to scale effects.  
For the dependent variables, the capex regression uses the natural log of capex, and the opex 
regression uses the natural log of opex.  We also use the natural logs of all independent variables 
used in the methodology except those that are dummy variables, a pure index, or a percentage 
(namely, Climate, Difficulty, PctTribalLand, PctPark, Alaska, MW, and NE).    
64. Some commenters and a peer reviewer argued that the Commission failed to 
demonstrate the need for taking the natural logs for both the dependent and independent 
variables.20 Additionally, a commenter argued that doing so was appropriate when the dependent 
variable is known to have a multiplicative relationship, and therefore the regressions should use 
the variables in levels (i.e., that we should not take the natural log of the variables) or that we 
should examine cost per loop.21 Another commenter, as well as both peer reviewers, noted that 
the manner in which zeros are dealt with, even when using quantile regression, can affect the 
results.22  
65. Because our econometric specification is a reduced form, taking the logs of both 
the dependent and independent variables is acceptable so long as the resulting relationship is 
linear.  We disagree with commenters who suggested that we should leave the variables in levels.  
Figure 1 shows that the scatter plot of (the level of) opex versus (the level of) the number of loops 
is not obviously linear.   In contrast, Figure 2 displays the scatter plot of the natural log of opex 
versus the natural log of loops, and shows that the relationship is linear.  Further, in a simple 
ordinary least squares regression of opex on the number of loops and the natural log of the 
number of loops, both variables are significant.  This indicates that the relationship between opex 
and loops is nonlinear.  
66. Further, some commenters argued that we should predict costs per loop and that 
if we took this approach, density would become an important independent variable.23 Figure 3 
  
19 See Fig. 4 and surrounding text in “Quantile Regression” by Koenker and Hallock, Journal of Economic 
Perspectives, Volume 15, Number 4, Fall 2001, Pages 143–156.
20 Nebraska Rural Comments Pages 41-45; NASUCA Comments at 54; Sanyal Peer Review at 3;  Waldon 
Peer Review at 2.
21 Nebraska Rural Independent Companies (NRIC) Comments at 42.
22 Rural Associations Comments at App. E, 8 (Koenker); Sanyal Peer Review at 3; Waldon Peer Review at 
2.
23 NRIC Comments at 14-15. 
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shows that opex per loop as a function of density is nonlinear.24 In contrast, Figure 4 shows that 
the relationship between the natural log of opex and density is linear.  Similarly, the graph of 
capex versus road miles does not appear to be linear, but natural log of capex versus the natural 
log of road miles does.  We thus conclude that the log transformation of the dependent and 
independent variables that are scale sensitive is the appropriate specification. 
67. Finally, the reduction in the number of regressions in the final methodology 
eliminates the problem of taking the natural log of zero in the dependent variable.  Because the 
final methodology uses two regressions rather than eleven, the values of the dependent variables 
are never less than or equal to zero, as was the case for many of the values in the algorithm step 8 
regression as originally proposed in the FNPRM.  Further, none of the independent variables that 
we use have zero values.25  
68. Fit of the Regression Model. Some commenters argued that the regressions in 
the proposed methodology suffered from low pseudo R-square values, and therefore the proposed 
methodology should be abandoned.26 Another commenter asserted that alternative models (i.e., 
those that were based on levels or on cost per loop) were superior to the proposed model because 
the R-square values were higher when using levels or cost per loop.27  
69. We conclude that our revised methodology offers sufficient predictive power. 
Although the pseudo R-square values in the proposed methodology ranged from 0.2745 to 
0.5863, the pseudo R-square values in the revised methodology are .6684 for capex and 0.6234 
for opex. We conclude that our final specification has sufficient predictive power to provide a 
reliable method for setting reasonable limits on carriers’ costs. We also note that because the 
dependent variables are different, and because we are performing quantile regression rather than 
ordinary least squares regression – the method proposed by NRIC – we cannot directly compare 
the pseudo R-square values from our methodology to the R-square values from commenters’ 
alternative specifications.28  
70. Elimination of Independent Variables from Specification.  If a variable is 
significant in either the capex or opex regression, we include it in both regressions.  We are 
cognizant of Dr. Koenker’s comments that in quantile regression (as in ordinary least squares 
regression), the inclusion of non-significant variables can inflate the variance of the prediction 
  
24 This is unsurprising: Chart 2 (page 14) in NRIC’s Capex Study shows a non-linear relationship as well.  
See Letter from Thomas Moorman, Counsel to Nebraska Rural Independent Companies, to Marlene H. 
Dortch, Secretary, FCC, WC Docket Nos. 10-90, 05-337, GN Docket No. 09-51, Attach., at 14 (Nebraska 
Rural Independent Companies’ Capital Expenditure Study:  Predicting the Cost of Fiber to the Premise) 
(dated Jan. 7, 2011) (NRIC’s Capex Study).
25 In testing land area, housing units and census blocks with breakouts for urbanized areas or urbanized 
clusters, we used the totals of these variables and the percent that were rural.  All study areas have positive 
values for land area, census blocks and housing units, so we were able to calculate the natural logs for all 
observations for these variables.  Ultimately, however, census blocks and housing units were not included 
in the final methodology.  Also, a peer reviewer noted that when calculating the caps, the methodology as 
proposed in the FNPRM failed to account for the fact that we added one to all the dependent variables for 
which we took the natural logs.  See Waldon Peer Review at 3.  Because we did not need to add 1 to any of 
the dependent variables in the refined methodology that we now adopt, that situation is impossible here.
26 NASUCA Comments at 41, 49.  
27 NRIC at 15. 
28 W. Greene, Econometric Analysis, 2nd Ed. 54 (1993) (Macmillan Publishing Co).
Federal Communications Commission DA 12-646
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(yet leave the prediction unbiased).29 Nevertheless, we keep variables that are significant in 
either regression in both regressions because they can have offsetting effects in the regressions.  
For example, a carrier facing close-to-the-surface bedrock (which would make trenching more 
difficult than usual) may find it efficient to use an aerial solution rather than to trench through 
bedrock.  The presence of close-to-the-surface bedrock could then lower the carrier’s capex cost 
but raise its opex cost because cables on poles may be more costly to maintain.  Thus, bedrock
could raise that carrier’s opex costs but could plausibly lower that carrier’s capex expenditures.  If 
we omitted bedrock from the capex regression, we could be biasing the coefficient values in the 
regression and therefore biasing the predicted 90th percentile values for capex. 
71. Further, we note that unlike the regressions in the proposed methodology, the 
vast majority of the variables in the updated methodology’s regressions are significant in both 
regressions.  We also note that adding statistically insignificant variables to our regressions do not 
bias our predictions.30  In light of all these considerations, we therefore believe it is better to 
include variables that are significant in either of the regressions in both.  
72. In its Updated Opex Study, NRIC suggests creating a cap that uses not just the 
regression coefficients, but also adds a standard deviation to each regression coefficient.31 We 
decline to do so here.  Adding the estimated standard error to the parameter estimates is a non-
standard way of creating a confidence interval in the context of quantile regression.  In contrast, 
using the regression quantiles methodology gives a direct unbiased estimate of the 90th percentile 
predictions for capex and opex.32  
73. Use of Census Block Centroids.  Consistent with the methodology set forth in 
the FNPRM, we determine which census blocks are in each study area by using the census 
blocks’ centroids.  This enables us to generate certain demographic variables for each study area, 
such as the number of housing units in a study area.  Because study area boundaries do not 
always coincide with census block boundaries, some census blocks will fall into two different 
study areas.  Where a census block’s centroid falls inside the study area boundary, we associate 
that block with that study area, and if a census block’s centroid falls outside of the study area 
boundary, we do not.  
74. Some commenters suggested that associating census blocks with study areas 
based on the census block’s centroid can distort population and/or housing unit counts.33 While 
NRIC argues that such errors do not necessarily cancel each other out, they did not have a 
material impact on the cost caps in the case of Nebraska.34 We conclude that our approach is 
reasonable.  We could split census blocks that cross study area boundaries into pieces and then 
  
29 Rural Associations Comments at App. E, 7 (Koenker).
30 On this point Koenker agreed.  See id. 
31 See Letter from Cheryl L. Parrino, Parrino Strategic Consulting Group, to Marlene H. Dortch, Secretary, 
FCC, GN Docket No. 09-51, WC Docket Nos. 10-90, 05-337, CC Docket No. 01-92, Attach. 2 at 3-4 
(Operating Expense Study Sponsored by the Nebraska Rural Companies:  Update to Predicting the 
Operating Expenses of Rate-of-Return Telecommunications Companies) (dated Sept. 29, 2011) (Updated 
Opex Study).
32 Another option would be to adjust the capex and opex 90th percentile predictions by a standard error.  We 
decline to do this for the same reason we decline to add a standard error to each variable coefficient.
33 Accipiter Comments at 14, Moss Adams Comments at 14, NRIC Comments at 30, Nemont Reply 
Comments at 3.
34 NRIC Comments at 30-33.    
Federal Communications Commission DA 12-646
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assume that end-user locations are spread evenly within census blocks so that we proportionately 
attribute housing units to study areas.  This would increase computational complexity but not 
necessarily accuracy because end-user locations are not uniformly distributed within census 
blocks.  We further note that the vast majority of study areas have many blocks and therefore 
such errors would tend to cancel each other out.  Of the 726 study areas covered by the updated 
methodology have 1.1 million census blocks in them, so on average, each study area has about 
1,567 census blocks.  The smallest number of census blocks in a study area is 26, the 5th
percentile is 132, and the 10th percentile is 187.  Therefore, the vast majority of study areas would 
not be affected by this issue.  Also, there is only one variable that uses the number of housing 
units (which is derived from the census blocks in the analysis), the natural log of density (see 
LnDensity below), so the effect of any error should be small.   
75. Dependent Variables.  As described above, the dependent variables in the 
regressions are the natural log of the capex components and the natural log of opex components 
of algorithm step 25.  Below we define capex and opex, but in short, we assign all the constituent 
parts of algorithm step 25, which calculates the carrier’s total unseparated cost for that study area, 
to either capex or opex.  Because we are now aggregating capex costs into a single capex 
variable, and operational costs into an opex variable, variations in individual capex and opex 
components are smoothed.  This allows us to include data on all elements of capex and opex 
while still achieving good regression fits.
76. For the purpose of the updated methodology that we adopt today, we define 
capex to be the plant-related costs in the current algorithm step 25.  We thus include the return to 
capital components, which are algorithm step 23 and algorithm step 24.35 We also include 
depreciation in capex (algorithm step 17 and algorithm step 18).36 Although accounting 
textbooks typically define depreciation as an operating expense, they do so because firms need to 
recognize a periodic charge against earnings to expense the declining value of assets over the 
estimated life of the assets.37 Because depreciation is inherently tied to the carriers’ asset 
investment decisions, we assign it to capex.  We note that in its Opex Study, NRIC considered 
depreciation to be sufficiently non-operations-based that NRIC took depreciation out of opex.38  
Although some commenters urged us to exclude depreciation from the methodology altogether,39
  
35 Specifically, algorithm step 23 is the return component for cable and wire facility Category 1, and 
algorithm step 24 is the return component for central office equipment Category 4.13.  Included in these 
return components are algorithm steps 7 and 8 (materials and supplies assigned to cable and wire facilities 
Category 1 and central office equipment category 4.13 respectively), which are plant-related capital costs, 
and which were erroneously considered to be opex in Appendix H.
36 Algorithm step 17 is depreciation and amortization expense assigned to cable and wire facility Category 
1.  Algorithm step 18 is depreciation and amortization expense assigned to central office equipment 
Category 4.13.
37 See, e.g. Williams, Stanga and Holder, Second Edition, Intermediate Accounting, Harcourt Brace 
Jovanovich, Inc. [1987] Page 550.
38 See Letter from Paul M. Schudel, Counsel to Nebraska Rural Independent Companies, to Marlene H. 
Dortch, Secretary, FCC, WC Docket Nos. 10-90, 07-135, 05-337, 03-109, GN Docket No. 09-51, CC 
Docket Nos. 01-92, 96-45, Attach. at 6 (Operating Expense Study Sponsored by the Nebraska Rural 
Independent Companies and Telegee Alliance of Certified Public Accounting Firms:  Predicting the 
Operating Expenses of Rate-of-Return Telecommunications Companies) (dated May 10, 2011) (NRIC’s 
Opex Study).  The NRIC Capex Study did not use accounting costs, and so it did not directly ascribe 
depreciation to capex.
39 See, e.g., NRIC Comments at 59; Moss Adams et al. Comments at 15-18; Chillicothe Comments at 6-9.
Federal Communications Commission DA 12-646
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we disagree for two reasons.  First, depreciation is a valid measure of plant that goes beyond the 
measure of net plant that goes into algorithm steps 23 and 24.   Depreciation is a function of not 
just the amount of gross plant, but also the useful life of the plant that is used, a meaningful 
measure.  Second, by including depreciation, we include all the portions of the existing algorithm 
step 25.  
77. For the purpose of the updated methodology, we define opex to be the remaining 
components of the current algorithm step 25.  We include algorithm steps 13 and 14 in opex 
because they are maintenance expenses.40 We also include algorithm steps 15 and 16 in opex 
because they are network expenses.41 Algorithm step 21 in included in opex because it is 
corporate benefits.42 Below we discuss in more detail the other algorithm steps included in opex.
78. Algorithm step 19 is corporate operations expense, which is limited in 
accordance with section 36.621(a)(4) of the Commission’s recently revised rules.43 Although this 
step is already limited by the updated formula limiting recovery of corporate operations expenses, 
and was excluded in the methodology as proposed in the FNPRM, we now include it in opex 
because the goal of the updated methodology is to examine opex in its entirety.  Algorithm step 
19 uses DL535 and DL550, which are the lesser of the allowable or actual corporate operations 
expenses, not the unadjusted corporate operations expenses, so a study area that is affected by 
§36.621(a)(4) is not being affected twice by the higher-than-allowable amount.  
79. We similarly include algorithm step 20 (operating taxes) in opex in the revised 
methodology.  Although the methodology proposed in Appendix H excluded step 20, after further 
consideration, we concluded that taxes are an expense that must be paid, just like other 
operational expenses.44
80. Finally, we include algorithm step 22 (rents) in opex.45 This step was excluded 
from the proposed methodology in Appendix H because the regression fit was poor.  Because we 
  
40 Algorithm step 13 is cable and wire facilities maintenance and algorithm step 14 is central office 
equipment maintenance expense assigned to Category 4.13.
41 Algorithm step 15 is network support expense plus general support expenses assigned to cable and wire 
facility Category 1 and central office equipment Category 4.13.  Algorithm step 16 is network operations 
expenses assigned to cable and wire facility Category 1 and central office equipment Category 4.13.  These 
expenses are not capitalized in accordance with FCC Report 43-04 – Report Definition page 24, available 
at http://transition.fcc.gov/wcb/armis/documents/2007PDFs/4304c07.pdf.
42 Specifically, algorithm step 21 is benefits other than corporate operations expense assigned to cable and 
wire facility Category 1 and central office equipment Category 4.13.  
43 Specifically, algorithm step 19 is corporate operations expense assigned to cable and wire facility 
Category 4.13, which is limited in accordance with §36.621(a)(4).
44 We understand that tax rates are beyond a carrier’s control, but so are many other rates and prices, such 
as prevailing local wage rates or the prices of electricity and copper. We expect carriers relying on 
universal service support, like providers operating in the market, to make efficient investment and
operating decisions in light of these costs, and by estimating the 90th percentile as the basis for the cost 
caps, we allow providers substantial flexibility to do so without exceeding the caps.   Further, were we to 
have a single cap based on total unseparated costs (algorithm step 25) as some commenters suggest rather 
than the two existing caps, we would be including taxes.  Rural Association Comments, App. E, at 5 
(Koenker); Sanyal Peer Review at 1. 
45 Specifically, algorithm step 22 is rents assigned to cable and wire facility Category 1 and central office 
equipment Category 4.13.
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can now include rents as a part of opex as a whole as opposed to in its own separate category, we 
include it in the updated methodology.
81. Independent Variable Specification.  Our reduced-form regression specification 
uses as independent variables exogenous factors that we believe affect a study area’s capex and 
opex.  These variables fall into the following categories: scale, age of plant, customer dispersion, 
and geography.46 Additionally, the independent variables we examined and include in this 
updated methodology are those that are currently available to the Commission and exist for all 
study areas in the regression analysis.  
82. To the extent that we had the requisite data, we also tested other variables that 
commenters suggested be included.  First we describe the variables we include in the 
methodology, then the variables that we examined and ultimately excluded, and finally, the 
variables that commenters suggested but that we could not include in the methodology due to data 
issues.  All geographic independent variables were rolled up to the study area using Tele Atlas 
study area boundary data.47  We do not include inputs to the production process (such as 
employees) in the regressions because carriers can choose the amount of these inputs.  In other 
words, carriers with markedly higher costs than their similarly situated peers may be using 
substantially more of these inputs.48  
83. Table 1 and Table 2 respectively show descriptive statistics for and correlations 
between the variables included in the updated methodology.  The regression results are included 
in Table 3.49  
84. Scale. We use several variables to measure scale: the number of loops, road 
miles, road crossings, and the number of study areas held under common control in the state.  All 
the scale measures we include in the updated methodology are significant in the opex regression 
and all but LnRoadMiles are significant in the capex regression.50  
  
