Order Code IB10045
CRS Issue Brief for Congress
Received through the CRS Web
Broadband Internet Regulation and Access:
Background and Issues
Updated April 14, 2006
Angele A. Gilroy and Lennard G. Kruger
Resources, Science, and Industry Division
Congressional Research Service ˜ The Library of Congress

CONTENTS
SUMMARY
MOST RECENT DEVELOPMENTS
BACKGROUND AND ANALYSIS
What Is Broadband and Why Is It Important?
Broadband Technologies
Cable
Digital Subscriber Line (DSL)
Wireless
Fiber
Satellite
Status of Broadband Deployment
Access to Broadband and the “Digital Divide”
FCC Activities
Administration Activities
Enacted Legislation
Regulation and Broadband: Convergence and the Changing Marketplace
Activities in the 109th Congress
LEGISLATION


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Broadband Internet Regulation and Access: Background and Issues
SUMMARY
Broadband or high-speed Internet access
tors and geographical locations of American
is provided by a series of technologies that
society. The federal government — through
give users the ability to send and receive data
Congress and the Federal Communications
at volumes and speeds far greater than current
Commission (FCC) — is seeking to ensure
Internet access over traditional telephone
fair competition among the players so that
lines. In addition to offering speed, broadband
broadband will be available and affordable in
access provides a continuous, “always on”
a timely manner to all Americans who want it.
connection (no need to dial-up) and a “two-

way” capability, that is, the ability to both
While President Bush has set a goal of
receive (download) and transmit (upload) data
universal broadband availability by 2007,
at high speeds. Broadband access, along with
some areas of the nation — particularly rural
the content and services it might enable, has
and low-income communities — continue to
the potential to transform the Internet: both
lack full access to high-speed broadband
what it offers and how it is used. It is likely
Internet service. In order to address this
that many of the future applications that will
problem, the 109th Congress is examining the
best exploit the technological capabilities of
scope and effect of federal broadband finan-
broadband have yet to be developed.
cial assistance programs (including universal
service), and the impact of telecommunica-
There are multiple transmission media or
tions regulation and new technologies on
technologies that can be used to provide
broadband deployment.
broadband access. These include cable, an
enhanced telephone service called digital
One facet of the debate over broadband
subscriber line (DSL), satellite, fixed wireless
services focuses on whether present laws and
(including “wi-fi” and “Wi-Max”), broadband
subsequent regulatory policies are needed to
over powerline (BPL), fiber-to-the-home
ensure the development of competition and its
(FTTH), and others. While many (though not
subsequent consumer benefits, or conversely,
all) offices and businesses now have Internet
whether such laws and regulations are overly
broadband access, a remaining challenge is
burdensome and discourage needed invest-
providing broadband over “the last mile” to
ment in and deployment of broadband ser-
consumers in their homes. Currently, a num-
vices. The regulatory debate focuses on a
ber of competing telecommunications compa-
number of issues, including the extent to
nies are developing, deploying, and marketing
which legacy regulations should be applied to
specific technologies and services that provide
traditional providers as they enter new mar-
residential broadband access.
kets, the extent to which legacy regulations
should be imposed on new entrants as they
From a public policy perspective, the
compete with traditional providers in their
goals are to ensure that broadband deployment
markets, the treatment of new and converging
is timely and contributes to the nation’s
technologies, and whether the emergence of
economic growth, that industry competes
municipal broadband networks constitute
fairly, and that service is provided to all sec-
unfair competition with the private sector.
Congressional Research Service ˜ The Library of Congress

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MOST RECENT DEVELOPMENTS
In the 109th Congress, legislation has been introduced to provide financial assistance to
encourage broadband deployment (H.R. 144, H.R. 146, H.R. 1479, H.R. 3517, H.R. 3958,
H.R. 4297, S. 14, S. 497, S. 502, S. 1147, S. 1583, S. 1765, S. 1766). Also, the impact of
existing laws and regulatory policies on broadband providers and ultimately broadband
deployment continues to be of congressional interest in the second session (H.R. 214, H.R.
2726, H.R. 3146, S. 1294, S. 1349, S. 1504, S. 1583, S. 2113, S. 2256, S. 2360). House
Commerce Committee Chairman Barton, on March 27, 2006, released a draft
telecommunications reform proposal which was the subject of a committee hearing on March
30, 2006. The yet to be introduced and numberless measure passed (27-4) the subcommittee
with amendment on April5, 2006 and now awaits full committee action. The Senate
Commerce Committee has held a series of hearings on a wide range of telecommunications
issues in preparation for developing comprehensive telecommunications legislation.
