|"" "Internet portal|
The Internet in the United States grew out of the "ARPANET, a network sponsored by the "Advanced Research Projects Agency of the "U.S. Department of Defense during the 1960s. The Internet in the United States in turn provided the foundation for the worldwide "Internet of today.
Internet access in the United States is largely provided by the private sector and is available in a variety of forms, using a variety of technologies, at a wide range of speeds and costs. In 2015, 74.5% of Americans were using the Internet, which ranks the U.S. 34th out of 211 countries in the world. A large number of people in the US have little or no choice at all on who provides their internet access. The country suffers from a severe lack of competition in the broadband business. Nearly one-third of households in the United States have either no choice for home broadband Internet service, or no options at all.
"Internet top-level domain names specific to the U.S. include ".us, ".edu, ".gov, ".mil, ".as (American Samoa), ".gu (Guam), ".mp (Northern Mariana Islands), ".pr (Puerto Rico), and ".vi (U.S. Virgin Islands). Many U.S.-based organizations and individuals also use "generic top-level domains (".com, ".net, ".org, ".name, ...).
Access to the Internet can be divided into dial-up and broadband access. Around the start of the 21st century, most residential access was by dial-up, while access from businesses was usually by higher speed connections. In subsequent years dial-up declined in favor of broadband access. Both types of access generally use a "modem, which converts "digital data to "analog for transmission over a particular analog network (ex. the "telephone or "cable networks).
"Dial-up access is a connection to the Internet through a phone line, creating a semi-permanent link to the Internet. Operating on a single channel, it monopolizes the phone line and is the slowest method of accessing the Internet. Dial-up is often the only form of Internet access available in rural areas because it requires no infrastructure other than the already existing telephone network. Dial-up connections typically do not exceed a speed of 56 "kbit/s, because they are primarily made via a "56k modem. Since the mid 2000s, this technology became obsolete in most developed countries.
Broadband access includes a wide range of speeds and technologies, all of which provide much faster access to the Internet than dial-up. The term ""broadband" once had a technical meaning, but today it is more often a marketing "buzzword that simply means "faster". Broadband connections are continuous or "always on" connections, without the need to dial and hangup, and do not monopolize phone lines. Common types of broadband access include "DSL (Digital Subscriber Lines), "Cable Internet access, "Satellite Internet access, "mobile broadband via cell phones and other mobile devices among many others. In 2015, the United States "Federal Communications Commission (FCC) defined broadband as any connection with a download speed of at least 25 Mbit/s and an upload speed of at least 3 Mbit/s, though the definition has used a slower speed in the past.
The percentage of the U.S. population using the Internet grew steadily through 2007, declined slightly in 2008 and 2009, growth resumed in 2010, and reached its highest level so far (81.0%) in 2012, the latest year for which data is available. 81.0% is slightly above the 2012 figure of 73% for all developed countries. Based on these figures the U.S. ranked 12th out of 206 countries in 2000, fell to 31st out of 209 by 2010, and was back up slightly to 28th out of 211 in 2012. In 2012 the U.S. figure of 81.0% was similar to those of France (83.0%), Belgium (82.0%), Australia (82.3%), Austria (81.0%), Slovakia (80%), Kuwait (79.2%), and Japan (79.1%). The figures for the top ten countries in 2012 ranged from 91.0% for Finland to 96.9% for the Falkland Islands.
Internet usage in the United States varies widely from state to state. For example, in the U.S. overall in 2011, 77.9% of the population used the Internet. But in that same year (2011), there was a large gap in usage between the top three states - "Washington (80.0%), "New Hampshire (79.8%) and "Minnesota (79.0%) - and the bottom three states - "Mississippi (59.0%), "New Mexico (60.4%) and "Arkansas (61.4%).