46 Some commenters stated that some variables in Appendix H were not cost drivers or were not good 
proxies.  Accipiter Comments at 25-26, Moss Adams at 12. This is largely moot because we have mostly 
eliminated the variables criticized by the commenters, such as the number of census blocks in rural areas, 
from the final methodology.  We also point out that is not necessary to have only cost drivers in the 
analysis if proxies can be found that are sufficiently correlated with the cost drivers.  We used cost-driving 
variables directly where available and proxies where necessary.  
47 TomTom Telecommunications Suite 2011.09 (formerly Tele Atlas North America). TomTom acquired 
Tele Atlas and subsequently re-branded the wire center boundary data. Because commenters refer to the 
earlier brand name, for purposes of this appendix and the accompanying order, we refer to the wire center 
boundary data as Tele Atlas data.  The Tele Atlas wire center boundaries were dissolved to create study 
area boundaries.  Earlier study area boundary versions and other information were also used to exclude the 
acquired portions of study areas that were associated with frozen support.  See Letter from Patrick Halley, 
FCC, to Marlene Dortch, FCC, WC Docket Nos. 10-90, 07-135, 05-337, GN Docket No. 09-51, CC Docket 
Nos. 01-92, 96-45, 03-109.
48 We thus exclude variables that the updated NRIC Opex study included such as employees and net 
wireline plant per access line.  
49 The data and the code to verify this are available at the following: http://www.fcc.gov/encyclopedia/rate-
return-resources.
50 For the purpose of the updated methodology, we consider a variable to be significant when the p-value is 
less than 0.10.  While studies often use a cutoff p-value of 0.05, that is generally for statistical inference.  
Because we are creating predictions, we wish to be somewhat more inclusive to lessen the chance of 
omitted variable bias, so we therefore used the higher p-value. 
Federal Communications Commission DA 12-646
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85. Because the number of loops is a direct measure for the scale of the study area, 
we include the natural log of the number of loops (LnLoops) in the updated methodology.51 We 
expect that the amount of plant a carrier must install will be positively correlated with capex and 
opex costs because more loops require more investment and operations cost.52  LnLoops is
statistically significant.
86. We also include the natural log of the number of road miles (LnRoadMiles), 
which is a proxy for total loop length.53  Several commenters argued that some measure of loop 
length was an important variable.54 Although some (but not all) cost carriers may report such 
data to the Department of Agriculture’s Rural Utilities Service (RUS), such data are both 
incomplete and unavailable to the Bureau.  We agree with NRIC that cable generally follows 
roads, so the number of road miles in a study area should correlate with the cabling required to 
serve that area.55  
87. In its Capital Expenditure Study, NRIC predicted that road intersections would 
slow fiber construction and impose other costs and found that the number of intersections was a 
significant predictor of predicted construction costs.56 We agree that the number of such 
crossings is another good proxy for scale and therefore included the natural log of road crossings 
(LnRoadCrossings).57  
88. The scale variables (LnRoadMiles) and road crossings (LnRoadCrossings) are 
significant in the opex regression, but have the opposite sign from each other.  Only road 
  
51 We calculate LnLoops using the 2010 DL060 loop count in NECA’s October 2011 filing.  See NECA 
2010 USF Data, http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/usf11r10.zip, available at  http://transition.fcc.gov/wcb/iatd/neca.html.  We use DL060 
loops because the capex and opex costs we use are associated with all the study area’s loops, not just the 
supported DL070 loops.
52 Arguably loops are an input to the production process, which as we emphasize above, should be excluded 
from the independent variable list.  Because loops are put in at a customer’s request, however, and because 
carriers are generally restricted in their ability to refuse such requests pursuant to carrier-of-last-resort 
obligations, we do not consider loop counts to be a carrier-controlled cost driver like the number of 
employees.
53 For most of the study areas, road miles data come from the ESRI ArcGIS StreetMap 
(http://gislab.allegheny.edu/Documents/StreeMap_USA.pdf) (ESRI Street Map).  Because ESRI Street 
Map does not include data for Guam and American Samoa, we used Tiger files for these study areas, which 
because they were generated for Census applications, may be less accurate for transportation applications.  
The Tiger files are available at the US 2010 Census website: http://www2.census.gov/cgi-
bin/shapefiles2009/national-files.  Because only two study areas were affected, we concluded that using a 
separate source data for road miles for these study areas reasonable.  We found that the slope on 
LnRoadMiles and LnRoadCrossings were unaffected by using the Tiger files for Guam and American 
Samoa.
54 See Central Texas at 5 and Accipiter Comments at 26. 
55 NRIC Comments at 16.
56 NRIC Capex Study at 10.  We believe that maintenance costs would also be higher in the presence of 
additional road crossings because of travel delays and the increased costs associated with the dangers of 
intersections.
57 NRIC reiterated the usefulness of the road crossing data in its comments. NRIC Comments at 25.  Note 
that we calculate road crossings rather than intersections because counting intersections is computationally 
very burdensome.  Two roads that cross at right angles (forming a plus sign) create four crossings.  We 
believe that road crossings is a good proxy for road intersections.
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crossings are significant in the capex regression.  
89. Our last scale variable is the number of study areas in the state that are owned by 
the same holding company or have common control in the state (LnStateSACs).58 We anticipated 
that this variable would be a good predictor of capex and opex costs because some expenses 
could be shared among study areas.  For capex, study areas that are part of a larger organization 
(i.e., the study area has more commonly-owned study areas in the state) may allow installation 
crews to be deployed more efficiently.  For opex, study areas that are part of a larger organization 
can share various expenses, especially headquarters-related expenses, which would allow for 
some specialization among management employees.  We found LnStateSACs to be significant for 
both capex and opex.
90. Age of Plant.  Commenters stated that age of plant was an important variable for 
two reasons: first, because the cost of recent capital investments is higher due to inflation  and 
second, because the return component of capital expenses is calculated on net plant, and recent 
investment will be depreciated less fully than old plant.59 While the Bureau cannot readily 
determine the average age of carriers’ plant, the percentage of the plant that has not yet been 
depreciated (PctUndepPlant) should be highly correlated with plant age: more recently installed 
plant will be less depreciated.60 Holding all else constant, the less of a carrier’s plant is 
depreciated (which yields a higher PctUndepPlant), the higher its capex should be.  The intuition 
for the effect of PctUndepPlant on opex is ambiguous.  We find that this variable is a strong cost 
predictor for both capex and opex.  
91. Customer Dispersion.  We include three variables that account for customer 
dispersion.  Many commenters asserted that density was an important cost predictor, and that 
their costs are high in part because of the rural areas they serve.61 We therefore expect that 
density is negatively correlated with both capex and opex costs.  Density (LnDensity) is the 
natural log of the following quotient: number of housing units in the study area divided by the 
size of the study area in square miles as reported by the Tele Atlas boundaries.62 We find that it is 
significant in both regressions.63  
  
58 The holding company/common control ownership information can be found in the Universal Service 
Monitoring Report, CC Docket No. 98-202, app. (2011) (HC NECA ILEC Support Data - by Study 
Area.xls), available at http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-
State_Link/Monitor/2011_MR_Supplementary_Material.zip.  (last visited Feb. 16, 2012)
59 See, e.g., Accipiter Comments at 5, Guadalupe Comments at 3.  In its comments, Carriers for Progress in 
Rural America (at 6) states that population growth should be added to the model to account for the new 
plant associated with new neighborhoods.  The variables percentage change in undepreciated plant and 
percentage change in loops account for this. 
60 We calculate the percentage of the plant that has yet to be depreciated as 100 * DL220 / DL160 (i.e., 
100*net plant/gross plant).
61 See, e.g., Guadalupe Valley Comments at 3, Interbel Comments at 10, Moss Adams Comments at 8. 
62 See generally, supra note 47.  We also tested LnWtDensity, which accounts for density at the block 
level.  We calculate this by calculating each census block’s density (housing units in the block divided by 
square miles of the block) and then calculating the weighted average density weighting by the number of 
housing units in each block.  LnWtDensity is the natural log of weighted density.  LnWtDensity is not 
significant.
63 Because we are using a log-log model, the natural log of density (the number of housing units divided by 
square miles) captures the effects of both the size of the study area and the number of housing units.  We 
(continued....)
Federal Communications Commission DA 12-646
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92. We also include the natural log of the number of exchanges in the study area as a 
proxy for customer dispersion (LnExchanges).  Although the straightforward measure of density 
calculates the average customer density within the study area, the number of exchanges roughly 
accounts for the number of population centers within the study area because most population 
centers will have their own exchanges.  The more population centers (holding other factors 
constant), the higher capex and opex costs will be because more cabling will be required to 
connect the customers within the study area to each other, and the farther the employees will need 
to drive to fix any troubles. The variable LnExchanges is significant in both regressions.  
93. Our final customer dispersion variable accounts for the portion of households in 
urban clusters or urbanized areas (PctUrban).64 To the extent that rural carriers also serve
urbanized pockets, we would expect their costs to be higher, holding all other variables (including 
road miles) constant, because wage rates may be higher near urbanized areas.  We thus expect 
PctUrban to be positively correlated to opex, and it is.  PctUrban’s effect on capex is less clear: 
the labor costs associated with trenching are capitalized, so to the extent that labor near urban 
areas is more expensive, the higher capital costs should be.  But capitalized labor is only one of 
many costs in capex, so the effect may not be strong.  PctUrban is positive but not significant in 
the capex regression. 
94. Geography.  Commenters suggested the inclusion of several geographically-
based variables such as soil type.  We agree.  When creating many of the indexes for geographic 
variables, we took into account the location of roads within the study area because cabling 
generally follows roads.65 For these variables we overlaid road data in the study area with our 
sources of geographic information and calculated variables that were either percentages, or where 
appropriate, averages.  
95. For example, commenters stated that soil type is an important cost predictor.66  
We therefore constructed a soil difficulty index (Difficulty).  This index is similar to the index in 
the NRIC capex study in which soil types were matched with construction difficulty values 
established for the Commission’s High Cost Proxy Model (HCPM), which the Commission used 
to calculate high-cost support for non-rural carriers.67 The STATSGO2 database we use lists 
more soil types than the original STATSGO database, however, so there are many soil types in 
the STATSGO2 database for which there are no construction difficulty values from the HCPM.  
NRIC tried several options, but settled on assuming the soil difficulty level to be 1 (the lowest 
level of difficulty) for those soil types not found in the table.68 Our soil difficulty index builds on 
the NRIC methodology.  When faced with soil types that do not appear on the original HCPM 
list, we interpolate the difficulty rating based on similar soil types in the HCPM list.  We 
manually associate unmatched soil types from the STATSGO2 data with similar soil texture in 
  
(...continued from previous page)
tested the regressions with the natural log of housing units and the natural log of square miles (but omitting 
the natural log of density), and the results were very similar.
64 PctUrban is the ratio of the number of housing units in either urbanized clusters or urbanized areas 
divided by the total number of housing units in the study area.  
65 See supra para. 86.
66 See, e.g., ATC Comments at 3, Calaveras Comments at 7, Eagle Telephone Comments at 4, Guadalupe 
Comments at 2.
67 NRIC Capex study at 9.  
68 See Letter from Thomas J. Moorman, Counsel to Nebraska Rural Independent Companies, to Marlene H. 
Dortch, FCC, Attach. (dated Jan.27, 2012).
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the original HCPM table, and used the difficulty rating of the similar soil types in the HCPM list 
for the new soil type in the STATSGO2 database.  The new extended table associates a difficulty 
rating for all soil types in the STATSGO2 database.69 We then calculated the average soil 
construction value along the roads in each study area.  
96. We find soil difficulty to be a statistically significant predictor in opex.  
Although NRIC found that soil difficulty was a significant predictor of construction costs, 
Difficulty is positive in our capex, but not significant.70 Although we also expected soil difficulty 
to be positive in our capex regression, an alternative hypothesis is that in locations where 
trenching is unusually expensive, an efficient carrier may install aerial plant (use poles rather than 
trench).  This would involve lower capital costs than trenching, but higher future operations costs.  
Thus, it is plausible that in the presence of difficult-to-trench soils, carriers experience no obvious 
change in capex or, in some circumstances possibly even reduced capex costs.  
97. Because NRIC suggested that we account for close-to-the-surface bedrock, we 
calculated the percentage of road miles within each study area where bedrock was within 36 
inches of the surface (PctBedrock36).71 The NRIC capex study found that predicted construction 
costs were positively associated with close-to-the-surface bedrock, so we might expect that the 
coefficient on PctBedrock36 should be positive in the capex regression.72  
98. We find that close-to-the-surface bedrock is significant in the opex regression, 
but that it is not significant in the capex regression.  This result could occur for the same reasons 
as for soil construction difficulty above or because the construction difficulty of bedrock has 
already been captured by the soil difficulty variable.  
99. Pointing to the NRIC Capex study, which suggested that construction costs are 
higher in areas where the ground is frozen more often, several commenters argued that the 
regressions should include a frost index.73 The frost index in the NRIC capex study uses of the 
number of frost-free days from the SSURGO data.  Unfortunately, this information is not 
available for all areas in the STATSGO2 database.  We believe that the USDA’s hardiness index 
is a useful proxy for this information, and we use it to create a simple index called Climate that is 
based on the average annual minimum temperature.74 The lower the minimum temperature, the 
more days the ground is likely to be frozen.  The higher the index, the fewer frost-free days the 
study area would have.  Based on the comments in the record, we expected this variable to be 
negatively correlated with capex (the higher the index, the more frost-free days the area should 
have, so construction costs should be lower).  
  
69 This table is available at http://www.fcc.gov/encyclopedia/rate-return-resources.
70 NRIC Capex Study at 18.
71 The NRIC Capex Study found that predicted construction costs were positively associated with close-to-
the-surface bedrock (Capex Study at 17), and in its comments, NRIC suggested including bedrock 
information (NRIC Comments at 24).  
72 NRIC Capex Study at 17.  NRIC did not include bedrock in its final regression, however.  
73 Blooston Comments at 2, Interbel Comments at 10, Nebraska Rural Comments at 21.
74 The hardiness index uses the zone numbers in the 2012 USDA Plant Hardiness Zone Map (available at 
http://www.usna.usda.gov/Hardzone/).  The index increments by 0.5 for each zone, so Zone 1A is 1.0, zone 
1B is 1.5, Zone 2A is 2, Zone 2B is 2.5, etc.  This table is available at 
http://www.fcc.gov/encyclopedia/rate-return-resources.  The Climate index is the average of the index 
along the roads in the study area.  We also think that the variable climate controls for the length of the 
construction season that Moss Adams suggested (Moss Adams Comments at 12).
Federal Communications Commission DA 12-646
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100. The Climate variable (Climate) is positive and has low p-values in the 
regressions, which means that it is unlikely to be a spurious result.  However, it is positively 
correlated with capex and opex.  
101. Commenters also stated that it is more difficult to construct and maintain 
networks on tribal lands and in national parks because of permitting and similar issues,75 so we 
include two additional variables: (1) the percentage of each study area that is a federally-
recognized Tribal land (PctTribalLand),76 and (2) the percentage of each study area that lies 
within a national park (PctParkLand).77
102. The coefficient for the percentage of the study area that is tribal land 
(PctTribalLand) is positive for both capex and opex regressions, but is significant in only the 
opex regression.   The percentage of the study area that is national park land (PctParkLand) is 
positive and significant in both regressions.  As can be seen in Table 1, most of the study areas do 
not contain either tribal or national park land, and it may be a simple lack of data that causes a 
lack of significance for PctTribalLand in the capex regression.  Nonetheless, we agree that both 
capex and opex costs could be higher in the presence of these factors, so we include them in the 
model.
103. Finally, based on comments in the record that certain areas of the country face 
unique circumstances, we tested several regional variables.  Alaskan commenters suggested that 
Alaska was unique because of its harsh climate and other factors.78 We therefore added the 
dummy variable Alaska to the regressions, which equals 1 for the 17 study areas in Alaska and 
zero elsewhere. 
104. We also include regional dummies because in its Original Opex study NRIC 
found that opex costs were correlated with regions.79 Although NRIC did not include region 
dummy variables in the regression, instead opting to use 2005 median home value, which it also 
used in its Updated Opex Study, we include region in our updated methodology.  We tested the 
four census-based regions: Western (West), Midwest (Midwest), Northeast (Northeast) and South 
(South).  We found that Midwest and Northeast were each significant in at least one regression, so 
we include them.
105. Use of Soil Database Information.  Our source for soil data is the U.S. General 
Soil Map (STATSGO2) soils database.  We selected STATSGO2 as a data source because it 
provides data for the entire country.  The Soil Survey Geographic Database (SSURGO) soils data 
from the Natural Resource Conservation Service (NRCS) that the Nebraska Rural Independent 
Companies capex study used to generate soil, frost and wetland variables is an attractive database 
because it contains a richer set of soil variables and contains data at a smaller granular area than 
the STATSGO2 database.  Unfortunately, as can be seen from the graph on page 23 of the NRIC 
comments, not only do the SSURGO data not cover Guam or American Samoa, and much of 
Alaska, but there are also numerous other holes in the data in many states.  Thus, there are many 
  
75 Interbel Comments at 3, New Mexico Exchange Carrier Group at 14-15. 
76 Tribal land information is available from the US Census Bureau at http://www.census.gov/cgi-
bin/geo/shapefiles2010/main.
77 National Park data are available at 
http://www.bts.gov/publications/national_transportation_atlas_database/2011/.
78 See Alaska Rural Coalition Comments at 17-19; Copper Valley Comments at 5-7.
79 NRIC found that cost was strongly related to region in its Original Opex Study (p 8) but did not include it 
in its regression, and in its Updated Opex Study used the 2005 median home values in its regression (p 3).
Federal Communications Commission DA 12-646
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study areas in Alaska where there is no SSURGO data and even some conterminous United States 
study areas such as the West Kentucky Rural Telephone Coop (Study Area Code 260421) where 
there is virtually no SSURGO spatial data.  We therefore could not apply the results of a 
SSURGO-based model to these companies because the needed data would be missing.  We 
conclude, therefore, that it is not practical to use the SSURGO data at this time.  
106. Two commenters argue that we should use the SSURGO data for study areas 
covered by it and use STATSGO2 for the remaining study areas.80 We have concerns about this 
approach for several reasons, and ultimately decline to do so.  In particular, the commenters’ 
proposed approach would mean that those study areas for which the SSURGO data are not 
universally available would be treated inconsistently with those for which the SSURGO are 
universally available.  In addition, it would be challenging to combine the two data sets for those 
study areas where we have only some SSURGO data.  Given these problems, we conclude that 
the implementation and fairness benefits of a nationally uniform approach based on STATS2GO 
outweigh the benefits of using SSURGO data for a subset of areas.81 We discuss below the 
elements of the STATSGO2 data we use.
107. Independent Variables Tested But Not Used in the Model.  Based on 
commenters’ suggestions and the analysis proposed in Appendix H, we tested several additional 
variables that were ultimately excluded from the final model because they were not significant for 
either capex or opex.82  
108. In its Capex Study, NRIC found that rain frequency increased construction cost 
per household.83 Following NRIC’s model, we used the Samson weather station data, and for 
each study area, calculated the average number of days per year with greater than 0.5 inches of 
rainfall (DaysAbvPt5).84 We found DaysAbvPt5 was not significant in either regression.
109. We also tested the average slope in study areas (slope) using data in the 
STATSGO2 database.85 Our hypothesis was that the steeper the slope, the more difficult it would 
be to build and maintain cabling.  The coefficient on slope was insignificant (i.e., statistically 
indistinguishable from zero) in both regressions and therefore dropped from the model.    
110. We similarly tested the percentage of the study area that was water (PctWater), 
but we did not include it in the updated model because it was insignificant in both regressions.  
This is unsurprising.  The proposed model included PctWater to account for the fact that cabling 
may have to be run around bodies of water, but the updated model accounts for the number of 
road miles (as a proxy for loop length), so the additional cabling associated with routing around 
water has already been accounted for.  
  
