Municipal broadband

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Municipal broadband is broadband Internet access offered by public entities. Services are often provided either fully or partially by local governments to residents within certain areas or jurisdictions. [1] Common connection technologies include unlicensed wireless (Wi-Fi, wireless mesh networks), licensed wireless (such as WiMAX), and fiber-optic cable. Many cities that previously deployed Wi-Fi based solutions, like Comcast and Charter Spectrum, are switching to municipal broadband. [2] [ citation needed ] Municipal fiber-to-the-home networks are becoming more prominent because of increased demand for modern audio and video applications, which are increasing bandwidth requirements by 40% per year. [3] The purpose of municipal broadband is to provide internet access to those who cannot afford internet from internet service providers and local governments are increasingly investing in said services for their communities.

Contents

Wireless public networks

Wireless public municipal broadband networks avoid unreliable hub and spoke distribution models and use mesh networking instead. [4] This method involves relaying radio signals throughout the whole city via a series of access points or radio transmitters, each of which is connected to at least two other transmitters. Mesh networks provide reliable user connections and are also faster to build and less expensive to run than the hub and spoke configurations. Internet connections can also be secured through the addition of a wireless router to an existing wired connection – a convenient method for Internet access provision in small centralized areas. Although wireless routers are generally reliable, their occasional failure means no Internet availability in that centralized area. This is why companies now use mesh networking in preference to hub and spoke configurations.

Municipalities deploy networks in several ways. The five primary municipal broadband design approaches include: [5]

Three basic models for the operation and funding of Wi-Fi networks have emerged:

Backhaul and wired infrastructure

In Stockholm, the city-owned Stokab provides network infrastructure through dark fiber to several hundred service providers who provide various alternative services to end users. [11] Reggefiber in the Netherlands performs a similar role. The Utah Telecommunication Open Infrastructure Agency provides service at one network layer higher through a fiber network. This system's capacity is wholesaled to fifteen service providers who in turn provide retail services to the market. A final model is a provision of all layers of service, such as in Chaska, Minnesota, where the city has built and operated a Wi-Fi Internet network that provides email and web hosting applications. These different models involve different public-private partnership arrangements, and varying levels of opportunity for private sector competition.

Some municipalities face the struggle of acting as host sites for broadband infrastructure, but not having access themselves to the services it provides. For example, Mendocino County, California, has acted as a cable landing site that connects the United States to Japan ever since the Cold War period, when the site was moved to the remote area from San Francisco for security purposes. Since ISPs do not prioritize areas like Mendocino Country which are not highly profitable for them, the area's proximity to necessary cable infrastructure has historically had little to no impact on the quality and availability of service in the area, which is still largely underserved to this day. [12]

Advantages and disadvantages

Supporters and opponents often assess municipal networks based on the supposed impact that the network will have on the local economy. Because of significant financial interests on either side of the issue, there is a variety of academic literature that supports and rejects the feasibility of a municipal network from an economic perspective.

Because municipal networks are publicly managed, they often lack the same profit incentive that private providers do. Proponents use this fact to argue that municipal broadband offers better prices, more equitable service, and increased competition in the broadband marketplace, in part because it is treated like a utility. Opponents argue that municipally run networks violate free speech rights outlined in the United States Bill of Rights.

Price

Proponents of municipal broadband describe how such networks can provide high-speed internet at lower rates than incumbent private internet service providers, with some municipalities even offering service for free at the point of connection. Opponents argue however that such networks are not actually cheaper to consumers when costs like the higher costs of construction, higher cost of maintenance, and tax subsidization that occurs with publicly managed utilities are factored in.

Competition

Proponents of municipal broadband also argue that the entrance of a public provider into a local market increases the competition which reduces prices and improves the quality of service. [13] Opponents argue that the publicly funded networks have an unfair financial advantage that actually crowds out private investment [14] and leads to long-term reduction in competition and problems associated with monopolization.