|Internet users||Fixed broadband
|Year|| % of
| % of
| % of
|2012||75%||28.0%||24 of 193||89.8%||6 of 34|
|2011||70%||27.4%||25 of 194||77.1%||7 of 34|
|2010||72%||26.7%||27 of 205||61.1%||8 of 34|
|2009||71%||25.5%||26 of 201||46.9%||7 of 30|
|2008||74%||24.8%||23 of 197|
|2007||75%||23.2%||20 of 190|
|2006||69%||17 of 206||20.1%||22 of 174|
|2005||68%||15 of 206||17.2%||18 of 174|
|2004||65%||14 of 204||12.7%||18 of 151|
|2003||62%||12 of 202||9.5%||17 of 131|
|2002||59%||13 of 207||6.9%||13 of 109|
|2001||49%||12 of 207||4.5%||9 of 81|
|2000||43%||12 of 206||2.5%||5 of 45|
Fixed (wired) and wireless broadband penetration have grown steadily, reaching peaks of 28.0% and 89.8% respectively in 2012. These rates place the U.S. above the world average of 25.9% for fixed broadband in developed countries and well above the average of 62.8% for wireless broadband in OECD countries. Wireless broadband subscriptions in the U.S. are primarily mobile-cellular broadband. Because a single Internet subscription may be shared by many people and a single person may have more than one subscription, the penetration rate will not reflect the actual level of access to broadband Internet of the population and penetration rates larger than 100% are possible.
A 2013 Pew study on home broadband adoption found that 70% of consumers have a high-speed broadband connection. About a third of consumers reported a "wireless" high-speed connection, but the report authors suspect that many of these consumers have mistakenly reported wireless connections to a wired DSL or cable connection. Another "Pew Research Center survey, results of which were published on February 27, 2014, revealed 68% of American adults connect to the Internet with mobile devices like smartphones or tablet computers. The report also put Internet usage by American adults as high as 87%, while young adults aged between 18 and 29 were at 97%.
The U.S. lost its global leadership in terms of domestically installed bandwidth in 2011, being replaced by China, which hosts more than twice as much national bandwidth potential in 2014 (China: 29% versus US: 13% of the global total) (see pie-chart Figure on the right).
In measurements made between April and June 2013 (Q2), the United States ranked 8th out of 55 countries with an average connection speed of 8.7 Mbit/s. This represents an increase from 14th out of 49 countries and 5.3 Mbit/s for January to March 2011 (Q1). The global average for Q2 2013 was 3.3 Mbit/s, up from 2.1 Mbit/s for Q1 2011. In Q2 2013 South Korea ranked first at 13.3 Mbit/s, followed by Japan at 12.0 Mbit/s, and Switzerland at 11.0 Mbit/s.["needs update]
The lack of competition and choice in some areas has led to debate as to the cause. Part of the problem may be due to the historical regulation of utilities such as phone lines as "natural monopoly. Local governments charge for rights-of-way to lay fiber.
In 1998 the federal "Internet Tax Freedom Act halted the expansion of direct taxation of the Internet that had begun in several states in the mid-1990s. The law, however, did not affect sales taxes applied to online purchases which continue to be taxed at varying rates depending on the jurisdiction, in the same way that phone and mail orders are taxed.
The absence of direct taxation of the Internet does not mean that all transactions taking place online are free of tax, or even that the Internet is free of all tax. In fact, nearly all online transactions are subject to one form of tax or another. The Internet Tax Freedom Act merely prevents states from imposing their sales tax, or any other kind of gross receipts tax, on certain online services. For example, a state may impose an income or franchise tax on the net income earned by the provider of online services, while the same state would be precluded from imposing its sales tax on the gross receipts of that provider.
As a practical matter, there is a degree of "net neutrality in the United States, in that telecommunications companies rarely offer different rates to broadband and dial-up Internet consumers based on content or service type. However, there are no clear legal restrictions against these practices. "Internet access is categorized under U.S. law as an information service, and not a telecommunications service, and thus has not been subject to "common carrier regulations.
Five failed attempts have been made to pass network neutrality bills in "Congress. Each of these bills sought to prohibit Internet service providers from using various "variable pricing models based upon the user's "Quality of Service level. Described as "tiered service in the industry and as "price discrimination by some economists, typical provisions in the bill state "[Broadband service providers may] only prioritize...based on the type of content, applications, or services and the level of service purchased by the user, without charge for such prioritization".
On August 5, 2005, the FCC reclassified some services as information services rather than telecommunications services, and replaced common carrier requirements on them with a set of four less-restrictive net neutrality principles. These principles, however, are not FCC rules, and therefore not enforceable requirements. Actually implementing the principles requires either official FCC rule-making or federal legislation.