80 NRIC Comments at 24 and NASUCA Comments at 46.  
81 We note that the Commission’s hybrid cost proxy model, which was used to estimate forward-looking 
costs for the non-rural high-cost support mechanism, uses an earlier version of the STATSGO2.  
82 We include these variables in the data that we posted on the web so that others can verify our results.
83 NRIC Capex Study at 17.
84 For those study areas with one station, the value (for the number of days per year with greater than 0.5 
inches of rainfall) for that station was used.  For those study areas with more than one station, the average 
of the values was used.  For those study areas without a station, the nearest station was used.  For those 
study areas that were non-conterminous, each polygon (i.e., piece) of the study area was treated as its own 
study area (for calculating the rainfall statistic), and then the weighted mean value across all the study 
area’s polygons was calculated using the polygon’s square miles as the weight.
85 We calculated the average of the absolute value of slope along the road segments in the study area.
Federal Communications Commission DA 12-646
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111. We tested the percentage of road miles where the water table was within 36 
inches of the surface (PctWaterTable36).86  We found the variable PctWaterTable36 to be weakly 
significant in opex, but it had an implausible negative sign in both the capex and opex 
regressions.  Because of the sign issue and because inclusion of the variable does not markedly 
improve the fit, we exclude it from the model so as not to lower the cap for study areas with high 
water tables.
112. Accipiter suggested adding the percentage change in loops (PctLoopChange) to 
account for study areas that are growing, because growing carriers “are prone to have unique cost 
structures.”87 We believe thet PctUndepPlant proxies for this, but out of an abundance of 
caution, we tested PctLoopChange, but found that it was insignificant, suggesting that 
PctUndepPlant is proxying for the unique cost structures that Accipiter is concerned about.88
113. Based on NRIC’s updated opex regression, we tested statewide median house 
values,89 but found them to be insignificant.90 This is unsurprising because statewide values 
include mostly urban houses.  Our regional independent variables, however, helped capture the
intended effect.
114. We also tested the natural log of the number of stream crossings 
(LnStreamCross), which could increase construction costs in the same way that road crossings do.  
We found LnStreamCross to be significant and negative in opex, but insignificant in capex.  
Because the coefficient was an implausible sign in the opex regression without an offsetting 
plausible coefficient in the other regressions, we omitted LnStreamCross from both regressions.91  
115. The proposed model also included the number of census blocks in the study 
area.92 Although the natural log of the total number of census blocks (LnBlocks) was weakly 
significant in the opex regression, it was not significant in the capex regression.  Although we 
generally included variables that were significant in at least one regression in both regressions, 
we omitted census blocks from the updated model regressions for two reasons.  First, commenters 
did not think that the number of blocks was a good proxy for density.93 Also, we are now 
accounting for customer dispersion and density directly through independent variables 
LnRoadMiles, LnRoadCrossings and LnDensity.   
  
86 The locations of close-to-the-surface water table within 36 inches of the surface come from the 
STATSGO2 database.  
87 Accipiter Comments at 23-24. 
88 We calculated PctLoopChange  as the percentage change of DL060 loop count between 2009 and 2010. 
For the observations that converted from being average schedule to cost companies (and therefore we did 
not have DL060 loop counts for the prior year), we instead used the percentage change in DL070 loops, 
which we believe is an excellent proxy for the percentage change in DL060 loops.  
89 NRIC’s intent in including house values was to proxy for local “cost of living differences.”  NRIC 
Updated Opex Study at 3.
90 See http://www.census.gov/hhes/www/housing/census/historic/values.html
91 U.S. Department of the Interior, U.S. Geological Survey, National Hydrography Dataset, last visited Feb. 
1, 2012, available at http://nhd.usgs.gov/index.html. As we did with road crossings data, we intersected 
stream data with roads to find the number of stream crossings in the study area.
92 USF/ICC Transformation Order and FNPRM, 26 FCC Rcd at 182, App. H, para 24.  In the proposed 
methodology, the number of blocks was broken out by whether they were in urbanized areas, urbanized 
clusters or nonurban (rural) areas.
93 Accipiter Comments at 25-26, Moss Adams at 12.
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116. Unavailable Independent Variables. Several carriers suggested additional 
variables to the regression analysis, but we were unable to include them because the data were 
either unavailable to the Commission, nonpublic, or we could not generate data at the study area 
level.  We recognize that some of the unavailable variables could be significant if they could be 
included, but given the other enhancements made to the regressions described herein, we 
conclude that the methodology is adequate to identify cost outliers among similarly situated 
companies.  
117. The NRIC capex study postulated that the presence of wetlands would increase 
construction costs because of need for additional “approvals and specialized techniques.”94 It 
found that wetlands were positively correlated with increased predicted construction costs.  As 
NRIC points out, however, wetlands data are not available for Colorado, Wisconsin and Montana.  
Since our objective is to develop a methodology that applies equally to all cost carriers, we could 
not include wetlands data in the updated methodology.95  
118. Similarly, commenters suggested the following additional variables that, if not 
already proxied in the model,  could not be used because they were unavailable to the 
Commission, nonpublic, or data could not be generated at the study area level:  age of 
investment;96 broadband speed capability;97 cable route miles or cable sheath miles;98 status as 
carrier of last resort;99 copper versus fiber networks;100 cost of living and labor costs;101
environmental; legal and regulatory costs;102 loop length/average loop length;103 right of way 
costs and vacant lots;104 and weather patterns.105  
  
94 NRIC Capex study at 10.
95 In its Capex Study, NRIC uses SSURGO data to create proxies for wetlands data where it does not exist, 
but because SSURGO data does not cover the entire country and we are therefore not able to use it, we 
could not create that proxy.
96 Interbel Comments at 10.  Study areas submit a variety of information on plant, but we cannot calculate 
the age of investment from it.  Investment age, however, is proxied by PctUndepPlant.
97 Guadalupe Comments at 3.  While the Bureau has access to carriers’ FCC Form 477 filings, which 
contain broadband speed information for each filer, many carriers file their Form 477 at the holding 
company level within a state rather than at the study area code level, so matching up the Form 477 filings 
with the study area code would be challenging in some cases.  Additionally, the data are nonpublic, and 
therefore they could not be published for others trying to replicate the regression results.   
98 Guadalupe Comments at 3.  Some, but not all, rate-of-return cost carriers report this information to RUS, 
but there is no universally-available source of cable sheath or route miles.  Cable mileage is proxied by 
LnRoadMiles.
99 Guadalupe Comments at 5 and Washington Independent Tel comments at 5.  We do not have a source for 
which states require study areas to be carriers of last resort. Further, the obligations imposed on a carrier of 
last resort can vary by state.
100 Carriers for Progress Comments at 7.  We are unaware of a source for this information.  
101 Guadalupe and Moss Adams suggested labor costs. Guadalupe Comments at 3; Moss Adams Comments 
at 8.  We do not have cost of living or labor rate data with sufficient geographic granularity to create a 
meaningful index.  We note that cost of living and labor rates in rural areas may be less than in urban areas, 
so we expect that statewide data would not be helpful.  We tested this assumption by including statewide 
median house values in the regression, but the variable was not significant.  Our regressions instead use 
regional variables to proxy for such variations in labor costs.
102 Carriers for Progress Comments at 8.  We are not aware of a direct source for such information; instead, 
we use the regional, PctParkLand and PctTribalLand variables to proxy for such costs.  We considered 
(continued....)
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119. One commenter argues that the Bureau’s methodology should include variables 
that are not universally available and that it is better to comprehensively study a representative 
sample of study areas and apply the results to the wider population of study areas.106 The 
commenter does not specify, however, how the Bureau could apply that knowledge to study 
areas for which the information is unavailable.  
Implementation. For each study area, the regressions will be used to generate the 90th
percentile predicted values for both the natural log of capex and the natural log of opex.  These 
values will then be converted back to “levels” by using the inverse of the natural log function.  
The lower of the study area’s original algorithm step 25A and the level of the predicted 
90th percentile capex value will be retained in algorithm step 25A.  Similarly, the lower of the 
study area’s original algorithm step 25B and level of the predicted 90th percentile opex value will 
be retained in algorithm step 25B.  These values will then be summed in algorithm step 25C, 
which will feed into algorithm step 26. 
  