BACKGROUND AND ANALYSIS
Broadband or high-speed Internet access is provided by a series of technologies that
give users the ability to send and receive data at volumes and speeds far greater than current
Internet access over traditional telephone lines. Currently, a number of telecommunications
companies are developing, installing, and marketing specific technologies and services to
provide broadband access to the home. Meanwhile, the federal government — through
Congress and the Federal Communications Commission (FCC) — is seeking to ensure fair
competition among the players so that broadband will be available and affordable in a timely
manner to all Americans who want it.
What Is Broadband and Why Is It Important?
Traditionally, Internet users have accessed the Internet through the same telephone line
that can be used for traditional voice communication. A personal computer equipped with
a modem is used to hook into an Internet dial-up connection provided (for a fee) by an
Internet service provider (ISP) of choice. The modem converts analog signals (voice) into
digital signals that enable the transmission of “bits” of data.
The faster the data transmission rate, the faster one can download files or hop from Web
page to Web page. The highest speed modem used with a traditional telephone line, known
as a 56K modem, offers a maximum data transmission rate of about 45,000 bits per second
(bps). However, as the content on the World Wide Web becomes more sophisticated, the
limitations of relatively low data transmission rates (called “narrowband”) such as 56K
become apparent. For example, using a 56K modem connection to download a 10-minute
video or a large software file can be a lengthy and frustrating exercise. By using a broadband
high-speed Internet connection, with data transmission rates many times faster than a 56K
modem, users can view video, make telephone calls, or download software and other data-
rich files in a matter of seconds. In addition to offering speed, broadband access provides
a continuous “always on” connection (no need to “dial-up”) and a “two-way” capability —
that is, the ability to both receive (download) and transmit (upload) data at high speeds.
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Broadband access, along with the content and services it might enable, has the potential
to transform the Internet — both what it offers and how it is used. For example, a two-way
high speed connection could be used for interactive applications such as online classrooms,
showrooms, or health clinics, where teacher and student (or customer and salesperson, doctor
and patient) can see and hear each other through their computers. An “always on”
connection could be used to monitor home security, home automation, or even patient health
remotely through the Web. The high speed and high volume that broadband offers could also
be used for bundled service where, for example, cable television, video on demand, voice,
data, and other services are all offered over a single line. In truth, it is possible that many of
the applications that will best exploit the technological capabilities of broadband, while also
capturing the imagination of consumers, have yet to be developed.
Broadband Technologies
There are multiple transmission media or technologies that can be used to provide
broadband access. These include cable modem, an enhanced telephone service called digital
subscriber line (DSL), satellite technology, terrestrial (or fixed) wireless technologies, and
others. Cable and DSL are currently the most widely used technologies for providing
broadband access. Both require the modification of an existing physical infrastructure that
is already connected to the home (i.e., cable television and telephone lines). Each technology
has its respective advantages and disadvantages, and will likely compete with each other
based on performance, price, quality of service, geography, user friendliness, and other
factors. The following sections summarize cable, DSL, and other prospective broadband
technologies.
Cable. The same cable network that currently provides television service to consumers
is being modified to provide broadband access. Because cable networks are shared by users,
access speeds can decrease during peak usage hours, when bandwidth is being shared by
many customers at the same time. Network sharing has also led to security concerns and
fears that hackers might be able to eavesdrop on a neighbor’s Internet connection. The cable
industry is developing “next generation” technology which will significantly extend
downloading and uploading speeds.
Digital Subscriber Line (DSL). DSL is a modem technology that converts existing
copper telephone lines into two-way high speed data conduits. Speeds can depend on the
condition of the telephone wire and the distance between the home and the telephone
company’s central office (i.e., the building that houses telephone switching equipment).
Because ADSL uses frequencies much higher than those used for voice communication, both
voice and data can be sent over the same telephone line. Thus, customers can talk on their
telephone while they are online, and voice service will continue even if the ADSL service
goes down. Like cable broadband technology, an ADSL line is “always on” with no dial-up
required. Unlike cable, however, ADSL has the advantage of being unshared between the
customer and the central office. Thus, data transmission speeds will not necessarily decrease
during periods of heavy local Internet use. A disadvantage relative to cable is that ADSL
deployment is constrained by the distance between the subscriber and the central office.