Equitable Service

Because of the different incentives and financing mechanisms that public providers have, municipal broadband has been marketed as a way of closing the digital divide by building more internet infrastructure in rural and low-income areas that private providers have historically avoided. [15] Opponents argue that there is no evidence that municipal broadband increases adoption of the Internet. [16] They also argue that the funding spent on operating a public provider results in serious levels of waste that would have been better otherwise spent on subsidizing experienced private providers to offer service in rural and low-income areas.

Support

In a 2004 White House report, President George W. Bush called for "universal, affordable access for broadband technology by the year 2007" and "plenty of technology choices when it comes to purchasing broadband". [17]

In 2000, the Federal Communications Commission endorsed municipal broadband as a "best practice" for bringing broadband to underserved communities. [18]

In 2021, President Joe Biden attempted to include direct provisions for municipal broadband in his $1 trillion infrastructure bill. [19]

The city of Philadelphia had the nonprofit Wireless Philadelphia accept bid from Earthlink to set up a network in 2004. [20] "Philadelphia’s expectations were high; the city was eager, optimistic and, by the end of the decade, altogether too quick to chalk Wireless Philadelphia up as a failure. Still, the project was critical in laying the groundwork for future endeavors. Some of the hardware is still in use for an emergency communications network." [20]

The Free Press, the Media Access Project, and the ACLU have all come out in favor of municipal broadband.[ citation needed ]

Opposition

The increasing prominence of municipal broadband has led to opposition. Critics argue that the construction and implementation of broadband service is an inappropriate use of public funds that can be invested elsewhere, and that on some occasions (such as EPB and iProvo), the high cost of maintaining the network is passed onto residents via either taxes or exorbitant rates, for services that may not necessarily meet the quality or reliability of a commercial ISP. [21] [22] [23] In an op-ed, Larry Irving stated that "private sector ownership generally is more effective and efficient, promotes innovation, and helps assure freedom of speech and open networks". [24] Trump administration FCC commissioner Michael O'Rielly argued that governments were infringing on their residents' First Amendment rights via prohibitions on "hateful" or "threatening" speech in the acceptable usage policies for their broadband networks—even though these restrictions are general, boilerplate terms also used by commercial ISPs. [25]

Lobbying efforts are often conducted by existing commercial ISPs, [26] [27] which promote state-level legislation—often based on a model act drafted by the industry and distributed by the conservative lobbying group American Legislative Exchange Council (ALEC) [28] [26] —that seek to frustrate the deployment or expansion of municipal broadband networks. [26] [29] [30] [31] [32] These can include requiring that cities hold a referendum to seek approval, [33] instituting regulatory burdens on the approval process or their operations (including requiring competing bids from private entities), restricting municipal broadband providers from expanding outside of their jurisdiction, restricting them to only being a wholesale provider for private entrants, prohibiting municipal broadband in cities above a certain population, and restricting access to utility poles (thus requiring underground digging, which can be costlier), among others. [32] [34] This pattern of state resistance to municipal broadband networks is supported by the 2016 Circuit Court precedent Tennessee v. FCC. [35]

The successful campaign to hold a referendum on municipal broadband in Fort Collins, Colorado was opposed by the Colorado Cable Telecommunications Association (which included incumbent Comcast), who spent nearly $1 million on lobbying efforts, and the Colorado Chamber of Commerce, which was backed by CenturyLink and Comcast. [27] [33] Groups backed by the Koch brothers, including the Internet Freedom Coalition, [36] and the Taxpayers Protection Alliance, have also been involved in lobbying efforts against municipal broadband projects. [37] [38]

As of 2023, 16 states currently have laws that restrict or frustrate the establishment of municipal broadband networks. [39] [40] In May 2023, Colorado passed a bill to lift a law requiring referendums for municipal broadband networks; the bill received bipartisan support. [33]

Finance

In support of U.S. government agencies attempting to deploy broadband services more widely, the Bill and Melinda Gates Foundation detailed the cost estimates of providing "fiber optic connectivity to anchor institutions" in the United States in 2009.[ citation needed ] The institutions considered in the 2009 report were public schools, public libraries, hospitals and community colleges, with an estimated total cost of US$5–10 billion. [41]