(...continued from previous page)
using dummy variables for individual states, but that would significantly benefit the study areas in those 
states that had few study areas in the regression, because any inefficiency of that carrier would be picked up 
by the dummy variable.
103 Central Tex Comments at 7, Midvale Tel Comments at 5, and Washington Independent Tel Comments 
at 3. Some, but not all, rate-of-return cost carriers report this information to RUS, but there is no 
universally available source of average loop length.  Our regressions use LnRoadMiles to proxy for loop 
length.
104 Guadalupe Valley Comments at 3.  We are unaware of sources of data for these variables. Our 
PctParkLand and PctTribalLand variables proxy for right-of-way costs.
105 Moss Adams Comments at 12.  Because weather covers so many things, such as wind, temperature, 
rainfall and other attributes, we could not address such a vague suggestion.  Above, we discuss the weather 
features that we include in the updated methodology: temperature and rainfall.  
106 NRIC Comments at 19-20.
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Table 1
Descriptive Statistics For The Raw Data
Variable N Mean
Std
Dev. Min
10th
Pctile Median
90th
Pctile Max
LnCapex 726 13.78 1.27 9.01 12.15 13.83 15.41 16.93
LnOpex 726 14.11 1.03 10.29 12.75 14.16 15.38 17.03
LnLoops 726 7.81 1.20 3.00 6.33 7.88 9.28 11.18
LnRoadMiles 726 6.55 1.34 1.88 4.86 6.45 8.43 10.53
LnRoadCrossings 726 8.00 1.23 4.64 6.42 7.94 9.64 11.46
LnStateSACs 726 0.36 0.63 0.00 0.00 0.00 1.39 3.04
PctUndepPlant 726 33.85 14.81 -6.26 16.87 31.96 53.36 88.63
LnDensity 726 2.01 1.59 -4.27 -0.10 2.23 3.73 7.02
LnExchanges 726 1.18 0.98 0.00 0.00 1.10 2.48 4.33
PctBedrock36 726 0.06 0.14 0.00 0.00 0.00 0.22 0.89
Difficulty 726 1.06 0.19 1.00 1.00 1.00 1.16 2.81
Climate 726 6.20 1.59 1.67 4.37 6.00 8.46 12.65
PctTribalLand 726 9.03 24.81 0.00 0.00 0.00 28.11 100.00
PctParkLand 726 0.64 3.86 0.00 0.00 0.00 0.02 47.81
PctUrban 726 9.17 19.46 0.00 0.00 0.00 37.40 95.38
Alaska 726 0.02 0.15 0.00 0.00 0.00 0.00 1.00
Midwest 726 0.41 0.49 0.00 0.00 0.00 1.00 1.00
Northeast 726 0.08 0.27 0.00 0.00 0.00 0.00 1.00
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Table 2
Correlation Coefficients
Ln Ln Ln LnRoad LnRoad LnState PctUnDep Ln Ln Pct Pct Pct Pct
Variable Opex Capex Loops Miles Crossings SACs Plant Density Exhanges Bedrock36 Difficulty Climate TribalLand ParkLand Urban Alaska Midwest Northeast
LnOpex 1.00 0.88 0.87 0.58 0.70 -0.12 0.04 0.13 0.60 0.05 0.11 0.25 0.08 0.04 0.28 0.03 -0.19 -0.10
LnCapex 0.88 1.00 0.80 0.59 0.69 -0.14 0.32 0.09 0.60 0.06 0.11 0.15 0.05 0.02 0.23 -0.03 -0.08 -0.17
LnLoops 0.87 0.80 1.00 0.52 0.67 0.03 -0.13 0.34 0.58 -0.05 0.08 0.14 0.00 -0.02 0.35 -0.03 -0.13 0.04
LnRoadMiles 0.58 0.59 0.52 1.00 0.94 -0.13 -0.01 -0.51 0.79 0.07 0.13 -0.05 0.04 0.06 -0.06 -0.02 -0.13 -0.22
LnRoadCrossings 0.70 0.69 0.67 0.94 1.00 -0.12 -0.04 -0.26 0.76 0.06 0.14 0.09 0.03 -0.02 0.10 -0.10 -0.15 -0.21
LnStateSACs -0.12 -0.14 0.03 -0.13 -0.12 1.00 -0.26 0.16 -0.08 -0.05 0.05 -0.17 -0.07 -0.01 0.05 -0.04 0.12 0.13
PctUnDepPlant 0.04 0.32 -0.13 -0.01 -0.04 -0.26 1.00 -0.10 -0.04 0.08 -0.01 -0.07 0.01 0.01 -0.02 0.00 0.15 -0.19
LnDensity 0.13 0.09 0.34 -0.51 -0.26 0.16 -0.10 1.00 -0.32 -0.15 -0.05 0.26 -0.12 -0.26 0.39 -0.38 0.06 0.25
LnExchanges 0.60 0.60 0.58 0.79 0.76 -0.08 -0.04 -0.32 1.00 -0.01 0.11 -0.11 0.11 0.08 -0.09 0.09 0.00 -0.09
PctBedrock36 0.05 0.06 -0.05 0.07 0.06 -0.05 0.08 -0.15 -0.01 1.00 0.13 0.17 0.17 0.12 -0.01 0.07 -0.22 -0.02
Difficulty 0.11 0.11 0.08 0.13 0.14 0.05 -0.01 -0.05 0.11 0.13 1.00 0.11 0.19 -0.01 -0.01 -0.05 -0.10 -0.08
Climate 0.25 0.15 0.14 -0.05 0.09 -0.17 -0.07 0.26 -0.11 0.17 0.11 1.00 0.06 -0.09 0.22 -0.22 -0.53 -0.18
PctTribalLand 0.08 0.05 0.00 0.04 0.03 -0.07 0.01 -0.12 0.11 0.17 0.19 0.06 1.00 0.04 -0.02 0.16 -0.18 -0.10
PctParkLand 0.04 0.02 -0.02 0.06 -0.02 -0.01 0.01 -0.26 0.08 0.12 -0.01 -0.09 0.04 1.00 0.00 0.44 -0.12 0.00
PctUrban 0.28 0.23 0.35 -0.06 0.10 0.05 -0.02 0.39 -0.09 -0.01 -0.01 0.22 -0.02 0.00 1.00 0.01 -0.05 -0.01
Alaska 0.03 -0.03 -0.03 -0.02 -0.10 -0.04 0.00 -0.38 0.09 0.07 -0.05 -0.22 0.16 0.44 0.01 1.00 -0.13 -0.05
Midwest -0.19 -0.08 -0.13 -0.13 -0.15 0.12 0.15 0.06 0.00 -0.22 -0.10 -0.53 -0.18 -0.12 -0.05 -0.13 1.00 -0.24
Northeast -0.10 -0.17 0.04 -0.22 -0.21 0.13 -0.19 0.25 -0.09 -0.02 -0.08 -0.18 -0.10 0.00 -0.01 -0.05 -0.24 1.00
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Table 3
Capex (LnCapex) Regression
Variable Coef. Std. Err. t P>|t|
LnLoops 0.788 0.071 11.15 0.00    *
LnRoadMiles -0.208 0.136 -1.53 0.13    
LnRoadCrossings 0.240 0.091 2.64 0.01  *
LnStateSACs -0.070 0.043 -1.65 0.10    *
PctUndepPlant 0.031 0.002 18.39 0.00    *
LnDensity -0.158 0.072 -2.20 0.03    *
LnExchanges 0.118 0.061 1.94 0.05    *
PctBedrock36 -0.072 0.156 -0.46 0.64    
Difficulty 0.118 0.087 1.36 0.17    
Climate 0.089 0.030 2.99 0.00    *
PctTribalLand 0.0005 0.001 0.47 0.64    
PctParkLand 0.018 0.005 3.71 0.00    *
PctUrban 0.001 0.002 0.34 0.73    
Alaska -0.6223 0.337 -1.85 0.07    *
Midwest 0.092 0.091 1.01 0.31    
Northeast -0.309 0.124 -2.49 0.01    *
Constant 6.039 0.416 14.51 0.00    *
N = 726     Pseudo R2 = .6684
Notes: 
An * indicates significance at the 0.10 level.   
P-values are based on Wald statistics.
Values are rounded.  More precise coefficient values are posted at http://www.fcc.gov/encyclopedia/rate-
return-resources.
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Table 3 (contd.)
Opex (LnOpex) Regression
Variable Coef. Std. Err. t P>|t|
LnLoops 0.596 0.037 15.97 0.00 *
LnRoadMiles -0.247 0.086 -2.87 0.00 *
LnRoadCrossings 0.272 0.081 3.37 0.00 *
LnStateSACs -0.078 0.035 -2.22 0.03 *
PctUndepPlant 0.008 0.001 6.47 0.00 *
LnDensity -0.128 0.034 -3.72 0.00 *
LnExchanges 0.125 0.032 3.94 0.00 *
PctBedrock36 0.279 0.098 2.84 0.01 *
Difficulty 0.114 0.057 2.02 0.04 *
Climate 0.135 0.020 6.91 0.00 *
PctTribalLand 0.002 0.001 2.79 0.01 *
PctParkLand 0.006 0.004 1.65 0.10 *
PctUrban 0.002 0.001 2.52 0.01 *
Alaska 0.299 0.155 1.92 0.06 *
Midwest 0.134 0.063 2.13 0.03 *
Northeast 0.015 0.085 0.18 0.86
Constant 8.198 0.255 32.21 0.00 *
N = 726     Pseudo R2 = 0.6234
Notes: 
An * indicates significance at the 0.10 level.   
P-values are based on Wald statistics.
Values are rounded.  More precise coefficient values are posted at http://www.fcc.gov/encyclopedia/rate-
return-resources.
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Figure 1
Opex vs. Loops
0
5
10
15
20
25
30
0 10000 20000 30000 40000 50000 60000 70000 80000
Loops
Opex (millions)
Figure 2
Natural Log of Opex vs. Natural Log of Loops
0
2
4
6
8
10
12
14
16
18
0 2 4 6 8 10 12
Natural Log of Loops
Natural Log of Opex
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Figure 3
Opex per Loop vs. Density
0
2000
4000
6000
8000
10000
12000
0 200 400 600 800 1000 1200
Density
Opex per Loop
Figure 4
Natural Log of Opex vs. Natural Log of Density
0
2
4
6
8
10
12
14
16
18
-6 -4 -2 0 2 4 6 8
Natural Log of Density
Natural Log of Opex
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APPENDIX B
Quantile Regression Cost Per Loop (CPL)
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
3-RIVERS TEL COOP 482255 MT 17,970 $905 $490 $536 $416 $426 $905
ACCIPITER DBA ZONA 452191 AZ 520 $6,707 $4,134 $3,810 $2,574 $3,202 $6,383
ACE TEL ASSN-IA 351346 IA 3,997 $534 $225 $386 $308 $631 $534
ACE TEL ASSN-MN 361346 MN 9,833 $688 $350 $913 $338 $590 $688
ACE TEL OF MICHIGAN 310704 MI 4,370 $673 $303 $591 $369 $583 $673
ADAK TEL UTILITY 610989 AK 147 $12,739 $3,265 $3,265 $9,474 $9,474 $12,739
AGATE MUTUAL TEL CO 462178 CO 113 $4,530 $1,457 $4,109 $3,073 $3,549 $4,530
ALASKA TEL CO 613017 AK 3,737 $815 $262 $630 $552 $1,415 $815
ALBANY MUTUAL ASSN 361347 MN 3,336 $825 $490 $944 $335 $630 $825
ALBION TEL CO-ATC 472213 ID 3,853 $1,374 $537 $881 $837 $889 $1,374
ALENCO COMMUNICATION 442090 TX 1,888 $2,129 $881 $1,345 $1,248 $1,893 $2,129
ALHAMBRA-GRANTFORK 340978 IL 1,042 $657 $270 $593 $387 $1,070 $657
ALL WEST COMM.-WY 512290 WY 293 $906 $437 $823 $468 $1,584 $906
ALL WEST COMM-UT 502288 UT 4,572 $783 $457 $454 $326 $525 $780
ALLBAND COMM COOP 310542 MI 163 $8,283 $4,945 $5,972 $3,338 $3,338 $8,283
ALLENDALE TEL CO 310669 MI 3,842 $558 $294 $310 $265 $531 $558
ALLIANCE-SPLITROCK 391657 SD 7,212 $785 $504 $744 $280 $539 $785
ALMA COMM. CO. 421860 MO 342 $2,186 $1,093 $2,280 $1,093 $2,141 $2,186
ALMA TEL CO 220344 GA 6,090 $426 $84 $337 $342 $678 $426
ALPINE COMM. 351106 IA 5,168 $630 $313 $505 $317 $576 $630
AMELIA TEL CORP 190217 VA 5,095 $533 $226 $253 $307 $389 $533
AMERICAN SAMOA 673900 AS 9,884 $410 $161 $933 $249 $1,728 $410
ARAPAHOE TEL CO 371516 NE 1,989 $1,102 $379 $637 $723 $1,028 $1,102
ARCTIC SLOPE TEL 613001 AK 2,518 $1,417 $341 $341 $1,076 $877 $1,218
ARDMORE TEL CO 290280 TN 7,745 $434 $234 $307 $199 $495 $434
ARIZONA TELEPHONE CO 452171 AZ 2,967 $622 $296 $642 $326 $1,257 $622
ARKANSAS TEL CO 401692 AR 6,938 $379 $160 $335 $219 $547 $379
Federal Communications Commission DA 12-646
48
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
ARKWEST COMM., INC. 401734 AR 4,384 $972 $392 $581 $580 $813 $972
ARLINGTON TEL CO 371517 NE 927 $805 $250 $395 $555 $770 $805
ARMSTRONG OF WV 200256 WV 2,702 $632 $174 $381 $457 $565 $632
ARMSTRONG TEL CO-NY 150071 NY 2,800 $754 $240 $308 $515 $601 $754
ARMSTRONG TEL CO-PA 170189 PA 1,441 $973 $351 $261 $622 $665 $882
ARMSTRONG TEL OF MD 180216 MD 5,905 $546 $174 $281 $371 $469 $546
ARMSTRONG TEL. CO. 200267 WV 4,423 $748 $266 $422 $482 $573 $748
ARROWHEAD COMM CORP 361374 MN 569 $668 $311 $311 $357 $857 $668
ARVIG TEL CO 361350 MN 11,482 $526 $193 $304 $333 $312 $505
ASOTIN TEL - OR 532404 OR 120 $901 $160 $712 $740 $2,639 $901
ASOTIN TEL - WA 522404 WA 1,157 $729 $379 $547 $350 $1,014 $729
ATLANTIC MEMBERSHIP 230468 NC 37,985 $390 $186 $480 $204 $373 $390
ATLAS TEL CO 431966 OK 1,147 $864 $305 $574 $559 $1,311 $864
AYRSHIRE FARMERS MUT 351105 IA 254 $1,353 $676 $1,015 $677 $1,910 $1,353
BACA VALLEY TEL CO 492259 NM 662 $2,959 $1,381 $1,308 $1,577 $1,920 $2,885
BADGER TELECOM, INC. 330844 WI 5,275 $584 $229 $245 $356 $344 $573
BALLARD RURAL COOP 260396 KY 5,273 $756 $421 $759 $334 $747 $756
BARNARDSVILLE TEL CO 230469 NC 1,094 $772 $346 $411 $426 $748 $772
BAY SPRINGS TEL CO 280446 MS 9,000 $992 $415 $463 $577 $632 $992
BEAR LAKE COMM 503032 UT 784 $906 $283 $400 $623 $782 $906
BEAVER CREEK COOP 532359 OR 3,652 $614 $220 $505 $394 $728 $614
BEEHIVE TEL CO - NV 552284 NV 124 $2,615 $992 $1,832 $1,623 $4,061 $2,615
BEEHIVE TEL CO - UT 502284 UT 930 $3,026 $1,797 $2,969 $1,228 $2,554 $3,026
BEK COMM. COOP. 381604 ND 6,381 $1,337 $933 $1,206 $403 $784 $1,337
BENKELMAN TEL CO 372455 NE 1,175 $1,717 $753 $755 $964 $1,056 $1,717
BERNARD TEL CO INC 351110 IA 472 $1,380 $680 $1,049 $700 $1,416 $1,380
BETTLES TEL CO INC 613002 AK 208 $447 $156 $306 $290 $1,542 $447
BIG BEND TEL CO INC 442039 TX 5,602 $3,648 $1,643 $1,920 $2,006 $2,006 $3,648
BIJOU TEL COOP ASSOC 462181 CO 1,151 $1,289 $441 $1,064 $847 $1,055 $1,289
BIXBY TEL CO 431969 OK 6,908 $1,145 $447 $451 $698 $698 $1,145
BLACK EARTH TEL CO 330849 WI 1,168 $707 $293 $466 $414 $692 $707
Federal Communications Commission DA 12-646
49
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
BLACKFOOT TEL - BTC 482235 MT 6,765 $989 $485 $826 $504 $631 $989
BLACKFOOT TEL - CFT 483308 MT 8,084 $806 $417 $841 $389 $609 $806
BLANCA TEL CO 462182 CO 986 $2,675 $1,043 $1,320 $1,632 $1,304 $2,347
BLOOMER TEL CO 330850 WI 2,950 $840 $522 $553 $318 $593 $840
BLOOMINGDALE HOME 320742 IN 498 $1,433 $206 $902 $1,227 $1,337 $1,433
BLOOMINGDALE TEL CO 310679 MI 1,524 $720 $215 $377 $505 $687 $720
BLOSSOM TEL CO 442038 TX 984 $1,304 $671 $581 $633 $1,143 $1,214
BLOUNTSVILLE TEL CO 250282 AL 3,104 $626 $192 $245 $434 $546 $626
BLUE EARTH VALLEY 361358 MN 5,604 $600 $196 $431 $404 $525 $600
BLUE RIDGE TEL CO 220346 GA 10,315 $772 $364 $480 $408 $478 $772
BLUE VALLEY TELE-COM 411746 KS 2,662 $3,417 $1,999 $1,512 $1,419 $1,203 $2,714
BLUFFTON TEL. CO. 240512 SC 21,067 $884 $373 $663 $511 $466 $839
BORDER TO BORDER 442073 TX 96 $15,868 $7,813 $5,207 $8,055 $6,972 $12,179
BPS Tel. Co. 420463 MO 2,919 $671 $244 $787 $427 $1,063 $671
BRANTLEY TEL CO 220347 GA 4,793 $1,306 $672 $940 $634 $914 $1,306
BRAZORIA TEL CO 442040 TX 4,600 $1,243 $627 $627 $616 $916 $1,243
BRAZOS TEL COOP INC 442041 TX 4,599 $708 $192 $731 $515 $1,160 $708