ADSL technology over a copper wire only works within 18,000 feet (about three miles) of
a central office facility. However, DSL providers are deploying technology to further
increase deployment range. One option is to install “remote terminals” which can serve areas
farther than three miles from the central office.
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Wireless. Terrestrial or fixed wireless systems transmit data over the airwaves from
towers or antennas to a receiver. Mobile wireless broadband services (also referred to as
third generation or “3G”) allow consumers to get broadband access over cell phones, PDAs,
or wireless modem cards connected to a laptop.1 The FCC is planning to auction frequencies
currently occupied by broadcast channels 52-69. These and other frequencies in the 700
MHZ band are possible candidates for wireless broadband applications. A number of
wireless technologies, corresponding to different parts of the electromagnetic spectrum, also
have potential. These include the upperbands (above 24GHz), the lowerbands (multipoint
distribution service or MDS, below 3 GHz), broadband personal communications services
(PCS), wireless communications service (2.3 GHz), and unlicenced spectrum. Unlicensed
spectrum is being increasingly used to provide high-speed short-distance wireless access
(popularly called “wi-fi”) to local area networks, particularly in urban areas where wired
broadband connections already exist. A new and developing wireless broadband technology
(called “WiMax”) has the capability to transmit signals over much larger areas.
Fiber. Another broadband technology is optical fiber to the home (FTTH). Optical
fiber cable, already used by businesses as high speed links for long distance voice and data
traffic, has tremendous data capacity, with transmission speeds dramatically higher than what
is offered by cable modem or DSL broadband technology. While the high cost of installing
optical fiber in or near users’ homes has been a major barrier to the deployment of FTTH,
both Verizon and AT&T (formerly SBC) are rolling out fiber-based architectures that will
offer consumers voice, video, and high-speed data (sometimes referred to as a “triple play”).
Some public utilities are also exploring or beginning to offer broadband access via fiber
inside their existing conduits. Additionally, some companies are investigating the feasibility
of transmitting data over power lines, which are already ubiquitous in people’s homes.2

Satellite. Satellite broadband Internet service is currently being offered by two
providers: Hughes Network Systems (DirecWay) and Starband. Like cable, satellite is a
shared medium, meaning that privacy may be compromised and performance speeds may
vary depending upon the volume of simultaneous use. Another disadvantage of Internet -
over-satellite is its susceptibility to disruption in bad weather. On the other hand, the big
advantage of satellite is its universal availability. Whereas cable or DSL is not available to
some parts of the United States, satellite connections can be accessed by anyone with a
satellite dish facing the southern sky. This makes satellite Internet access a possible solution
for rural or remote areas not served by other technologies.
Status of Broadband Deployment
Broadband technologies are currently being deployed by the private sector throughout
the United States. According to the latest FCC data on the deployment of high-speed Internet
connections (released July 7, 2005), as of December 31, 2004, there were 37.9 million high
speed lines connecting homes and businesses to the Internet in the United States, a growth
rate of 17% during the second half of 2004. Of the 37.9 million high speed lines reported by
1 For further information, see CRS Report RS20993, Wireless Technology and Spectrum Demand:
Third Generation (3G) and Beyond,
by Linda K. Moore.
2 For further information, see CRS Report RL32421, Broadband Over Power Lines: Regulatory and
Policy Issues,
by Patricia Moloney Figliola.
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the FCC, 35.3 million serve homes and small businesses. The FCC found at least one high-
speed subscriber in 95% of all zip codes in the United States.3 While the broadband
adoption rate stands at approximately 35% of U.S. households, broadband availability is
much higher. The FCC estimates that roughly 20 percent of consumers with access to
advanced telecommunications capability actually subscribe. According to the FCC, possible
reasons for the gap between broadband availability and subscribership include the lack of
computers in some homes, price of broadband service, lack of content, and the availability
of broadband at work.4
According to the International Telecommunications Union, the U.S. ranks 16th
worldwide in broadband penetration (subscriptions per 100 inhabitants as of December
2004).5 Similarly, data from the Organization for Economic Cooperation and Development
(OECD) found the U.S. ranking 12th among OECD nations in broadband access per 100
inhabitants as of December 2004.6 By contrast, in 2001 an OECD study found the U.S.