On February 17, 2009, the American Recovery and Reinvestment Act was passed in an effort to build the economy, assist in job creation and retention, and improve U.S. infrastructure. The Act allocated $4.7 billion to establish a Broadband Technology Opportunities Program as part of the National Telecommunications and Information Agency State Broadband Data and Development Grant Program. A portion of funding awards were allocated to extending and developing broadband services to reach rural and "underserved areas," as well as improving broadband access for public safety agencies. [42] [43]

In July 2010. the District of Columbia was awarded $17.4 million in federal funds for its DC-Community Access Network. [44]

In 2010, the NTIA awarded a $126.3 million grant to West Virginia in order to improve the state's broadband infrastructure. The grant was particularly intended for public facilities such as hospitals, libraries, and schools. However, a report from West Virginia's legislative auditor suggested that the state had misused the stimulus money, and wasted an estimated $7.9–15 million on purchasing high-capacity Cisco routers that were often installed in smaller facilities which did not require such extensive network capacity. Governor Earl Ray Tomblin established a task force to investigate the overspending. In January 2014, the NTIA rejected a proposal by the State to use the remaining $2.5 million (plus other funding, including credits from Cisco for returning the oversized routers) to fund a middle mile network, for not reaching "programmatic requirements" and missing a deadline for its use. [45] [46] [47]

United States policy

The Federal Communications Commission (FCC) has addressed the question of whether a municipality was an "entity" under the Telecommunications Act which mandates that "No State or local statute or regulation, or other State or local legal requirement, may prohibit or have the effect of prohibiting the ability of any entity to provide any interstate or intrastate telecommunications service." 47 USC 253(a). The legal question revolved around whether a state could prevent a municipality, as its subordinate government body, from entering the telecommunication market. In the case of Nixon v. Missouri Municipal League (2004), the U.S. Supreme Court concluded that a municipality was not an entity under the Telecommunications Act of 1996 and that a state could determine what authority its own subordinate jurisdictions had. [48]

The 2014 case Verizon Communications Inc. v. FCC contained a ruling that the FCC had the jurisdiction to preempt state laws that restrict municipal broadband providers from extending their service beyond their current boundaries. [49] In February 2015, the FCC voted to assert this jurisdiction to challenge municipal broadband laws in North Carolina and Tennessee, citing authority under Section 706 of the Telecommunications Act of 1996 to encourage the expansion of broadband by using "measures that promote competition in the local telecommunications market, or other regulating methods that remove barriers to infrastructure investment." [50] The FCC declined to appeal. [51]

Examples from outside the United States

The Dutch capital, Amsterdam has its own municipal broadband project called: “Citynet Amsterdam.” This project is a partnership between the city and private investors that provides fiber cables to 40,000 buildings in the city. [52]

The European Commission has made broadband internet access a priority as part of its "Europe 2020 Strategy." Other objectives include 30 Mbit/s of Next Generation Networks coverage or more for all citizens and 100 Mbit/s or more for 50% of households by 2020. By 2025, the European Commission has goals to provide access to 1 Gbit/s for all schools, transport hubs, and main providers of public service, accessed to upgraded download speeds of 1 Gbit/s for all European households, and uninterrupted 5G wireless broadband coverage for all urban areas and major roads and railways. [53]

Different system models are more popular than others depending on the needs of the region. One example is "publicly run municipal network model" [54] In this system, the local government installs and runs the broadband system. These systems are particularly common in Nordic countries. [54]