BRETTON WOODS TEL CO 120038 NH 643 $558 $148 $319 $410 $872 $558
BRIDGEWATER TEL CO 361362 MN 5,834 $814 $393 $393 $420 $421 $814
BRISTOL BAY TEL COOP 613003 AK 1,543 $1,269 $348 $636 $921 $2,047 $1,269
BRUCE TEL CO - MS 280447 MS 2,321 $859 $323 $391 $536 $791 $859
BRUCE TEL CO, INC 330855 WI 1,420 $464 $216 $328 $248 $614 $464
BUGGS ISLAND COOP 190219 VA 3,989 $518 $244 $428 $274 $633 $518
BULLOCH COUNTY RURAL 220348 GA 8,941 $748 $490 $625 $258 $657 $748
BUSH-TEL INC. 613004 AK 956 $1,052 $295 $387 $756 $1,429 $1,052
BUTLER TEL CO 250284 AL 6,549 $552 $214 $329 $338 $601 $552
CALAVERAS TEL CO 542301 CA 3,929 $1,360 $609 $731 $751 $1,020 $1,360
CALHOUN CITY TEL CO 280448 MS 2,839 $407 $59 $240 $348 $678 $407
CAL-ORE TELEPHONE CO 542311 CA 2,139 $1,021 $379 $785 $642 $1,112 $1,021
CAMBRIDGE TEL CO 472215 ID 1,788 $1,277 $752 $1,184 $525 $1,164 $1,277
CAMBRIDGE TEL CO -NE 371526 NE 1,148 $1,611 $630 $1,820 $981 $1,397 $1,611
Federal Communications Commission DA 12-646
50
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
CAMDEN TEL & TEL CO 220351 GA 17,840 $480 $232 $354 $248 $454 $480
CAMERON TEL CO - LA 270425 LA 5,440 $1,457 $481 $574 $976 $976 $1,457
CAMERON TEL CO TEXAS 440425 TX 608 $1,196 $353 $705 $844 $1,840 $1,196
CAMPTI-PLEASANT HILL 270426 LA 2,058 $1,012 $367 $537 $645 $1,065 $1,012
CANADIAN VALLEY TEL 431974 OK 1,120 $1,359 $489 $579 $870 $1,390 $1,359
CANBY TEL ASSN 532362 OR 9,571 $514 $217 $431 $297 $534 $514
CAP ROCK TEL COOP 442046 TX 4,396 $786 $309 $1,121 $477 $1,317 $786
CARNEGIE TEL CO INC 431976 OK 1,268 $1,075 $323 $663 $752 $1,311 $1,075
CARR TEL CO 310683 MI 1,342 $630 $228 $547 $402 $821 $630
CASCADE UTIL INC 532371 OR 7,753 $614 $261 $656 $353 $717 $614
CASS TEL CO 340984 IL 2,061 $744 $120 $559 $624 $931 $744
CENTRAL ARKANSAS TEL 401697 AR 2,602 $931 $394 $456 $538 $738 $931
CENTRAL MONTANA 483310 MT 7,317 $1,289 $729 $944 $560 $603 $1,289
CENTRAL OKLAHOMA TEL 431977 OK 2,372 $1,616 $879 $1,097 $736 $1,385 $1,616
CENTRAL STATE TEL CO 330859 WI 8,371 $586 $244 $271 $342 $342 $586
CENTRAL TEXAS CO-OP 442052 TX 6,562 $1,471 $991 $695 $480 $1,063 $1,175
CENTRAL UTAH TEL INC 502277 UT 1,615 $846 $383 $809 $463 $981 $846
CHAMPLAIN TEL CO 150077 NY 4,227 $563 $130 $266 $433 $438 $563
CHARITON VALLEY TEL 421864 MO 6,415 $1,999 $855 $1,326 $1,144 $928 $1,783
CHATHAM TEL CO - MI 310685 MI 2,363 $604 $249 $422 $355 $668 $604
CHAZY & WESTPORT 150079 NY 2,959 $504 $207 $239 $297 $507 $504
CHEQUAMEGON COM COOP 330860 WI 8,914 $1,044 $625 $755 $419 $570 $1,044
CHEROKEE TEL CO 431979 OK 3,829 $760 $355 $965 $405 $1,222 $760
CHEYENNE RIVER SIOUX 391647 SD 3,053 $1,097 $590 $1,348 $507 $1,332 $1,097
CHIBARDUN TEL COOP 330861 WI 4,660 $1,277 $867 $709 $410 $588 $1,119
CHICKAMAUGA TEL CORP 220354 GA 5,106 $640 $288 $391 $352 $624 $640
CHICKASAW TEL CO 431980 OK 6,753 $1,518 $342 $610 $1,176 $962 $1,305
CHRISTENSEN COMM CO 361425 MN 1,300 $501 $97 $323 $404 $683 $501
CHUGWATER TEL CO 512289 WY 166 $1,254 $223 $803 $1,030 $1,929 $1,254
CHURCHILL-CC COMM. 552349 NV 10,295 $873 $437 $1,099 $436 $789 $873
CIMARRON TEL CO 431982 OK 6,538 $1,078 $438 $639 $640 $953 $1,078
Federal Communications Commission DA 12-646
51
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
CITIZENS HAMMOND NY 150081 NY 1,133 $1,093 $428 $428 $665 $870 $1,093
CITIZENS MUTUAL TEL 351129 IA 3,382 $959 $594 $950 $365 $851 $959
CITIZENS TEL CO 230473 NC 17,455 $703 $335 $392 $368 $378 $703
CITIZENS TEL CO - GA 220355 GA 3,574 $586 $162 $377 $424 $818 $586
CITIZENS TEL CO - MO 421865 MO 3,492 $840 $291 $844 $549 $861 $840
CITIZENS TEL COOP-WI 330863 WI 1,988 $1,383 $810 $943 $573 $755 $1,383
CLARA CITY TEL EXCH 361370 MN 1,349 $622 $186 $380 $435 $683 $622
CLARENCE TEL CO 351130 IA 641 $1,559 $1,121 $1,641 $438 $1,356 $1,559
CLARKS TELECOM CO. 371531 NE 716 $2,064 $1,304 $3,644 $760 $1,929 $2,064
CLAY DBA ENDEAVOR 320753 IN 10,136 $940 $519 $915 $421 $596 $940
CLEAR CREEK MUTUAL 532363 OR 2,930 $730 $244 $469 $487 $769 $730
CLEAR LAKE INDEPEND 351132 IA 4,883 $897 $458 $417 $439 $538 $856
CLEVELAND COUNTY TEL 401698 AR 2,702 $602 $225 $353 $378 $768 $602
COCHRANE COOP TEL CO 330866 WI 1,019 $2,018 $1,277 $2,011 $741 $1,327 $2,018
COLEMAN COUNTY CO-OP 442057 TX 1,896 $1,730 $911 $1,421 $818 $1,784 $1,730
COLO TEL CO 351134 IA 594 $1,878 $1,311 $1,420 $567 $1,340 $1,878
COLORADO VALLEY TEL 442059 TX 6,286 $946 $483 $550 $464 $839 $946
COLTON TEL CO 532364 OR 1,013 $1,367 $497 $953 $870 $1,245 $1,367
COLUMBUS TELEPHONE 411756 KS 1,793 $1,156 $545 $729 $611 $1,105 $1,156
COMM 1 NETWORK 351262 IA 535 $1,642 $1,079 $1,653 $563 $1,587 $1,642
COMM CORP OF INDIANA 320776 IN 9,644 $548 $261 $276 $287 $357 $548
COMM CORP OF MI 310672 MI 3,424 $498 $201 $294 $296 $528 $498
COMMUNITY TEL CO 442061 TX 1,470 $1,063 $276 $863 $788 $1,533 $1,063
COMSOUTH TELECOMM 220369 GA 4,075 $638 $212 $389 $426 $725 $638
CONCORD TEL EXCHANGE 290559 TN 14,991 $819 $451 $279 $368 $347 $626
CONNEAUT TEL CO 300606 OH 5,066 $745 $434 $478 $311 $647 $745
CONSOLIDATED TEL CO 371532 NE 2,576 $1,484 $502 $983 $983 $1,074 $1,484
CONSOLIDATED TELCOM 381607 ND 7,103 $1,312 $756 $1,041 $556 $788 $1,312
CONSOLIDATED TELECOM 371562 NE 940 $1,244 $344 $1,463 $900 $1,367 $1,244
CONTINENTAL OF OHIO 300607 OH 2,092 $385 $110 $273 $275 $634 $385
COOP TEL EXCHANGE 351303 IA 613 $1,442 $910 $1,864 $533 $1,546 $1,442
Federal Communications Commission DA 12-646
52
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
COPPER VALLEY TEL 613006 AK 4,538 $2,876 $1,627 $1,627 $1,250 $1,250 $2,876
CORDOVA TEL COOP 613007 AK 1,711 $1,821 $822 $896 $999 $2,345 $1,821
COUNCIL GROVE TEL CO 411758 KS 1,835 $2,352 $1,561 $2,079 $791 $1,175 $2,352
COZAD TEL CO 371534 NE 1,893 $1,268 $405 $432 $863 $808 $1,213
CRAW-KAN TEL COOP 411818 KS 11,291 $913 $530 $647 $382 $726 $913
CROCKETT TEL CO 290561 TN 3,191 $517 $213 $362 $304 $619 $517
CROSS TEL CO 431985 OK 7,613 $1,088 $425 $425 $664 $765 $1,088
CROWN POINT TEL CORP 150085 NY 827 $1,080 $344 $370 $736 $800 $1,080
CUMBY TEL COOP INC 442065 TX 736 $903 $305 $701 $598 $1,301 $903
CUNNINGHAM TEL CO 411761 KS 1,085 $2,279 $1,251 $1,371 $1,029 $1,652 $2,279
CURTIS TEL CO 371536 NE 593 $1,418 $464 $533 $953 $989 $1,418
CUSTER TEL COOP 472218 ID 2,312 $1,676 $1,004 $902 $672 $903 $1,574
DAKOTA CENTRAL COOP 381610 ND 4,187 $1,231 $712 $1,112 $520 $840 $1,231
DALTON TEL CO, INC 371537 NE 903 $1,626 $780 $719 $847 $1,258 $1,566
DARIEN TEL CO 220358 GA 4,878 $1,191 $411 $584 $780 $836 $1,191
DAVIESS-MARTIN/RTC 320759 IN 3,063 $1,300 $711 $1,074 $589 $941 $1,300
DECATUR TEL CO INC 401699 AR 884 $557 $203 $371 $355 $1,015 $557
DEERFIELD FARMERS 310691 MI 1,907 $1,137 $309 $452 $829 $754 $1,063
DEKALB TEL COOP 290562 TN 16,778 $526 $233 $535 $293 $517 $526
DELHI TEL CO 150088 NY 3,693 $712 $330 $386 $382 $454 $712
DELL TEL CO-OP - NM 492066 NM 497 $2,658 $1,196 $1,464 $1,462 $3,116 $2,658
DELL TEL. CO-OP - TX 442066 TX 794 $6,594 $3,729 $2,162 $2,864 $2,837 $4,999
DELTA COUNTY TEL CO 462184 CO 8,467 $499 $214 $392 $284 $491 $499
DELTA TEL CO 280452 MS 3,180 $816 $186 $496 $630 $881 $816
DEPOSIT TEL CO 150089 NY 6,775 $397 $122 $200 $275 $356 $397
DICKEY RURAL COOP 381611 ND 7,707 $1,136 $632 $1,215 $503 $762 $1,136
DILLER TEL CO 371540 NE 795 $1,932 $663 $1,065 $1,269 $1,466 $1,932
DIRECT COMM-ROCKLAND 472232 ID 1,068 $1,319 $602 $827 $717 $1,181 $1,319
DIRECTCOMM-CEDAR VAL 500758 UT 2,591 $1,108 $632 $1,613 $476 $1,008 $1,108
DOBSON TEL CO 431988 OK 3,464 $2,095 $915 $703 $1,180 $1,156 $1,859
DRENTHE TEL CO 310692 MI 590 $857 $454 $669 $402 $1,018 $857
Federal Communications Commission DA 12-646
53
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
DUBOIS TEL EXCHANGE 512291 WY 2,325 $1,182 $559 $819 $623 $942 $1,182
DUCOR TELEPHONE CO 542313 CA 1,157 $1,691 $680 $1,866 $1,010 $2,278 $1,691
DUNKIRK & FREDONIA 150091 NY 5,875 $247 $66 $149 $182 $399 $247
DUO COUNTY TEL COOP 260401 KY 11,327 $899 $438 $506 $461 $469 $899
EAGLE TEL SYSTEMS 532369 OR 425 $1,600 $484 $869 $1,116 $1,474 $1,600
EAGLE VALLEY TEL CO 361383 MN 607 $351 $76 $280 $276 $755 $351
EAST ASCENSION TEL 270429 LA 29,375 $1,334 $498 $330 $836 $438 $768
EAST BUCHANAN COOP 351156 IA 1,455 $750 $394 $539 $356 $876 $750
EAST OTTER TAIL TEL 361385 MN 15,320 $634 $325 $315 $309 $298 $614
EASTERN NEBRASKA TEL 371542 NE 2,757 $442 $137 $381 $305 $727 $442
EASTERN SLOPE RURAL 462186 CO 4,211 $861 $386 $650 $475 $771 $861
EASTEX TEL COOP INC 442068 TX 24,639 $977 $403 $628 $574 $588 $977
EASTON TEL CO 361384 MN 882 $1,125 $238 $585 $888 $900 $1,125
ECKLES TEL CO 361386 MN 3,854 $671 $226 $472 $445 $496 $671
EDWARDS TEL CO 150092 NY 1,801 $757 $285 $189 $472 $485 $662
EGYPTIAN COOP ASSN 341003 IL 2,848 $876 $356 $544 $521 $909 $876
ELECTRA TELEPHONE CO 442069 TX 1,250 $946 $195 $496 $751 $1,254 $946
ELIZABETH TEL CO 270430 LA 2,685 $1,774 $676 $963 $1,098 $1,096 $1,772
ELKHART TEL CO INC 411764 KS 1,361 $2,705 $664 $794 $2,041 $1,168 $1,832
ELLIJAY TEL CO 220360 GA 12,428 $768 $320 $420 $448 $470 $768
ELLINGTON TEL CO 421874 MO 1,853 $1,249 $464 $1,114 $785 $1,232 $1,249
ELSIE COMM., INC. 371518 NE 178 $1,660 $608 $699 $1,051 $1,805 $1,660
EMILY COOP TEL CO 361387 MN 1,223 $1,830 $1,250 $1,507 $580 $888 $1,830
EMPIRE TEL CORP 150093 NY 5,646 $439 $214 $321 $225 $510 $439
EMRY dba EMRY TELCOM 502278 UT 4,271 $486 $160 $693 $326 $942 $486
ENMR TEL COOP INC-NM 492262 NM 10,086 $1,205 $659 $856 $546 $899 $1,205
ENMR TEL COOP-TX 442262 TX 681 $647 $330 $920 $317 $1,632 $647
ETEX TEL COOP INC 442070 TX 12,099 $1,222 $461 $496 $760 $585 $1,046
ETS TEL. CO., INC. 442091 TX 12,974 $666 $386 $528 $279 $466 $666
FARMERS MUTUAL COOP 351169 IA 442 $1,272 $808 $1,888 $463 $1,680 $1,272
FARMERS MUTUAL TEL 300612 OH 422 $461 $80 $709 $381 $1,295 $461
Federal Communications Commission DA 12-646
54
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
FARMERS MUTUAL TEL 351172 IA 1,900 $1,195 $658 $912 $538 $923 $1,195
FARMERS MUTUAL TEL 351174 IA 950 $1,170 $505 $953 $665 $1,131 $1,170
FARMERS MUTUAL TEL 361389 MN 998 $1,570 $955 $2,210 $615 $1,419 $1,570
FARMERS MUTUAL TEL 472221 ID 2,912 $530 $230 $509 $300 $714 $530
FARMERS TEL CO - CO 462188 CO 488 $1,533 $668 $981 $866 $1,436 $1,533
FARMERS TEL COOP 240520 SC 44,895 $870 $457 $513 $414 $419 $870
FARMERS TELECOM COOP 250290 AL 14,819 $752 $337 $661 $415 $481 $752
FELTON TEL CO. INC. 361391 MN 598 $732 $362 $543 $370 $1,027 $732
FIDELITY TEL CO 421882 MO 13,552 $495 $187 $434 $308 $510 $495
FILER MUTUAL TEL -ID 472220 ID 1,687 $1,119 $567 $1,107 $553 $1,063 $1,119
FILER MUTUAL TEL -NV 552220 NV 537 $283 $152 $1,080 $131 $1,601 $283
FISHERS ISLAND TEL 150095 NY 983 $505 $104 $568 $401 $1,116 $505
FIVE AREA TEL CO-OP 442071 TX 5,317 $962 $482 $936 $480 $1,047 $962
FLAT ROCK TEL CO-OP 341012 IL 520 $425 $119 $494 $306 $1,313 $425
FOOTHILLS RURAL COOP 260406 KY 14,396 $1,016 $574 $741 $442 $486 $1,016
FORESTHILL-SEBASTIAN 542318 CA 2,801 $1,479 $626 $1,302 $854 $1,069 $1,479
FORT MILL TEL CO 240521 SC 21,384 $600 $260 $343 $340 $340 $600
FORT MOJAVE TEL, INC 452200 AZ 1,014 $1,370 $555 $1,093 $815 $2,185 $1,370
FRANKLIN TEL CO - MS 280454 MS 7,090 $1,301 $572 $581 $729 $759 $1,301
FULTON TEL CO 280455 MS 6,972 $618 $332 $457 $285 $558 $618
GANADO TELEPHONE CO 442076 TX 2,536 $1,496 $646 $1,228 $850 $1,400 $1,496
GARDEN VALLEY TEL CO 361395 MN 14,135 $682 $364 $842 $318 $529 $682
GEORGETOWN TEL CO 280456 MS 276 $3,081 $1,199 $621 $1,882 $1,882 $2,503
GERMANTOWN TEL CO 150097 NY 2,416 $497 $75 $255 $422 $524 $497
GERVAIS TELEPHONE CO 532373 OR 777 $1,037 $400 $1,003 $637 $1,686 $1,037
GILA RIVER TELECOM. 452179 AZ 3,641 $2,683 $1,343 $2,062 $1,339 $1,818 $2,683
GLENWOOD TEL CO 220365 GA 733 $1,342 $454 $656 $888 $1,434 $1,342
GLENWOOD TEL MEMBER 371553 NE 2,147 $1,829 $894 $845 $935 $945 $1,780
GOLDEN BELT TEL ASSN 411777 KS 5,059 $1,626 $871 $889 $755 $978 $1,626
GOLDEN WEST TELECOM 391659 SD 13,393 $1,205 $645 $963 $561 $710 $1,205
GOLDEN WEST-KADOKA 391667 SD 454 $565 $177 $553 $388 $1,313 $565
Federal Communications Commission DA 12-646
55
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
GOLDEN WEST-VIVIAN 391686 SD 15,972 $828 $517 $699 $311 $551 $828
GOODMAN TEL CO 421886 MO 1,494 $1,396 $704 $1,090 $692 $1,346 $1,396
GORHAM TEL CO 411778 KS 273 $2,876 $1,533 $3,123 $1,343 $3,170 $2,876
GRAFTON TEL CO 341020 IL 834 $552 $164 $649 $387 $1,110 $552
GRANADA TEL CO 361399 MN 172 $478 $158 $312 $320 $1,243 $478