ranking 4th in broadband subscribership per 100 inhabitants (after Korea, Sweden, and
Canada).7
Access to Broadband and the “Digital Divide”
While the number of new broadband subscribers continues to grow, the rate of
broadband deployment in urban and high income areas appears to be outpacing deployment
in rural and low-income areas. According to the latest FCC data on the deployment of high-
speed Internet connections (released July 7, 2005), high-speed subscribers were reported in
99% of the most densely populated zip codes, as opposed to 75% of zip codes with the
lowest population densities. Similarly, for zip codes ranked by median family income, high-
speed subscribers were reported present in 99% of the top one-tenth of zip codes, as
compared to 83% of the bottom one-tenth of zip codes.8
3 FCC, High-Speed Services for Internet Access: Status as of December 31, 2004, July 2005.
Available at
[http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-State_Link/IAD/hspd0705.pdf]
4 Federal Communications Commission, Fourth Report to Congress, “Availability of Advanced
Telecommunications Capability in the United States,” GN Docket No. 04-54, FCC 04-208,
September 9, 2004, p. 38. Available at
[http://hraunfoss.fcc.gov/edocs_public/attachmatch/FCC-04-208A1.pdf]
5 International Telecommunications Union, Economies by broadband penetration, 2004. Available
at [http://www.itu.int/ITU-D/ict/statistics/at_glance/top20_broad_2004.html]
6 OECD, Broadband Access in OECD Countries per 100 inhabitants, December 2004. Available
at [http://www.oecd.org/dataoecd/19/42/34082810.xls]
7 OECD, Directorate for Science, Technology and Industry, The Development of Broadband Access
in OECD Countries
, October 29, 2001, 63 pages. For a comparison of government broadband
policies, also see OECD, Directorate for Science, Technology and Industry, Broadband
Infrastructure Deployment: The Role of Government Assistance
, May 22, 2002, 42 pages.
8 FCC, High-Speed Services for Internet Access: Status as of December 31, 2004, July 2005, p. 5.
Available at
(continued...)
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Some policymakers assert that disparities in broadband access across American society
could have adverse consequences on those left behind. Many believe that advanced Internet
applications of the future — voice over the Internet protocol (VoIP) or high quality video,
for example — and the resulting ability for businesses and consumers to engage in e-
commerce, may increasingly depend on high speed broadband connections to the Internet.
Thus, some say, communities and individuals without access to broadband could be at risk
to the extent that e-commerce becomes a critical factor in determining future economic
development and prosperity.
FCC Activities.
The Telecommunications Act of 1996 (P.L. 104-104) addressed the
issue of whether the federal government should intervene to prevent a “digital divide” in
broadband access. Section 706 requires the FCC to determine whether “advanced
telecommunications capability [i.e., broadband or high-speed access] is being deployed to
all Americans in a reasonable and timely fashion.” If this is not the case, the act directs the
FCC to “take immediate action to accelerate deployment of such capability by removing
barriers to infrastructure investment and by promoting competition in the
telecommunications market.”

On September 9, 2004, the FCC adopted and released its Fourth Report pursuant to
Section 706. Like the previous three reports, the FCC concluded that “the overall goal of
section 706 is being met, and that advanced telecommunications capability is indeed being
deployed on a reasonable and timely basis to all Americans.”9 While the FCC is currently
implementing or actively considering some regulatory activities related to broadband,10 no
major regulatory intervention pursuant to Section 706 of the Telecommunications Act of
1996 has been deemed necessary by the FCC at this time.
The FCC noted the future promise of emerging multiple advanced broadband networks
which can complement one another:
For example, in urban and suburban areas, wireless broadband services may “fill in the
gaps” in wireline broadband coverage, while wireless and satellite services may bring
high-speed broadband to remote areas where wireline deployment may be costly. Having
multiple advanced networks will also promote competition in price, features, and quality-
of-service among broadband-access providers.11
Two FCC Commissioners (Michael Copps and Jonathan Adelstein) dissented from the
Fourth Report conclusion that broadband deployment is reasonable and timely. They argued
that the relatively poor world ranking of United States broadband penetration indicates that
deployment is insufficient, that the FCC’s continuing definition of broadband as 200 kilobits
per second is outdated and is not comparable to the much higher speeds available to
consumers in other countries, and that the use of zip code data (measuring the presence of
8 (...continued)
[http://www.fcc.gov/Bureaus/Common_Carrier/Reports/FCC-State_Link/IAD/hspd0705.pdf]
9 Fourth Report, p. 8.
10 See Appendix C of the Fourth Report, “List of Broadband-Related Proceedings at the
Commission,” pp. 54-56.