See also

Related Research Articles

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References

  1. Crawford, Susan (28 April 2014). "The Wire Next Time". New York Times . Retrieved 28 April 2014.
  2. "Municipal Broadband Providers in the US 2023".
  3. "The Bandwidth Demand Surge: Drivers & Solutions for Network Operatorspublisher=XO Communications" (PDF). XO Communications . February 2007. Archived from the original on 2007-12-12. Retrieved 8 May 2011.{{cite web}}: CS1 maint: unfit URL (link)
  4. Wilson, Tracy (2006-04-17). "How Municipal WiFi Works". HowStuffWorks . Retrieved 2023-06-20.
  5. Anderson, Wade (July 3, 2019). "What are the primary approaches to deploying municipal fiber networks?". OSP Insight. Retrieved 13 August 2021.
  6. Marvin, Rob (May 4, 2018). "Gig City: How Chattanooga Became a Tech Hub". PCMag . Retrieved 13 August 2021.
  7. "Utopia Fiber". Utah Telecommunication Open Infrastructure Agency . Retrieved 13 August 2021.
  8. "Open Access". Community Networks. Retrieved 13 August 2021.
  9. Gonzalez, Lisa (5 March 2014). "Santa Monica City Net: An Incremental Approach to Building a Fiber Optic Network". Institute for Local Self-Reliance . Retrieved 13 August 2021.
  10. "Light speed fiber internet in Westminster". Ting . Retrieved 13 August 2021.
  11. "Stokab" (PDF). Stockholm Municipal Government. Retrieved 8 May 2011.
  12. Burrell, Jenna (2018-06-01). "Thinking relationally about digital inequality in rural regions of the U.S." First Monday . doi: 10.5210/fm.v23i6.8376 . ISSN   1396-0466. S2CID   49640135.
  13. Sophia, Weng (11 August 2022). "Could Investments in Community Broadband Bridge the Digital Divide?". The Urban Institute.
  14. Zuo, Tianjiu (2022). "Impact of Municipal and Cooperative Internet Provision on Broadband Entry and Competition". Social Science Research Network. Duke University. doi:10.2139/ssrn.4178663. S2CID   252725771. SSRN   4178663.
  15. Colby, Rachfal. "Expanding Broadband: Potential Role of Municipal Networks to Address the Digital Divide". Congressional Research Service.
  16. Oh Lam, Sarah (2019). "What Are the Economic Effects of Municipal Broadband?". The Research Conference on Communication, Information and Internet Policy. doi:10.2139/ssrn.3426247. S2CID   204498837. SSRN   3426247 . Retrieved 20 June 2023.{{cite journal}}: Cite journal requires |journal= (help)
  17. "Archived copy" (PDF). Archived from the original (PDF) on 2011-09-28. Retrieved 2011-01-26.{{cite web}}: CS1 maint: archived copy as title (link)
  18. "Deployment of Advanced Telecommunications Capability: Second Report" (PDF). Federal Communications Commission. August 2000. Retrieved 27 March 2010.
  19. Arbel, Tali. "How will the $65 billion broadband service plan impact you?". USA Today . Retrieved 2021-11-14.
  20. 1 2 Abraham, Tony (4 March 2015). "What other cities should learn from Philly's failed municipal broadband effort". Technical.ly . Retrieved 19 September 2019.
  21. Marchand, Ross (17 April 2018). "Stay away from municipal broadband boondoggles". Washington Examiner . Retrieved 24 April 2019.
  22. McAuliffe, Katie (23 June 2017). "The false promise of 'municipal broadband' networks". The Hill . Archived from the original on 24 April 2019. Retrieved 24 April 2019.
  23. Johnson, Drew (7 February 2017). "The private model must prevail when it comes to broadband". The Hill . Retrieved 24 April 2019.
  24. Irving, Larry (2014-04-09). "Government-owned broadband networks aren't the answer". The Hill . Archived from the original on 2016-09-22. Retrieved 2016-02-29.
  25. Brodkin, Jon (30 October 2018). "FCC Republican claims municipal broadband is threat to First Amendment". Ars Technica . Retrieved 24 April 2019.
  26. 1 2 3 Farivar, Cyrus (29 June 2012). "South Carolina passes bill against municipal broadband". Ars Technica . Retrieved 24 April 2019.
  27. 1 2 Brodkin, Jon (3 January 2018). "After beating cable lobby, Colorado city moves ahead with muni broadband". Ars Technica . Retrieved 24 April 2019.