GRANBY TEL & TEL -MA 110036 MA 2,277 $207 $89 $238 $118 $624 $207
GRANBY TEL CO - MO 421887 MO 2,151 $1,321 $577 $1,097 $744 $1,010 $1,321
GRAND RIVER MUT-IA 351888 IA 6,262 $429 $194 $498 $234 $686 $429
GRAND RIVER MUT-MO 421888 MO 12,335 $873 $532 $873 $342 $674 $873
GRAND TEL CO INC 431994 OK 3,251 $1,287 $612 $631 $674 $1,138 $1,287
GRANITE STATE TEL 120039 NH 8,006 $515 $227 $230 $288 $412 $515
GREAT PLAINS COMMUN 371577 NE 25,547 $591 $213 $673 $378 $527 $591
GREEN HILLS TEL CORP 421890 MO 3,231 $1,425 $783 $1,309 $642 $1,200 $1,425
GRIDLEY TEL CO 341023 IL 1,214 $1,073 $330 $542 $743 $888 $1,073
GRISWOLD CO-OP TEL 351195 IA 1,712 $690 $348 $578 $343 $887 $690
GTA TELECOM, LLC 663800 GU 48,142 $578 $338 $466 $240 $857 $578
GUADALUPE VALLEY TEL 442083 TX 37,936 $773 $469 $576 $305 $486 $773
H & B COMMUNICATIONS 411781 KS 816 $1,034 $429 $959 $605 $1,565 $1,034
HAMPDEN TEL CO 100010 ME 2,401 $526 $165 $202 $361 $428 $526
HANCOCK TEL CO 150099 NY 1,550 $526 $89 $268 $438 $641 $526
HANCOCK TELECOM 320775 IN 6,098 $1,385 $796 $708 $589 $604 $1,297
HAPPY VALLEY TEL CO 542321 CA 3,011 $469 $67 $309 $402 $787 $469
HARDY TELECOM 200259 WV 3,646 $665 $330 $439 $335 $545 $665
HARGRAY TEL CO 240523 SC 35,827 $490 $146 $216 $344 $344 $490
HARRISONVILLE TEL CO 341026 IL 16,334 $707 $304 $545 $403 $557 $707
HART TEL CO 220368 GA 7,045 $590 $104 $231 $486 $477 $581
HARTINGTON TEL CO 371556 NE 1,329 $1,337 $514 $1,146 $823 $1,015 $1,337
HARTLAND & ST ALBANS 100011 ME 3,183 $421 $89 $144 $332 $347 $421
HARTMAN TEL EXCH INC 371557 NE 463 $2,799 $808 $1,536 $1,991 $2,021 $2,799
HAT ISLAND TEL CO 522417 WA 75 $599 $204 $1,075 $394 $3,076 $599
HAVILAND TEL CO 411780 KS 3,179 $1,736 $812 $874 $924 $1,076 $1,736
Federal Communications Commission DA 12-646
56
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
HAXTUN TEL CO 462190 CO 1,347 $865 $228 $563 $636 $939 $865
HAYNEVILLE TEL CO 250299 AL 2,129 $665 $252 $720 $414 $1,221 $665
HEART OF IOWA COMM. 351297 IA 2,080 $1,913 $1,198 $1,198 $715 $1,105 $1,913
HEARTLND-HICKORYTECH 351096 IA 8,828 $255 $48 $258 $207 $462 $255
HELIX TEL CO. 532376 OR 253 $1,627 $551 $1,196 $1,076 $2,580 $1,627
HEMINGFORD COOP TEL 371558 NE 742 $2,159 $985 $984 $1,173 $1,282 $2,158
HENDERSON CO-OP TEL 371559 NE 876 $1,154 $526 $978 $629 $1,152 $1,154
HERSHEY COOP TEL CO 371561 NE 631 $1,123 $524 $696 $600 $1,127 $1,123
HIAWATHA TEL CO 310713 MI 5,310 $659 $230 $578 $428 $660 $659
HILL COUNTRY CO-OP 442086 TX 15,174 $1,050 $590 $976 $460 $934 $1,050
HILLSBORO TEL CO 330892 WI 1,468 $680 $324 $574 $356 $745 $680
HINTON TEL CO 431995 OK 2,898 $1,012 $406 $937 $606 $1,199 $1,012
HOLWAY TEL CO 421929 MO 456 $580 $188 $650 $392 $1,384 $580
HOME TEL CO 240527 SC 20,094 $558 $238 $387 $320 $499 $558
HOME TEL CO 411782 KS 1,712 $2,016 $663 $1,209 $1,352 $1,345 $2,008
HOME TEL CO-ST JACOB 341032 IL 1,017 $2,577 $763 $776 $1,814 $1,122 $1,885
HOME TELEPHONE CO 532377 OR 692 $451 $101 $476 $350 $1,366 $451
HOOD CANAL TEL CO 522419 WA 1,004 $1,045 $208 $288 $837 $966 $1,045
HOPI TELECOMM, INC. 450815 AZ 1,731 $985 $438 $1,463 $547 $1,702 $985
HOPPER TELECOMM. CO. 250300 AL 2,980 $1,351 $463 $316 $889 $610 $927
HORNITOS TEL CO 542322 CA 592 $654 $184 $665 $470 $1,772 $654
HORRY TEL COOP 240528 SC 71,027 $506 $315 $366 $192 $323 $506
HOT SPRINGS TEL CO 482241 MT 874 $935 $140 $693 $796 $1,252 $935
HUMBOLDT TEL CO 553304 NV 966 $2,181 $927 $2,108 $1,254 $2,054 $2,181
HUMPHREY'S COUNTY 290566 TN 1,534 $449 $162 $307 $287 $654 $449
IAMO TEL CO - IA 351206 IA 334 $514 $195 $619 $319 $1,611 $514
IAMO TEL CO - MO 421206 MO 853 $614 $222 $727 $392 $1,332 $614
INDIANHEAD TEL CO 330936 WI 1,997 $522 $249 $280 $273 $553 $522
INDUSTRY TEL CO 442093 TX 2,275 $1,178 $547 $798 $631 $1,086 $1,178
INLAND TEL CO -WA 522423 WA 2,484 $898 $260 $764 $638 $982 $898
INLAND TEL-ID 472423 ID 346 $1,394 $422 $1,034 $972 $2,343 $1,394
Federal Communications Commission DA 12-646
57
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
INTERBEL TEL COOP 482242 MT 2,331 $1,614 $853 $861 $761 $750 $1,603
INTER-COMMUNITY TEL 381616 ND 2,231 $751 $199 $449 $552 $806 $751
INTERIOR TEL CO INC 613011 AK 4,404 $1,087 $256 $299 $830 $1,264 $1,087
INTERSTATE 35 TEL CO 351209 IA 1,075 $1,277 $675 $1,013 $602 $1,041 $1,277
INTERSTATE TELECOMM. 391654 SD 12,549 $826 $507 $791 $319 $539 $826
ISLAND TEL CO 100007 ME 635 $458 $119 $329 $339 $1,130 $458
ISLAND TEL CO 310677 MI 1,153 $470 $193 $353 $278 $742 $470
ITS TELECOMM. SYS. 210331 FL 2,980 $1,414 $332 $691 $1,083 $1,180 $1,414
J. B. N. TEL CO INC 411785 KS 2,141 $891 $294 $505 $597 $1,012 $891
JEFFERSON TEL CO -SD 391666 SD 414 $1,494 $181 $491 $1,313 $1,147 $1,328
JOHNSON TEL CO 361410 MN 1,771 $1,041 $483 $582 $558 $793 $1,041
K & M TEL CO, INC 371565 NE 599 $910 $238 $687 $672 $1,274 $910
KALAMA TEL CO 522426 WA 2,667 $841 $352 $340 $489 $655 $829
KALONA COOP TEL CO 351214 IA 1,824 $891 $478 $985 $413 $860 $891
KANOKLA TEL ASSN-KS 411788 KS 1,837 $2,830 $1,494 $1,123 $1,336 $1,405 $2,458
KANOKLA TEL ASSN-OK 431788 OK 1,003 $2,671 $1,554 $1,919 $1,117 $1,916 $2,671
KAPLAN TEL CO 270432 LA 3,768 $956 $324 $711 $632 $1,096 $956
KASSON & MANTORVILLE 361412 MN 4,027 $652 $343 $723 $309 $680 $652
KEARSARGE TEL CO 120045 NH 7,481 $476 $170 $177 $306 $366 $476
KENNEBEC TEL CO 391668 SD 734 $2,258 $872 $1,064 $1,386 $1,385 $2,258
KERMAN TEL-SEBASTIAN 542324 CA 6,002 $1,061 $364 $645 $697 $718 $1,061
KETCHIKAN PUBLIC UT 613013 AK 6,790 $958 $289 $423 $668 $1,698 $958
KEYSTONE-ARTHUR TEL 371567 NE 445 $1,773 $286 $476 $1,488 $1,357 $1,643
KINGDOM TELEPHONE CO 421901 MO 4,873 $824 $454 $824 $371 $756 $824
KNOLOGY - VALLEY 220371 GA 8,984 $262 $51 $402 $210 $778 $262
KNOLOGY COMM TEL 391652 SD 4,393 $589 $223 $387 $366 $638 $589
KNOLOGY TOTAL COMM 250295 AL 3,591 $622 $89 $412 $533 $863 $622
LA HARPE TEL CO 341043 IL 828 $1,681 $658 $824 $1,023 $1,240 $1,681
LA HARPE TEL CO INC 411791 KS 318 $3,912 $1,416 $2,426 $2,496 $2,356 $3,771
LA JICARITA RURAL 492263 NM 1,979 $1,360 $543 $672 $817 $938 $1,360
LA VALLE TEL COOP 330899 WI 1,599 $987 $444 $687 $543 $827 $987
Federal Communications Commission DA 12-646
58
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
LA WARD TEL EXCHANGE 442103 TX 884 $1,607 $600 $1,370 $1,007 $1,983 $1,607
LACKAWAXEN TELECOM 170177 PA 2,730 $346 $59 $209 $286 $523 $346
LAFOURCHE TEL CO 270433 LA 10,312 $481 $50 $326 $431 $849 $481
LAKE LIVINGSTON TEL 442104 TX 816 $2,412 $695 $823 $1,716 $1,529 $2,224
LAKESIDE TEL. CO. 280457 MS 274 $1,759 $60 $442 $1,698 $1,698 $1,759
LANCASTER TEL CO 240531 SC 18,327 $449 $100 $279 $349 $409 $449
LAVACA TEL CO-AR 401704 AR 1,194 $1,793 $751 $974 $1,042 $1,060 $1,793
LAVACA TEL CO-OK 431704 OK 1,076 $1,567 $659 $919 $908 $1,433 $1,567
LEACO RURAL TEL COOP 492264 NM 1,711 $2,204 $1,096 $1,266 $1,109 $1,604 $2,204
LEAF RIVER TEL CO 341045 IL 401 $1,929 $736 $807 $1,192 $1,333 $1,929
LEMONWEIR VALLEY TEL 330900 WI 2,840 $1,105 $626 $635 $479 $651 $1,105
LENNON TEL CO 310708 MI 925 $1,059 $174 $390 $885 $957 $1,059
LE-RU TELEPHONE CO 421908 MO 1,409 $1,558 $651 $656 $907 $1,221 $1,558
LESLIE COUNTY TEL CO 260411 KY 8,282 $567 $177 $253 $390 $434 $567
LEWIS RIVER TEL CO 522427 WA 5,232 $483 $164 $434 $319 $690 $483
LIGONIER TEL CO 320783 IN 1,540 $1,345 $539 $1,267 $806 $1,125 $1,345
LINCOLN CTY TEL SYS 552351 NV 2,360 $603 $293 $1,441 $310 $1,483 $603
LINCOLN TEL CO INC 482244 MT 983 $637 $259 $574 $379 $885 $637
LINCOLNVILLE NETWRKS 100003 ME 11,486 $272 $80 $216 $192 $384 $272
LIPAN TEL CO 442105 TX 1,435 $1,815 $753 $953 $1,062 $1,764 $1,815
LISMORE COOP TEL CO 361419 MN 312 $1,293 $808 $3,583 $485 $2,096 $1,293
LITTLE MIAMI COMM. 300613 OH 1,961 $597 $247 $312 $350 $632 $597
LOGAN TEL. COOP. INC 260413 KY 5,783 $1,071 $657 $688 $414 $624 $1,071
LONSDALE TEL CO 361422 MN 1,567 $1,571 $992 $906 $579 $777 $1,484
LOST NATION-ELWOOD 351229 IA 555 $1,728 $775 $1,556 $953 $1,496 $1,728
LUCK TEL CO 330902 WI 1,931 $793 $357 $485 $436 $599 $793
LUDLOW TEL CO 140058 VT 4,100 $367 $130 $130 $238 $338 $367
MADISON COUNTY TEL 401709 AR 3,418 $879 $286 $473 $593 $765 $879
MADISON TEL CO 341049 IL 1,455 $1,589 $302 $621 $1,287 $1,057 $1,359
MADISON TEL., LLC 411801 KS 546 $1,644 $532 $576 $1,112 $1,603 $1,644
MAHANOY & MAHANTANGO 170183 PA 3,252 $459 $166 $178 $293 $525 $459
Federal Communications Commission DA 12-646
59
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
MARGARETVILLE TEL CO 150104 NY 3,378 $332 $109 $185 $223 $445 $332
MARK TWAIN RURAL TEL 421914 MO 3,709 $1,087 $549 $581 $538 $832 $1,087
MARQUETTE-ADAMS COOP 330908 WI 3,268 $1,480 $957 $830 $523 $697 $1,353
MASHELL TELECOM INC 522431 WA 3,329 $766 $125 $310 $642 $661 $766
MATANUSKA TEL ASSOC 613015 AK 46,802 $821 $430 $327 $391 $506 $719
MCCLELLANVILLE TEL 240533 SC 1,478 $996 $337 $443 $659 $1,034 $996
MCCLURE TEL CO 300598 OH 582 $1,974 $879 $1,368 $1,095 $1,417 $1,974
MCDONALD COUNTY TEL 421912 MO 3,529 $1,239 $511 $756 $728 $1,046 $1,239
MCDONOUGH TEL COOP 341047 IL 3,592 $1,324 $608 $907 $716 $906 $1,324
MCLOUD TEL CO 432006 OK 7,038 $1,088 $422 $422 $666 $666 $1,088
MCNABB TEL CO 341048 IL 386 $476 $127 $491 $349 $1,289 $476
MCTA, INC. 123321 NH 9,131 $377 $145 $151 $232 $311 $377
MEDICINE PARK TEL CO 432008 OK 676 $2,078 $646 $1,479 $1,432 $2,295 $2,078
MERCHANTS & FARMERS 320788 IN 415 $711 $176 $429 $535 $1,047 $711
MERRIMACK COUNTY TEL 120047 NH 6,499 $404 $150 $193 $254 $392 $404
MESCALERO APACHE 491231 NM 1,151 $2,908 $1,002 $1,081 $1,906 $1,809 $2,811
MID CENTURY TEL COOP 341054 IL 3,977 $741 $458 $1,049 $283 $959 $741
MID MAINE TELECOM 103315 ME 4,185 $498 $156 $121 $342 $339 $460
MID STATE TEL CO 361433 MN 5,827 $503 $229 $363 $274 $460 $503
MID-AMERICA TEL INC 432010 OK 1,261 $849 $418 $609 $431 $1,542 $849
MIDDLEBURGH TEL CO 150105 NY 5,848 $284 $69 $207 $215 $422 $284
MID-MISSOURI TEL CO 421917 MO 3,437 $1,296 $498 $583 $798 $897 $1,296
MID-PLAINS RURAL TEL 442112 TX 2,796 $1,071 $474 $1,324 $597 $1,396 $1,071
MID-RIVERS TEL COOP 482246 MT 10,042 $774 $359 $527 $415 $559 $774
MIDSTATE COMM., INC. 391670 SD 4,315 $959 $664 $1,314 $295 $952 $959
MIDSTATE TEL CO 381617 ND 1,870 $1,018 $419 $876 $599 $826 $1,018
MIDVALE TEL EXCH INC 472226 ID 957 $1,609 $538 $1,116 $1,071 $1,472 $1,609
MIDVALE-AZ 452226 AZ 1,226 $3,118 $1,377 $2,170 $1,740 $1,976 $3,118
MIDWAY TEL CO 310711 MI 703 $998 $344 $813 $654 $1,194 $998
MIDWAY TEL CO 330909 WI 7,154 $444 $152 $220 $292 $291 $443
MILLER TEL CO - MO 421920 MO 819 $991 $271 $524 $720 $1,131 $991
Federal Communications Commission DA 12-646
60
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
MILLINGTON TEL CO 290571 TN 20,820 $435 $144 $353 $292 $430 $435
MILLRY TEL CO 250304 AL 6,056 $724 $256 $513 $468 $712 $724
MILLTOWN MUTUAL TEL 330910 WI 2,137 $931 $390 $481 $541 $567 $931
MINBURN TELECOMM. 351158 IA 701 $777 $367 $886 $410 $1,091 $777
MOAPA VALLEY TEL CO. 552353 NV 3,302 $374 $141 $1,011 $233 $1,528 $374
MOKAN DIAL INC-KS 411807 KS 3,227 $949 $300 $431 $649 $762 $949
MOKAN DIAL INC-MO 421807 MO 688 $961 $366 $577 $595 $1,109 $961
MOLALLA TEL CO. 532383 OR 4,822 $1,192 $586 $858 $605 $792 $1,192
MON-CRE TEL COOP 250305 AL 2,445 $1,143 $508 $465 $635 $760 $1,100
MONITOR COOP TEL 532384 OR 555 $1,478 $593 $910 $885 $1,566 $1,478
MONON TEL CO 320790 IN 947 $1,556 $544 $729 $1,011 $1,101 $1,556
MONROE TELEPHONE CO. 532385 OR 884 $1,215 $473 $793 $741 $1,375 $1,215
MONTROSE MUTUAL TEL 341058 IL 1,423 $479 $113 $581 $365 $1,054 $479
MOULTRIE INDEPENDENT 341060 IL 569 $710 $149 $650 $561 $1,314 $710
MOUND BAYOU TEL & CO 280462 MS 690 $1,083 $559 $1,475 $524 $1,910 $1,083
MOUNDRIDGE TEL CO 411808 KS 2,417 $1,078 $484 $484 $595 $824 $1,078
MOUNDVILLE TEL CO 250307 AL 1,346 $888 $394 $695 $494 $1,082 $888
MOUNT HOREB TEL CO 330916 WI 3,728 $602 $324 $247 $278 $541 $525
MOUNTAIN RURAL COOP 260414 KY 14,989 $557 $279 $769 $278 $493 $557
MT VERNON TEL CO 330917 WI 10,537 $682 $264 $368 $418 $357 $621
MUENSTER DBA NORTEX 442116 TX 3,826 $1,264 $594 $731 $671 $976 $1,264
MUKLUK TEL CO INC 613016 AK 1,361 $1,044 $217 $507 $828 $1,273 $1,044
MUTUAL TEL CO 351252 IA 4,218 $651 $396 $632 $255 $548 $651
MUTUAL TEL CO 411809 KS 437 $3,778 $1,657 $2,302 $2,120 $2,199 $3,778
NATIONAL OF ALABAMA 250286 AL 1,665 $813 $343 $583 $470 $1,048 $813
NE MISSOURI RURAL 421931 MO 6,843 $1,102 $648 $789 $454 $733 $1,102
NEBRASKA CENTRAL TEL 371574 NE 6,319 $667 $299 $583 $368 $732 $667