11 Ibid., p. 9.
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at least one broadband subscriber within a zip code area) does not sufficiently characterize
the availability of broadband across geographic areas.12
Administration Activities. The National Telecommunications and Information
Administration (NTIA) at the Department of Commerce (DOC) has been tasked with
developing the Bush Administration’s broadband policy.13 Statements from Administration
officials indicated that much of the policy would focus on removing regulatory roadblocks
to investment in broadband deployment.14 On June 13, 2002, in a speech at the 21st Century
High Tech Forum, President Bush declared that the nation must be aggressive about the
expansion of broadband, and cited ongoing activities at the FCC as important in eliminating
hurdles and barriers to get broadband implemented. President Bush made similar remarks
citing the economic importance of broadband deployment at the August 13, 2002 economic
forum in Waco, Texas. Subsequently, a more formal Administration broadband policy was
unveiled in March and April of 2004. On March 26, President Bush endorsed the goal of
universal broadband access by 2007.15 Then on April 26, 2004, President Bush announced
a broadband initiative which advocates permanently prohibiting all broadband taxes, making
spectrum available for wireless broadband, creating technical standards for broadband over
power lines, and simplifying rights-of-way processes on federal lands for broadband
providers.16
The Bush Administration has also emphasized the importance of encouraging demand
for broadband services. On September 23, 2002, the DOC’s Office of Technology Policy
released a report, Understanding Broadband Demand: A Review of Critical Issues,17 which
argues that national governments can accelerate broadband demand by taking a number of
steps, including protecting intellectual property, supporting business investment, developing
e-government applications, promoting efficient radio spectrum management, and others.
Similarly, the President’s Council of Advisers on Science & Technology (PCAST) was
tasked with studying “demand-side” broadband issues and suggesting policies to stimulate
broadband deployment and economic recovery. The PCAST report, Building Out
Broadband
, released in December 2002, concludes that while government should not
intervene in the telecommunications marketplace, it should apply existing policies and work
with the private sector to promote broadband applications and usage. Specific initiatives
include increasing e-government broadband applications (including homeland security);
12 Ibid., p. 5, 7.
13 See speech by Nancy Victory, Assistant Secretary for Communications and Information, before
t h e N a t i o n a l S u mmi t o n B r o a d b a n d D e p l o yme n t , O c t o b e r 2 5 , 2 0 0 1 ,
[http://www.ntia.doc.gov/ntiahome/speeches/2001/broadband_102501.htm].
14 Address by Nancy Victory, NTIA Administrator, before the Alliance for Public Technology
Broadband Symposium, February 8, 2002, [http://www.ntia.doc.gov/ntiahome/speeches
/2002/apt_020802.htm]
15 Allen, Mike, “Bush Sets Internet Access Goal,” Washington Post, March 27, 2004.
16 See White House, A New Generation of American Innovation, April 2004. Available at
[http://www.whitehouse.gov/infocus/technology/economic_policy200404/innovation.pdf]
17 Available at [http://www.technology.gov/reports/TechPolicy/Broadband_020921.pdf]
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promoting telework, distance learning, and telemedicine; pursuing broadband-friendly
spectrum policies, and ensuring access to public rights of way for broadband infrastructure.18
Enacted Legislation. Some policymakers in Congress have asserted that the federal
government should play a more active role to avoid a “digital divide” in broadband access,
and that legislation is necessary to ensure fair competition and timely broadband deployment.