  28. "Principles on Municipal/Government Owned Networks - American Legislative Exchange Council". www.alec.org. Retrieved 2021-04-24.
  29. Eggerton, John (February 1, 2016). "NTIA's Strickling Touts Success of BTOP". Broadcasting & Cable . Retrieved 24 April 2019.
  30. Duggan, Kevin (November 1, 2017). "Fact check: Truth-testing Fort Collins broadband ads". Fort Collins Coloradoan . Retrieved 24 April 2019.
  31. Zelski, Andrew (June 26, 2014). "Is municipal broadband more important than net neutrality?". Fortune . Retrieved 24 April 2019.
  32. 1 2 Bode, Karl; Maiberg, Emanuel (18 April 2019). "Report: 26 States Now Ban or Restrict Community Broadband". Motherboard . Retrieved 24 April 2019.
  33. 1 2 3 Brodkin, Jon (2023-05-02). "Colorado kills law that made it harder for cities to offer Internet service". Ars Technica . Retrieved 2023-05-05.
  34. Cooper, Tyler (17 April 2019). "Municipal Broadband Is Roadblocked Or Outlawed In 26 States". Broadband Now. Retrieved 24 April 2019.
  35. Werner, Paul A.; George, J. Aaron; Thomas, Dave (11 August 2016). "Sixth Circuit Rejects FCC's Effort To Preempt State Regulation Of Municipal Broadband Providers". The National Law Review.
  36. Leathley, Emma (13 December 2017). "Koch nonprofit president's anti-net neutrality campaign". OpenSecrets .
  37. Bailey, Philip (June 8, 2017). "Koch brothers group leading campaign against Louisville's $5.4M ultra-fast internet expansion". The Courier-Journal . Retrieved 24 April 2019.
  38. Crawford, Susan (16 December 2017). "Koch Brothers Are Cities' New Obstacle to Building Broadband". Wired . ISSN   1059-1028 . Retrieved 24 April 2019.
  39. Cooper, Tyler. "Municipal Broadband 2023: 16 States Still Restrict Community Broadband". BroadbandNow. Retrieved 2023-05-05.
  40. Hollister, Sean (2023-06-20). "The government is helping Big Telecom squeeze out city-run broadband". The Verge . Retrieved 2023-06-20.
  41. Preliminary Cost Estimates on Connecting Anchor Institutions to Fiber September 25, 2009[ permanent dead link ]
  42. Celentano, John (5 October 2010). "Broadband Stimulus Post-Game Recap". Connected Planet Online. Archived from the original on 12 July 2014.
  43. "American Recovery and Reinvestment Act of 2009". National Telecommunications and Information Administration . Archived from the original on 2011-11-02. Retrieved 19 September 2019.
  44. "Yes We Can - DC Community Access Network". DC.gov . August 8, 2010. Retrieved 2022-12-22.
  45. Buckley, Sean (24 January 2014). "West Va. forced to give $2.5M in leftover broadband stimulus funds to the NTIA". FierceTelecom . Retrieved 25 April 2019.
  46. "West Va. cancels broadband summit over $126.3 million stimulus funds investigation". FierceTelecom . 18 March 2013. Retrieved 25 April 2019.
  47. Eyre, Eric (2013-11-30). "W.Va. at risk of losing $4.4M for broadband expansion". Charleston Gazette-Mail . Retrieved 25 April 2019.
  48. "NIXON, ATTORNEY GENERAL OF MISSOURI v. MISSOURI MUNICIPAL LEAGUE et al". No. 02-1238. U.S. Supreme Court Decision. 12 January 2004. Retrieved 27 March 2010.
  49. Brodkin, Jon (2015-02-26). "FCC overturns state laws that protect ISPs from local competition". Ars Technica . Retrieved 2023-05-05.
  50. Brodkin, Jon (24 March 2015). "Tennessee fights for its right to squash municipal broadband expansion". Ars Technica . Condé Nast.
  51. Brodkin, John (2016-08-29). "FCC admits defeat in municipal broadband, won't appeal court loss". Ars Technica .
  52. Watger, Herman (19 March 2010). "How Amsterdam was wired for open access fiber". Ars Technica . Condé Nast.
  53. "Broadband Strategy and Policy". European Commission . Archived from the original on 2014-04-10. Retrieved 22 May 2015.{{cite web}}: CS1 maint: unfit URL (link)
  54. 1 2 "Investment models". European Commission . Archived from the original on 2015-10-18. Retrieved 22 May 2015.{{cite web}}: CS1 maint: unfit URL (link)

Further reading