NEHALEM TELECOMM. 532387 OR 2,814 $520 $168 $620 $352 $869 $520
NELSON TEL COOP 330918 WI 3,691 $1,170 $718 $684 $451 $644 $1,135
NELSON-BALL GROUND 220375 GA 6,690 $553 $233 $390 $319 $545 $553
NEMONT TEL COOP - ND 382247 ND 212 $3,294 $2,733 $4,638 $561 $3,370 $3,294
Federal Communications Commission DA 12-646
61
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
NEMONT TEL COOP-MT 482247 MT 11,196 $1,037 $452 $888 $585 $613 $1,037
NEW CASTLE TEL. CO. 193029 VA 2,110 $500 $203 $357 $297 $684 $500
NEW FLORENCE TEL CO 421927 MO 387 $1,035 $160 $580 $875 $1,453 $1,035
NEW HOPE TEL COOP 250308 AL 4,960 $1,187 $777 $1,056 $411 $806 $1,187
NEW LONDON TEL CO 421928 MO 747 $563 $198 $435 $365 $978 $563
NEW PARIS TEL INC 320797 IN 1,727 $645 $117 $358 $529 $713 $645
NEW ULM TELECOM, INC 361442 MN 10,727 $390 $159 $218 $232 $336 $390
NEWPORT TEL CO 150107 NY 2,987 $478 $165 $220 $313 $464 $478
NIAGARA TEL CO 330920 WI 3,601 $704 $298 $399 $406 $547 $704
NICHOLVILLE TEL CO 150108 NY 1,590 $648 $131 $221 $517 $525 $648
NORTH ARKANSAS TEL 401713 AR 6,111 $917 $382 $390 $535 $693 $917
NORTH CENTRAL COOP 290573 TN 19,553 $794 $456 $636 $337 $449 $794
NORTH DAKOTA TEL CO 381447 ND 13,946 $640 $306 $529 $334 $521 $640
NORTH PENN TEL CO 170192 PA 4,900 $685 $263 $285 $421 $487 $685
NORTH STATE TEL CO. 532388 OR 473 $4,196 $2,279 $2,718 $1,917 $2,211 $4,196
NORTHEAST FLORIDA 210335 FL 7,424 $748 $187 $359 $561 $633 $748
NORTHEAST LOUISIANA 270435 LA 643 $1,525 $523 $1,102 $1,002 $1,793 $1,525
NORTHEAST NEBRASKA 371576 NE 6,126 $772 $509 $1,311 $263 $853 $772
NORTHERN TEL COOP 482248 MT 1,536 $1,173 $565 $781 $608 $1,052 $1,173
NORTHFIELD TEL CO 140061 VT 2,436 $334 $99 $111 $235 $398 $334
NORTHWESTERN INDIANA 320800 IN 9,877 $456 $142 $302 $314 $463 $456
NOXAPATER TEL CO 280461 MS 776 $1,398 $130 $431 $1,268 $1,124 $1,254
NUCLA-NATURITA TEL 462193 CO 1,589 $773 $352 $942 $421 $1,297 $773
NUNN TEL CO 462194 CO 559 $3,140 $1,718 $1,561 $1,422 $1,360 $2,920
NUSHAGAK ELEC & TEL 613018 AK 2,114 $1,157 $365 $426 $792 $1,416 $1,157
OGDEN TEL CO 310714 MI 320 $977 $325 $695 $652 $1,445 $977
OKLAHOMA COMM SYSTEM 431984 OK 13,988 $605 $244 $265 $361 $513 $605
OKLAHOMA TEL & TEL 432013 OK 1,498 $1,362 $293 $632 $1,069 $1,415 $1,362
OKLAHOMA WESTERN TEL 432014 OK 2,577 $681 $329 $492 $352 $1,182 $681
ONEIDA COUNTY RURAL 150111 NY 2,315 $434 $177 $241 $257 $487 $434
ONEIDA TEL EXCHANGE 341066 IL 472 $469 $154 $680 $315 $1,287 $469
Federal Communications Commission DA 12-646
62
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
ONTARIO TEL CO, INC. 150112 NY 2,628 $790 $292 $475 $499 $688 $790
ONTONAGON COUNTY TEL 310717 MI 3,325 $561 $187 $569 $374 $660 $561
ORCHARD FARM TEL CO 421934 MO 641 $478 $177 $428 $301 $1,015 $478
OREGON FARMERS MUT 421935 MO 1,019 $662 $207 $483 $455 $893 $662
OREGON TEL CORP 532389 OR 1,558 $2,434 $1,418 $2,423 $1,016 $1,499 $2,434
OREGON-IDAHO UTIL. 532390 OR 638 $2,986 $1,265 $1,646 $1,721 $2,083 $2,986
ORISKANY FALLS TEL 150114 NY 434 $580 $211 $492 $370 $898 $580
OSAKIS TEL CO 361448 MN 1,486 $812 $504 $498 $308 $554 $806
OTZ TEL COOPERATIVE 613019 AK 2,950 $1,090 $409 $1,231 $681 $1,775 $1,090
OXFORD WEST TEL CO 100002 ME 5,734 $467 $95 $190 $372 $372 $467
Ozark Tel. Co. 421866 MO 2,127 $1,103 $560 $718 $544 $1,090 $1,103
PANHANDLE TEL COOP 432016 OK 13,384 $1,118 $670 $722 $448 $710 $1,118
PARTNER COMM. COOP. 351187 IA 891 $1,621 $858 $1,373 $763 $1,388 $1,621
PATTERSONVILLE TEL 150116 NY 905 $506 $117 $163 $388 $704 $506
PAUL BUNYAN RURAL 361451 MN 11,704 $1,005 $619 $810 $386 $525 $1,005
PBT TELECOM, INC. 240539 SC 12,672 $1,052 $475 $443 $577 $509 $951
PEETZ COOP TEL CO 462196 CO 227 $1,547 $614 $907 $933 $1,910 $1,547
PEMBROKE TEL CO 220376 GA 3,334 $1,079 $433 $577 $646 $850 $1,079
PENASCO VALLEY TEL 492270 NM 2,916 $2,075 $1,201 $1,388 $874 $1,586 $2,075
PEND OREILLE TEL. 522418 WA 1,827 $675 $114 $367 $561 $815 $675
PENINSULA TEL CO -MI 310720 MI 1,112 $350 $75 $245 $275 $747 $350
PEOPLES RURAL COOP 260415 KY 7,700 $1,011 $445 $821 $566 $555 $1,000
PEOPLES TEL CO 250314 AL 12,413 $728 $279 $372 $449 $472 $728
PEOPLES TEL CO 290576 TN 4,425 $658 $336 $407 $322 $594 $658
PEOPLES TEL CO - MN 361453 MN 1,689 $768 $372 $272 $396 $546 $668
PEOPLES TEL CO. - OR 532391 OR 1,092 $1,292 $562 $1,499 $730 $1,403 $1,292
PEOPLES TEL COOP -TX 442130 TX 11,701 $914 $399 $816 $515 $711 $914
PEOPLES TELECOM LLC 411814 KS 1,303 $1,841 $758 $630 $1,083 $1,031 $1,661
PERKINSVILLE TEL CO 140062 VT 801 $275 $67 $100 $208 $536 $275
PERRY-SPENCER RURAL 320807 IN 5,307 $888 $412 $885 $476 $826 $888
PHILLIPS COUNTY TEL 462197 CO 1,674 $1,451 $780 $1,337 $671 $973 $1,451
Federal Communications Commission DA 12-646
63
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
PIEDMONT RURAL COOP 240538 SC 10,708 $842 $483 $365 $359 $527 $724
PIGEON TEL CO 310721 MI 2,595 $1,018 $308 $457 $710 $699 $1,007
PINE BELT TEL CO 250315 AL 2,324 $1,294 $687 $981 $607 $1,079 $1,294
PINE ISLAND TEL CO 361454 MN 2,771 $590 $341 $325 $249 $492 $574
PINE TEL SYSTEM INC. 532392 OR 902 $4,411 $3,043 $2,203 $1,368 $1,519 $3,570
PINE TELEPHONE CO 432017 OK 4,998 $618 $283 $700 $335 $1,035 $618
PINELAND TEL COOP 220377 GA 10,502 $893 $656 $910 $237 $790 $893
PINNACLES TEL CO 542346 CA 253 $2,790 $904 $1,093 $1,886 $3,251 $2,790
PIONEER TEL ASSN INC 411817 KS 12,304 $808 $371 $444 $436 $651 $808
PIONEER TEL CO 522437 WA 725 $1,365 $831 $1,045 $534 $1,377 $1,365
PIONEER TEL COOP 532393 OR 12,644 $786 $392 $674 $394 $784 $786
PIONEER TEL COOP INC 432018 OK 46,095 $531 $212 $695 $318 $550 $531
PLAINS COOP TEL ASSN 462199 CO 1,222 $2,002 $816 $987 $1,186 $1,320 $2,002
PLAINVIEW TEL CO 371582 NE 979 $1,740 $796 $1,574 $944 $1,203 $1,740
PLANT TEL. CO. 220379 GA 7,268 $735 $288 $528 $447 $747 $735
PLANTERS RURAL COOP 220378 GA 7,450 $1,283 $850 $945 $434 $793 $1,283
POKA-LAMBRO TEL COOP 442131 TX 2,401 $974 $343 $903 $631 $1,479 $974
POLAR COMM MUT AID 381630 ND 7,758 $559 $280 $604 $279 $548 $559
PORT BYRON TEL CO 150118 NY 2,371 $537 $190 $250 $348 $550 $537
POTLATCH TEL CO INC 472230 ID 1,762 $478 $192 $399 $285 $823 $478
POTTAWATOMIE TEL CO 432020 OK 2,188 $1,516 $557 $595 $959 $1,200 $1,516
PRAIRIE GROVE TEL CO 401718 AR 8,086 $959 $430 $394 $529 $529 $922
PRICE COUNTY TEL CO 330937 WI 4,143 $456 $260 $283 $196 $416 $456
PROJECT MUTUAL TEL 472231 ID 5,871 $627 $295 $727 $332 $753 $627
PROJECT TEL CO 482250 MT 4,633 $1,036 $385 $884 $650 $782 $1,036
PUBLIC SERVICE TEL 220381 GA 9,097 $1,169 $481 $466 $688 $631 $1,097
PULASKI-WHITE RURAL 320813 IN 1,318 $985 $335 $669 $650 $955 $985
QUINCY TEL CO-FL DIV 210338 FL 10,326 $513 $202 $365 $311 $605 $513
QUINCY TEL CO-GA DIV 220338 GA 575 $646 $283 $530 $362 $1,326 $646
RADCLIFFE TEL CO 351277 IA 452 $950 $507 $1,269 $443 $1,437 $950
RAGLAND TEL CO 250316 AL 1,014 $1,759 $576 $715 $1,183 $1,217 $1,759
Federal Communications Commission DA 12-646
64
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
RAINBOW TELECOM 411820 KS 1,692 $3,021 $2,019 $2,323 $1,002 $1,581 $3,021
RANGE TEL COOP - WY 512251 WY 14,862 $908 $497 $516 $411 $514 $908
RANGE TEL COOP-MT 482251 MT 4,319 $738 $275 $494 $462 $696 $738
RED RIVER RURAL TEL 381631 ND 3,509 $1,056 $631 $1,230 $425 $862 $1,056
RESERVATION TEL COOP 381632 ND 6,629 $1,060 $519 $1,129 $541 $789 $1,060
RESERVE TEL CO 270438 LA 3,779 $562 $148 $298 $414 $909 $562
RICE BELT TEL CO 401721 AR 704 $1,615 $282 $1,523 $1,333 $1,886 $1,615
RICHLAND-GRANT COOP 330942 WI 2,342 $1,081 $620 $869 $461 $850 $1,081
RICHMOND TEL CO 110037 MA 939 $444 $80 $309 $365 $813 $444
RICO TEL CO 462201 CO 152 $569 $268 $1,741 $301 $2,346 $569
RINGGOLD TEL CO 220382 GA 10,089 $623 $289 $329 $334 $445 $623
RIO VIRGIN TEL CO 552356 NV 9,519 $436 $244 $852 $192 $794 $436
RIVIERA TEL CO INC 442134 TX 1,184 $1,988 $433 $1,492 $1,555 $2,325 $1,988
ROANOKE & BOTETOURT 190249 VA 8,498 $665 $282 $599 $383 $569 $665
ROANOKE TEL CO 250317 AL 4,033 $609 $239 $590 $370 $748 $609
ROBERTS COUNTY COOP 391674 SD 1,827 $1,049 $581 $748 $469 $1,123 $1,049
ROCHESTER TEL CO 320815 IN 5,625 $785 $406 $500 $378 $569 $785
ROCK COUNTY TEL CO 371586 NE 835 $460 $34 $369 $426 $947 $460
ROCK HILL TEL CO 240542 SC 39,493 $321 $105 $232 $216 $279 $321
ROGGEN TEL COOP CO 462202 CO 228 $1,985 $913 $1,223 $1,072 $1,709 $1,985
ROOME TELECOMM INC 532375 OR 527 $721 $214 $560 $506 $1,557 $721
ROOSEVELT CNTY RURAL 492272 NM 1,522 $1,427 $609 $1,370 $818 $1,625 $1,427
RURAL TEL CO - ID 472233 ID 684 $2,530 $1,088 $1,849 $1,442 $2,107 $2,530
RURAL TEL CO - NV 552233 NV 893 $1,267 $428 $1,110 $839 $1,511 $1,267
RURAL TEL SERVICE CO 411826 KS 8,164 $2,545 $893 $712 $1,652 $835 $1,546
RYE TELEPHONE CO 462203 CO 2,280 $1,799 $772 $970 $1,027 $1,179 $1,799
S & A TEL CO INC 411829 KS 702 $2,252 $805 $564 $1,447 $1,307 $1,871
S & T TEL COOP ASSN 411827 KS 2,455 $2,449 $1,087 $795 $1,363 $1,166 $1,961
S. CENTRAL TEL - KS 411831 KS 1,528 $2,627 $1,245 $1,341 $1,382 $1,586 $2,627
S. CENTRAL TEL - OK 431831 OK 297 $5,443 $1,818 $1,646 $3,625 $2,359 $4,004
SACRED WIND 493403 NM 2,600 $3,182 $1,877 $2,082 $1,306 $1,507 $3,182
Federal Communications Commission DA 12-646
65
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
SADDLEBACK COMM CO 457991 AZ 1,041 $2,554 $1,146 $2,948 $1,409 $2,877 $2,554
SALINA-SPAVINAW TEL 432022 OK 6,344 $619 $209 $367 $410 $826 $619
SALUDA MOUNTAIN TEL 230498 NC 1,461 $673 $297 $549 $375 $851 $673
SAN CARLOS APACHE 452169 AZ 2,529 $1,503 $820 $1,983 $683 $1,708 $1,503
SANDWICH ISLES COMM. 623021 HI 2,334 $9,278 $5,742 $2,263 $3,536 $3,536 $5,798
SANTA ROSA TEL COOP 442141 TX 1,872 $1,277 $497 $1,194 $780 $1,674 $1,277
SANTEL COMM. COOP. 391676 SD 4,447 $903 $551 $688 $352 $739 $903
SCIO MUTUAL TEL ASSN 532397 OR 1,598 $1,781 $1,117 $1,002 $663 $1,173 $1,665
SCOTT COUNTY COOP 190248 VA 5,952 $874 $393 $965 $481 $703 $874
SCOTT COUNTY TEL CO 403031 AR 130 $1,684 $429 $739 $1,256 $2,560 $1,684
SE INDIANA RURAL 320819 IN 4,157 $1,203 $597 $790 $606 $702 $1,203
SE NEBRASKA COMM INC 371591 NE 3,113 $1,029 $349 $544 $680 $825 $1,029
SE TEL OF WISCONSIN 330952 WI 5,724 $505 $208 $235 $297 $421 $505
SENECA TEL CO 421945 MO 2,796 $993 $499 $893 $494 $927 $993
SHAWNEE TEL. CO. 341025 IL 3,626 $1,804 $725 $1,100 $1,079 $1,045 $1,771
SHELL ROCK COMM 351295 IA 836 $685 $444 $1,302 $241 $1,128 $685
SHIAWASSEE TEL CO 310726 MI 4,440 $543 $227 $326 $317 $548 $543
SHIDLER TEL CO 432023 OK 728 $2,886 $1,575 $2,061 $1,311 $3,172 $2,886
SIERRA TELEPHONE CO 542338 CA 20,806 $842 $370 $400 $472 $487 $842
SILVER STAR TEL- ID 472295 ID 3,992 $1,749 $671 $513 $1,078 $609 $1,122
SILVER STAR TEL-WY 512295 WY 2,664 $1,239 $458 $604 $780 $701 $1,159
SIREN TEL CO, INC 330949 WI 2,249 $922 $476 $751 $446 $648 $922
SKYLINE TELECOM CO. 520581 WA 30 $12,290 $6,303 $6,592 $5,986 $8,034 $12,290
SKYLINE TELECOM, INC 521402 WA 140 $1,250 $359 $919 $891 $2,257 $1,250
SLEDGE TEL CO 280466 MS 369 $2,192 $1,288 $1,893 $905 $2,079 $2,192
SLEEPY EYE TEL CO 361483 MN 4,878 $421 $216 $282 $204 $465 $421
SMART CITY TEL LLC 210330 FL 9,751 $616 $186 $295 $430 $533 $616
SMITHVILLE COMM. 320818 IN 24,750 $1,377 $703 $835 $674 $486 $1,189
SOMERSET TEL CO 100024 ME 9,475 $446 $115 $164 $331 $318 $433
SOUTH ARKANSAS TEL 401702 AR 3,041 $1,024 $373 $517 $652 $893 $1,024
SOUTH CENTRAL RURAL 260418 KY 25,845 $802 $482 $442 $320 $404 $763
Federal Communications Commission DA 12-646
66
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
SOUTH CENTRAL UTAH 502286 UT 11,732 $614 $321 $618 $293 $658 $614
SOUTH PARK TEL. CO. 462195 CO 167 $6,116 $2,087 $1,197 $4,029 $2,160 $3,357
SOUTH PLAINS TEL 442143 TX 4,104 $760 $321 $871 $439 $1,053 $760
SOUTH SLOPE COOP TEL 351298 IA 9,956 $671 $394 $666 $277 $476 $671
SOUTHEAST MS TEL CO 283301 MS 2,997 $846 $386 $364 $460 $790 $824
SOUTHERN KANSAS TEL 411833 KS 3,986 $1,794 $746 $696 $1,048 $1,048 $1,744
SOUTHERN MONTANA TEL 482254 MT 947 $2,902 $1,692 $2,045 $1,210 $1,486 $2,902
SOUTHWEST TEXAS TEL 442135 TX 4,213 $1,439 $874 $1,225 $566 $1,536 $1,439
SOUTHWESTERN TEL CO 452174 AZ 3,302 $675 $307 $714 $368 $1,220 $675
SPRING GROVE COMM. 361485 MN 1,236 $1,152 $821 $2,007 $331 $1,108 $1,152
SPRING VALLEY TEL CO 330953 WI 1,065 $1,441 $816 $826 $626 $856 $1,441
SPRINGPORT TEL CO 310728 MI 1,380 $651 $220 $493 $431 $714 $651
SPRUCE KNOB SENECA 200257 WV 1,166 $1,537 $931 $1,268 $607 $970 $1,537
ST JOHN TEL CO 522442 WA 587 $3,411 $2,277 $2,362 $1,134 $1,717 $3,411
ST STEPHEN TEL CO 240544 SC 3,857 $582 $229 $328 $353 $690 $582