The Farm Security and Rural Investment Act of 2002 — signed into law on May 13, 2002
as P.L. 107-171 — contains a provision (Section 6103) authorizing the Secretary of
Agriculture to make loans and loan guarantees to eligible entities for facilities and equipment
providing broadband service in rural communities. P.L. 107-171 authorized two programs
currently being administered by the Rural Utilities Service at the Department of Agriculture:
the Rural Broadband Access Loan and Loan Guarantee Program and Community Connect
Broadband Grants.19
Regulation and Broadband: Convergence and the Changing
Marketplace

Rapid technological advances and the resulting convergence of telecommunications
providers and markets has prompted the reexamination of the existing telecommunications
industry regulatory framework. The “Telecommunications Act of 1996,” (P.L.104-
104}redefined and recast the 1934 Communications Act to address the emergence of
competition in what were previously considered to be monopolistic markets. Despite its
relatively recent enactment, however, a consensus has been growing that the modifications
brought about by the implementation of the 1996 Act are not sufficient to address the
Nation’s changing telecommunications environment. Technological changes such as the
advancement of Internet technology to supply data, voice, and video as well as the growing
convergence in the telecommunications sector, have, according to many policymakers, made
it necessary to consider another “rewrite” or revision of the laws governing these markets.
The regulatory debate focuses on a number of issues including the extent to which
existing regulations should be applied to traditional providers as they enter new markets
where they do not hold market power, the extent to which existing regulations should be
imposed on new entrants as they compete with traditional providers in the same markets,
and the appropriate regulatory framework to be imposed on new and/or converging
technologies that are not easily classified under the present framework.
The regulatory treatment of broadband technologies continues to hold a major focus in
the policy debate. A major facet of the debate centers on whether present laws and
regulations are needed to ensure the development of competition and its subsequent
consumer benefits, or conversely, whether such laws and policies are overly burdensome and
discourage needed investment and deployment of such services. What if any role regulators
18 President’s Council of Advisors on Science and Technology, Office of Science and Technology
Policy, Building Out Broadband, December 2002, 14 p. Available at
[http://www.ostp.gov/PCAST/FINAL%20Broadband%20Report%20With%20Letters.pdf]
19 For a discussion on how the broadband provision of P.L. 107-171 has been funded in the 108th and
the 109th Congress, see CRS Report RL30719, Broadband Internet Access and the Digital Divide:
Federal Assistance Programs,
by Lennard G. Kruger.
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should play to ensure the Internet remains open to all, often referred to as “open access”
requirements or “net neutrality,” has also become part of the dialogue. In addition to the
debate over economic regulation, concern over how and to what extent “social regulations”
such as emergency 911 access, disability access, and law enforcement regulations, should be
applied to new and converging technologies continues to be debated. The continued growth
and expressed interest in municipal broadband networks has focused debate on what the
appropriate role of the government sector should be and whether it should be competing with
the private sector.
How traditional policy goals, such as the advancement of universal service mandates,
should be revised to accommodate the changing marketplace has also come under scrutiny.
For example, issues such as who should receive and who should contribute to universal
service funds and whether the definition of universal service objectives should be expanded
to include new technologies such as broadband continue to be debated.

Activities in the 109th Congress
In the 109th Congress, legislation has been introduced to provide financial assistance to
encourage broadband deployment (H.R. 144, H.R. 146, H.R. 1479, H.R. 3517, H.R. 3958,
H.R. 4297, S. 14, S. 497, S. 502, S. 1147, S. 1583, S. 1765, S. 1766, S. 2256). In particular,
the impact of existing laws and regulatory policies on broadband providers and ultimately
broadband deployment continues to be of Congressional interest in the Second Session (H.R.
214, H.R. 2726, H.R. 3146, S. 1294, S. 1349, S. 1504, S. 1583, S. 2113, S. 2256, S. 2360).
House Commerce Committee Chairman Barton, on March 27, 2006, released a draft
telecommunications reform proposal which was the subject of a committee hearing on March
30, 2006. The yet-to-be-introduced and unnumbered measure, passed (27-4) the
subcommittee, with amendment, on April 5, 2006. The measure, referred to as “The
Communications Opportunity, Promotion, and Efficiency Act of 2006” (COPE), now awaits
full committee consideration. The measure contains provisions that establish a national
process, through the FCC, for new entrants to offer pay TV services and opens it up to
incumbent cable providers once they face local competition (Local franchise fee, PEG
channel, and rights-of-way requirements would be preserved); assist small and rural carriers
in the provision of video service by allowing video operators to share a headend transmission
facility; clarify the FCC’s authority to enforce its August 2005 network neutrality principles
in complaint proceedings, but prohibits the FCC from engaging in related-rulemaking (A
managers amendment increased fines to $500,000 per violation and requires the FCC to
resolve complaints within 90 days); establish 911 and E-911 requirements for VOIP services
that connect to the public switched network and represent a replacement telephone service
but provide access to the Nation’s 911 infrastructure and require the FC to appoint a 911
number administrator; and bar states from prohibiting municipalities from providing their
own broadband networks.
The Senate Commerce Committee has held a series of hearings on a wide range of
telecommunications issues in preparation for developing comprehensive telecommunications
legislation. Both the Senate and House Judiciary Committees have also announced
intentions to examine issues related to telecommunications reform.
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LEGISLATION
H.R. 144 (McHugh)
Rural America Digital Accessibility Act. Provides for grants, loans, research, and tax
credits to promote broadband deployment in underserved rural areas. Introduced January 4,
2005; referred to Committee on Energy and Commerce and the Committee on Ways and
Means.
H.R. 146 (McHugh)
Establishes a grant program to support broadband-based economic development efforts.
Introduced January 4, 2005; referred to Committee on Transportation and Infrastructure and
to Committee on Financial Services.
H.R. 214 (Stearns)
Advanced Internet Communications Services Act of 2005. Seeks to promote
investment in and deployment of advanced Internet communications services by placing
limitations on FCC and state regulation of those services. Introduced January 14, 2005;
referred to Committee on Energy and Commerce.
H.R. 1479 (Udall)
Rural Access to Broadband Service Act. Establishes a Rural Broadband Office within
the Department of Commerce which would coordinate federal government resources with
respect to expansion of broadband services in rural areas. Directs the National Science
Foundation to conduct research in enhancing rural broadband. Expresses the Sense of
Congress that the broadband loan program in the Rural Utilities Service should be fully
funded. Provides for the expensing of broadband Internet access expenditures for rural
communities. Introduced April 5, 2005; referred to Committees on Science and on Energy
and Commerce.
H.R. 2418 (Gordon)
IP-Enabled Voice Communications and Public Safety Act of 2005. Encourages the
rapid deployment of Internet Protocol (IP) enabled voice services for emergency services
including 911 and E-911 calls. Introduced May 18, 2005; referred to Committee on Energy
and Commerce.
H.R. 2726 (Sessions)
Preserving Innovation in Telecom Act of 2005. Prohibits municipal governments from
offering telecommunications, information, or cable services except to remedy market failures
by private enterprises to provide such services. Introduced May 26, 2005; referred to
Committee on Energy and Commerce.
H.R. 3146 (Blackburn)
Video Choice Act of 2005. Seeks to promote deployment of competitive video services
and to eliminate redundant and unnecessary regulation. Introduced June 30, 2005; referred
to Committee on Energy and Commerce.
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H.R. 3517 (Andrews)
Greater Access to E-Governance Act (GATE Act). Establishes a grant program in the
Department of Commerce to provide funds to State and local governments to enable them
to deploy broadband computer networks for the conduct of electronic governance
transactions by citizens in local schools and libraries. Introduced July 28, 2005; referred to
Committee on Energy and Commerce.
H.R. 3958 (Melancon)
Louisiana Katrina Reconstruction Act. Provides grants for construction of broadband
infrastructure necessary for technology and economic development in areas affected by
Hurricane Katrina. Introduced September 29, 2005; referred to multiple committees.
H.R. 4297(Thomas)
Tax Relief Act of 2005. Provides a tax credit to holders of rural renaissance bonds
funding qualified projects including expanding broadband technology in rural areas. Passed
by House December 8, 2005; passed by Senate February 2, 2006.
S. 14 (Stabenow)
Fair Wage, Competition, and Investment Act of 2005. Allows the expensing of
broadband Internet access expenditures. Introduced January 24, 2005; referred to Committee
on Finance.
S. 497 (Salazar)
Broadband Rural Revitalization Act of 2005. Establishes a Rural Broadband Office
within the Department of Commerce which would coordinate federal government resources
with respect to expansion of broadband services in rural areas. Expresses the Sense of
Congress that the broadband loan program in the Rural Utilities Service should be fully
funded. Provides for the expensing of broadband Internet access expenditures for rural
communities. Introduced March 2, 2005; referred to Committee on Finance.
S. 502 (Coleman)
Rural Renaissance Act. Creates a Rural Renaissance Corporation which would fund
qualified projects including projects to expand broadband technology in rural areas.
Introduced March 3, 2005; referred to Committee on Finance.