STANTON TELECOM INC. 371592 NE 1,089 $2,073 $844 $1,353 $1,229 $1,186 $2,030
STAR MEMBERSHIP CORP 230502 NC 16,205 $628 $323 $687 $305 $524 $628
STAR TEL CO 270441 LA 3,210 $1,340 $110 $381 $1,229 $966 $1,076
STAYTON COOP TEL CO 532399 OR 5,712 $841 $480 $849 $361 $806 $841
STEELVILLE TEL EXCH 421949 MO 4,211 $1,265 $547 $748 $718 $777 $1,265
STOCKBRIDGE & SHERWD 330954 WI 2,287 $607 $287 $313 $321 $525 $607
STOCKHOLM-STRANDBURG 391679 SD 597 $764 $409 $557 $355 $1,193 $764
STOUTLAND TEL CO 421951 MO 1,268 $725 $278 $353 $448 $762 $725
STRASBURG TEL CO 462207 CO 1,534 $677 $312 $434 $366 $590 $677
STRATFORD MUTUAL TEL 351305 IA 553 $1,385 $736 $1,358 $650 $1,403 $1,385
SUGAR VALLEY TEL CO 170206 PA 1,035 $555 $215 $244 $341 $737 $555
SUMMIT TEL & TEL -AK 613028 AK 252 $3,906 $1,324 $1,607 $2,581 $2,683 $3,906
SUNMAN TELECOMM CORP 320825 IN 4,355 $894 $309 $498 $585 $591 $894
SUREWEST TEL. 542334 CA 58,058 $542 $268 $249 $274 $342 $523
SW ARKANSAS TEL COOP 401724 AR 5,103 $1,243 $647 $805 $596 $901 $1,243
SW OKLAHOMA TEL CO 432025 OK 647 $634 $102 $634 $532 $1,975 $634
Federal Communications Commission DA 12-646
67
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
SWISHER TEL CO 351304 IA 748 $858 $783 $1,219 $75 $1,144 $858
SYCAMORE TEL CO 300658 OH 1,529 $351 $88 $337 $263 $826 $351
TABLE TOP TEL CO 453334 AZ 3,993 $1,405 $767 $1,423 $638 $1,448 $1,405
TATUM TEL CO 442150 TX 909 $777 $171 $510 $606 $1,159 $777
TAYLOR TEL CO-OP INC 442151 TX 6,173 $886 $466 $975 $419 $1,145 $886
TELLICO TEL CO 290578 TN 8,160 $466 $205 $304 $261 $495 $466
TENINO TELEPHONE CO 522446 WA 3,181 $976 $383 $353 $593 $685 $946
TENNESSEE TEL CO 290575 TN 47,085 $517 $253 $285 $264 $302 $517
TENNEY TEL CO 330958 WI 1,031 $542 $216 $382 $327 $642 $542
TERRAL TEL CO 432029 OK 215 $5,077 $1,837 $1,151 $3,240 $2,761 $3,912
THE BLAIR TEL CO 371524 NE 6,597 $573 $185 $283 $388 $456 $573
THE CHAMPAIGN TEL CO 300594 OH 7,103 $659 $272 $311 $387 $492 $659
THE CHILLICOTHE TEL 300597 OH 22,252 $900 $390 $371 $509 $386 $757
THE NOVA TEL CO 300644 OH 970 $1,225 $258 $464 $967 $819 $1,078
THE PONDEROSA TEL CO 542332 CA 8,435 $1,718 $865 $1,144 $853 $1,095 $1,718
THE SISKIYOU TEL CO 542339 CA 4,417 $1,993 $1,116 $1,761 $878 $1,175 $1,993
THREE RIVER TELCO 371525 NE 1,193 $1,547 $798 $1,279 $749 $1,447 $1,547
TOHONO O'ODHAM UTIL. 452173 AZ 3,803 $1,135 $634 $1,145 $501 $1,073 $1,135
TOLEDO TELEPHONE CO 522447 WA 1,912 $1,343 $639 $669 $704 $971 $1,343
TOPSHAM TEL CO 140068 VT 1,598 $1,178 $437 $587 $742 $645 $1,081
TOTAH COMMUNICATIONS 412030 KS 1,019 $1,679 $654 $930 $1,024 $1,916 $1,679
TOTAH COMMUNICATIONS 432030 OK 1,818 $1,089 $461 $851 $628 $1,564 $1,089
TOTELCOM COMM. 442060 TX 4,126 $742 $156 $476 $587 $891 $742
TOWNSHIP TEL CO 150129 NY 2,588 $709 $319 $256 $390 $496 $647
TRANS-CASCADES TEL 532378 OR 214 $1,633 $334 $728 $1,299 $2,552 $1,633
TRI COUNTY TEL ASSN 512296 WY 5,903 $1,677 $652 $679 $1,026 $693 $1,345
TRIANGLE TEL COOP 482257 MT 10,337 $1,324 $918 $1,737 $406 $695 $1,324
TRI-COUNTY COMM COOP 330960 WI 3,444 $987 $481 $566 $506 $636 $987
TRI-COUNTY TEL ASSN 411839 KS 2,849 $2,022 $1,054 $846 $968 $1,049 $1,814
TRI-COUNTY TEL CO-AR 401726 AR 5,863 $1,035 $359 $361 $676 $676 $1,035
TRUMANSBURG TEL CO. 150131 NY 4,451 $692 $296 $312 $396 $538 $692
Federal Communications Commission DA 12-646
68
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
TULAROSA BASIN TEL. 492265 NM 4,036 $1,508 $800 $992 $707 $1,033 $1,508
TWIN LAKES TEL COOP 290579 TN 33,878 $581 $342 $600 $239 $421 $581
TWIN VALLEY TEL INC 411840 KS 1,931 $1,213 $548 $824 $664 $1,289 $1,213
TWIN VALLEY-ULEN TEL 361491 MN 3,114 $787 $452 $495 $335 $606 $787
UBTA-UBET/STRATA 502287 UT 3,302 $1,192 $419 $524 $773 $992 $1,192
UNION RIVER TEL CO 100027 ME 1,211 $1,438 $710 $710 $728 $833 $1,438
UNION TEL CO 120049 NH 5,320 $332 $113 $246 $219 $456 $332
UNION TEL CO 330962 WI 3,875 $777 $412 $436 $366 $554 $777
UNION TELEPHONE CO 512297 WY 6,031 $501 $228 $733 $273 $759 $501
UNITED FARMERS TEL 351316 IA 547 $1,249 $685 $1,970 $564 $1,553 $1,249
UNITED TEL ASSN 411841 KS 4,767 $1,439 $751 $739 $688 $927 $1,427
UNITED TEL MUTUAL 381636 ND 10,082 $677 $386 $556 $291 $493 $677
UNITED UTILITIES INC 613023 AK 6,673 $749 $182 $500 $567 $1,015 $749
UNITEL, INC. 100029 ME 4,001 $597 $186 $240 $411 $448 $597
UPPER PENINSULA TEL 310732 MI 5,012 $868 $447 $706 $421 $719 $868
UTC OF TN 290581 TN 12,996 $832 $548 $669 $284 $635 $832
UTELCO, INC 330963 WI 12,453 $392 $157 $230 $235 $337 $392
VALLEY TEL COOP - NM 492176 NM 1,150 $2,461 $1,608 $2,271 $853 $2,255 $2,461
VALLEY TEL CO-OP -TX 442159 TX 5,765 $1,979 $1,037 $1,612 $942 $1,520 $1,979
VALLEY TEL COOP-AZ 452176 AZ 5,983 $1,745 $1,026 $1,524 $719 $1,233 $1,745
VALLEY TELECOMM. 391685 SD 3,190 $1,476 $892 $1,139 $584 $911 $1,476
VALLIANT TEL CO 432032 OK 1,654 $953 $389 $654 $564 $1,318 $953
VENTURE COMM. COOP 391680 SD 10,226 $958 $650 $765 $308 $613 $958
VERMONT TEL. CO-VT 147332 VT 17,646 $569 $187 $187 $382 $311 $499
VERNON TEL CO 150133 NY 1,758 $386 $165 $323 $221 $573 $386
VERNON TEL COOP 330966 WI 6,409 $612 $259 $510 $353 $546 $612
VOLCANO TEL CO 542343 CA 10,145 $777 $368 $458 $409 $608 $777
W. RIVER TELECOM. 381637 ND 14,324 $652 $369 $766 $283 $580 $652
W. WISCONSIN TELCOM 330971 WI 6,053 $1,290 $773 $775 $516 $546 $1,290
WABASH TEL COOP, INC 341088 IL 4,243 $787 $394 $701 $393 $887 $787
WAITSFIELD/FAYSTON 140069 VT 18,643 $538 $200 $211 $338 $284 $484
Federal Communications Commission DA 12-646
69
Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
WALDRON TEL CO 310734 MI 481 $1,051 $296 $465 $755 $1,043 $1,051
WALNUT HILL TEL CO 401729 AR 4,351 $1,202 $274 $359 $928 $800 $1,074
WALNUT TEL CO, INC 351326 IA 682 $812 $387 $1,108 $425 $1,188 $812
WAMEGO TEL CO INC 411845 KS 4,672 $634 $251 $513 $383 $752 $634
WARREN TEL CO 100031 ME 1,226 $574 $156 $189 $418 $550 $574
WARWICK VALLEY-NJ 160135 NJ 5,688 $412 $183 $351 $230 $785 $412
WARWICK VALLEY-NY 150135 NY 9,336 $390 $192 $213 $198 $447 $390
WASHINGTON CTY RURAL 320834 IN 2,752 $751 $446 $634 $305 $672 $751
WAUNETA TEL CO 371597 NE 606 $1,998 $879 $584 $1,119 $1,109 $1,693
WAVERLY HALL, LLC 220392 GA 1,310 $905 $297 $711 $609 $1,121 $905
WEBB-DICKENS TEL 351327 IA 337 $2,488 $911 $2,012 $1,577 $1,828 $2,488
WEBSTER-CALHOUN COOP 351328 IA 4,117 $1,441 $1,064 $1,745 $377 $991 $1,441
WELLMAN COOP TEL 351329 IA 1,211 $760 $427 $723 $333 $922 $760
WEST CAROLINA RURAL 240550 SC 10,740 $1,804 $1,349 $1,190 $456 $802 $1,646
WEST CENTRAL TEL 361501 MN 3,502 $1,575 $1,013 $1,190 $562 $715 $1,575
WEST KENTUCKY RURAL 260421 KY 13,946 $926 $481 $528 $445 $515 $926
WEST LIBERTY TEL CO 351332 IA 3,257 $830 $489 $894 $341 $815 $830
WEST PENOBSCOT TEL 100034 ME 2,055 $363 $61 $140 $301 $408 $363
WEST RIVER COOP 391689 SD 3,420 $1,856 $1,269 $1,188 $587 $1,007 $1,775
WEST SIDE TEL-WV 200277 WV 2,340 $593 $177 $335 $416 $652 $593
WEST TENNESSEE TEL 290583 TN 3,255 $557 $248 $407 $309 $674 $557
WEST TEXAS RURAL TEL 442166 TX 1,895 $1,338 $203 $656 $1,135 $1,307 $1,338
WESTERN NEW MEXICO 492268 NM 6,217 $1,236 $478 $478 $757 $794 $1,236
WESTERN WAHKIAKUM 522451 WA 1,100 $2,022 $873 $749 $1,148 $1,378 $1,897
WES-TEX TEL CO-OP 442168 TX 2,255 $1,187 $429 $1,515 $758 $1,816 $1,187
WESTGATE dba WEAVTEL 520580 WA 20 $16,069 $6,404 $5,807 $9,666 $7,834 $13,641
WHEAT STATE TEL, INC 411847 KS 1,916 $1,096 $386 $501 $710 $1,033 $1,096
WHIDBEY TEL CO. 522452 WA 11,919 $560 $279 $301 $281 $420 $560
WIGGINS TEL ASSOC 462209 CO 1,511 $2,266 $1,468 $2,378 $799 $1,290 $2,266
WILKES MEMBERSHIP 230510 NC 9,723 $986 $636 $636 $349 $480 $986
WILKES TEL & ELC CO 220394 GA 9,354 $513 $211 $498 $303 $647 $513
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Study Area Name SAC State Loops
Current 
CPL
Current 
Capex 
CPL
90% 
Capex 
CPL 
Estimate
Current 
Opex 
CPL
90% 
Opex 
CPL 
Estimate
CPL used 
to 
Determine 
Support
WILLISTON TEL CO 240551 SC 3,979 $587 $220 $260 $367 $590 $587
WILSON TEL CO INC 411849 KS 1,803 $2,031 $730 $1,002 $1,300 $1,361 $2,031
WILTON TEL CO - NH 120050 NH 2,589 $417 $134 $218 $283 $473 $417
WINN TEL CO 310737 MI 648 $723 $102 $268 $621 $856 $723
WINNEBAGO COOP-IA 351337 IA 5,567 $930 $614 $861 $316 $745 $930
WINNEBAGO COOP-MN 361337 MN 680 $779 $615 $591 $164 $1,107 $755
WINTERHAVEN TEL. CO. 542323 CA 994 $801 $206 $511 $595 $1,779 $801
WITTENBERG TEL CO 330973 WI 2,083 $672 $276 $389 $396 $606 $672
WOLVERINE TEL CO 310738 MI 7,398 $383 $136 $237 $247 $375 $383
WOOD COUNTY TEL CO 330974 WI 17,391 $571 $255 $255 $316 $343 $571
WOODHULL TEL CO 341091 IL 577 $681 $296 $693 $384 $1,179 $681
WOODSTOCK TEL CO 361510 MN 1,152 $1,555 $657 $1,204 $898 $1,208 $1,555
WYANDOTTE TEL CO 432034 OK 625 $712 $355 $403 $358 $1,475 $712
XIT RURAL TEL CO-OP 442170 TX 1,280 $2,355 $1,450 $1,450 $905 $1,753 $2,355
YELCOT TEL CO INC 401733 AR 2,698 $904 $402 $587 $502 $882 $904
YUKON TEL CO INC 613025 AK 481 $648 $120 $399 $528 $1,655 $648
ZENDA TEL COMPANY 411852 KS 162 $1,383 $50 $682 $1,333 $2,473 $1,383
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APPENDIX C
Specification for Study Area Boundary Submission
I. General
Carriers may submit study area maps if they believe that the boundaries used by the FCC are not 
representative.  Maps must be submitted in ESRI compatible shapefile format such that each shapefile 
represents a single study area.  The shapefile must contain one data record for each exchange that 
constitutes the study area.  Each exchange should be represented as a closed, non-overlapping polygon 
with the associated data fields described below.  Submitted boundaries must be accompanied by metadata 
or a plain text “readme” file containing the information listed below. 
Since shapefiles typically consist of 3 to 9 individual files, the shapefile for the study area should be 
submitted as a single, zipped file containing all the component files.  The shapefile and encapsulating zip 
file names must contain the company name and the 6-digit study area code.  Shapefile and readme file 
templates are available at http://www.fcc.gov/encyclopedia/rate-return-resources.  
Materials must be sent by hand or messenger delivery.  All filings must be addressed to the Commission’s 
Secretary, Office of the Secretary, Federal Communications Commission.  Attention:  Lorenzo Miller, 
202-418-0846 or John Emmett, 202-418-0386. 
Hand-delivered or messenger-delivered paper filings for the Commission’s Secretary must be delivered to 
FCC Headquarters at 445 12th St., SW, Room TW-A325, Washington, DC 20554.  The filing hours are 
8:00 a.m. to 7:00 p.m.   All hand deliveries must be held together with rubber bands or fasteners.  Any 
envelopes and boxes must be disposed of before entering the building.
Note that submitted boundaries are public data and may be used in published FCC documents and 
webpages.
II. Shapefile 
A shapefile template is available at http://www.fcc.gov/encyclopedia/rate-return-resources.  Submitted 
shapefiles must:
A. contain one closed, non-overlapping polygon for each exchange in the study area
B. have associated with each exchange polygon the following identifying data fields:
1. OCN – NECA-assigned operating company number as in the LERG
2. Company Name
3. Exchange Name
4. CLLI Code
5. Study Area Code
6. FRN (please use the FRN used for the 477 filing in the state)
C. have an assigned projection w/accompanying .prj file
D. use unprojected (geographic) WGS84 geographic coordinate system
E. have a minimum horizontal accuracy of +/- 40 feet or less, conforming to 1:24K national 
mapping standards
F. be submitted as a WinZip archive with a name containing the company name and study area code 
(e.g., CompanyName_123456.zip).
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III. Readme File
A readme file template is available at http://www.fcc.gov/encyclopedia/rate-return-resources.  The 
readme file accompanying submitted boundaries must be submitted as a plain text file with a name 
containing the relevant study area code (e.g., ReadMe_123456.txt).  The readme file must contain the 
following information:
A. Contact person name
B. Contact person address
C. Contact person phone number
D. Contact person email address
E. Date created/revised
F. Methodology – process steps to create the data
G. Certification statement including the name and contact information for the certifying company 
officer.