S. 1063 (Nelson)
IP-Enabled Voice Communications and Public Safety Act of 2005. Encourages the
rapid deployment of Internet Protocol (IP) enabled voice services for emergency services
including 911 and E-911 calls. Introduced May 18, 2005; referred to Committee on
Commerce, Science and Transportation.
S. 1147 (Rockefeller)
Amends the Internal Revenue Code of 1986 to provide for the expensing of broadband
Internet access expenditures. Introduced May 26, 2005; referred to Committee on Finance.
S. 1294 (Lautenberg)
Community Broadband Act of 2005. Amends the Telecommunications Act of 1996 to
preserve and protect the ability of local governments to provide broadband capability and
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services. Introduced June 23, 2005; referred to Committee on Commerce, Science and
Transportation.
S. 1349 (Smith)
Video Choice Act of 2005. Seeks to promote deployment of competitive video services,
eliminate redundant and unnecessary regulation, and further the development of next
generation broadband networks. Introduced June 30, 2005; referred to Committee on
Commerce, Science and Transportation.
S. 1504 (Ensign)
Broadband Investment and Consumer Choice Act. Seeks to establish a market drive
telecommunications marketplace, to eliminate government managed competition of existing
communication service, and to provide parity between functionally equivalent services.
Introduced July 27, 2005; referred to Committee on Commerce, Science and Transportation.
S. 1583 (Smith)
Universal Service for the 21st Century Act. Amends the Communications Act of 1934
to expand the contribution base for universal service and to establish a separate account
within the universal service fund to support the deployment of broadband service in unserved
areas of the United States. Introduced July 29, 2005; referred to Committee on Commerce,
Science and Transportation.
S. 1765 (Landrieu)
Louisiana Katrina Reconstruction Act. Provides grants for construction of broadband
infrastructure necessary for technology and economic development in areas affected by
Hurricane Katrina. Introduced September 22, 2005; referred to Committee on Finance.
S. 1766 (Vitter)
Louisiana Katrina Reconstruction Act. Provides grants for construction of broadband
infrastructure necessary for technology and economic development in areas affected by
Hurricane Katrina. Introduced September 22, 2005; referred to Committee on Finance.
S. 1932 (Gregg)
Deficit Reduction Act of 2005. Section 1401 cancels unobligated funds remaining as
of October 1, 2006 for the USDA Rural Utilities Service Rural Broadband Access Loan and
Loan Guarantee Program. Passed Senate, November 3, 2005. House agreed to conference
report (H.Rept. 109-362), December 19, 2005. Senate agreed to conference report with
amendments, December 21, 2005. House agreed to amended conference report, February
1, 2006. P.L. 109-171 signed by President, February 8, 2006.
S. 2113 (De Mint)
Digital Age Communications Act of 2005. Promotes the widespread availability of
communications services and the integrity of communications facilities, and to encourage
investment in communications networks. Introduced December 15, 2005; referred to
Committee on Commerce, Science, and Transportation.
S. 2256 (Burns)
Internet and Universal Service Act of 2006. Amends the Communications Act of 1934
to ensure the availability to all Americans of high-quality, advanced telecommunications and
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broadband services, technologies, and networks at just, reasonable, and affordable rates, and
to establish a permanent mechanism to guarantee specific, sufficient, and predictable support
for the preservation and advancement of universal service. Introduced February 8, 2006;
referred to Committee on Commerce, Science, and Transportation.
S. 2327 (Allen)
Wireless Innovation Act of 2006. Directs the FCC to complete its proceeding on
unused broadcast television spectrum (“white space”). Introduced February 17, 2006;
referred to Committee on Commerce, Science, and Transportation.
S. 2332 (Stevens)
American Broadband for Communities Act. Makes unused broadcast television
spectrum available for wireless broadband. Introduced February 17, 2006; referred to
Committee on Commerce, Science, and Transportation.
S. 2357 (Kennedy)
Right TRACK Act. Directs the President’s Council of Advisors on Science and
Technology to establish a national broadband policy for improving and expanding broadband
access in the United States by 2010. Introduced March 2, 2006; referred to Committee on
Finance.
S. 2360 (Wyden)
Internet Non-Discrimination Act of 2006. A bill to ensure and promote a free and open
Internet for all Americans. Introduced March 2, 2006; referred to Committee on Commerce,
Science, and Transportation.
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