On June 6, 2010, the United States Court of Appeal for the District of Columbia in "Comcast Corp. v. FCC ruled that the FCC lacks the authority as an information service, under the ancillary statutory authority of Title One of the "Communications Act of 1934, to force Internet service providers to keep their networks open, while employing reasonable network management practices, to all forms of legal content. On December 21, 2010, the FCC approved the "FCC Open Internet Order banning "cable television and "telephone service providers from preventing access to competitors or certain web sites such as "Netflix. The rules would not keep ISPs from charging more for faster access.
On February 26, 2015, the FCC's Open Internet rules went into effect when the FCC designated the Internet as a telecommunications tool and applied to it new "rules of the road".
"[Open Internet Rules are] designed to protect free expression and innovation on the Internet and promote investment in the nation's broadband networks. The Open Internet rules are grounded in the strongest possible legal foundation by relying on multiple sources of authority, including: Title II of the Communications Act and Section 706 of the Telecommunications Act of 1996. As part of this decision, the Commission also refrains (or "forbears") from enforcing provisions of Title II that are not relevant to modern broadband service. Together Title II and Section 706 support clear rules of the road, providing the certainty needed for innovators and investors, and the competitive choices and freedom demanded by consumers.
The new rules apply to both fixed and mobile broadband service. This approach recognizes advances in technology and the growing significance of mobile broadband Internet access in recent years. These rules will protect consumers no matter how they access the Internet, whether on a desktop computer or a mobile device."
In summary the new rules are as follows:
The strong protections for freedom of speech and expression against federal, state, and local government censorship are rooted in the "First Amendment to the United States Constitution. These protections extend to the Internet and as a result very little government mandated technical filtering occurs in the U.S. Nevertheless, the Internet in the United States is highly regulated, supported by a complex set of legally binding and privately mediated mechanisms.
After a decade and half of ongoing contentious debate over content regulation, the country is still very far from reaching political consensus on the acceptable limits of free speech and the best means of protecting minors and policing illegal activity on the Internet. Gambling, cyber security, and dangers to children who frequent social networking sites—real and perceived—are important ongoing debates. Significant public resistance to proposed content restriction policies have prevented the more extreme measures used in some other countries from taking hold in the U.S.
Public dialogue, legislative debate, and judicial review have produced filtering strategies in the United States that are different from those found in most of the rest of the world. Many government-mandated attempts to regulate content have been barred on First Amendment grounds, often after lengthy legal battles. However, the government has been able to exert pressure indirectly where it cannot directly censor. With the exception of child pornography, content restrictions tend to rely more on the removal of content than blocking; most often these controls rely upon the involvement of private parties, backed by state encouragement or the threat of legal action. In contrast to much of the rest of the world, where ISPs are subject to state mandates, most content regulation in the United States occurs at the private or voluntary level.
The broadband Internet access providers in the United States with more than one million subscribers at the end of Q3 2017 were:
|"Comcast||25,519,000||Cable Internet access at speeds up to 250 Mbit/s. But may maxed out with its maximum plan (Gigabit Pro 2GB, speeds at 2 Gbit/s).|
|"Charter||23,603,000||Cable Internet access at speeds up to 100 Mbit/s.|
|"AT&T||15,715,000||DSL access at speeds up to 18 Mbit/s, and FTTN VDSL2 access (AT&T Internet) at speeds up to 100 Mbit/s. Fiber access available at up to 1 Gbit/s|
|"Verizon||6,978,000||DSL access at speeds of 0.5 to 15 Mbit/s, and fiber access (FiOS) at speeds of 50 to 1 Gbit/s.|
|"CenturyLink||5,767,000||DSL access at speeds up to 40 Mbit/s. Fiber access available at up to 1 Gbit/s|
|"Cox||4,860,000||Cable Internet access at speeds of 5 to 300 Mbit/s. Also offers fiber access at speeds of 1 Gbit/s.|
|"Altice USA||4,020,900||Cable Internet access at speeds up to 101 Mbit/s.|
|"Frontier||4,000,000||DSL access at speeds from 6 to 12 Mbit/s. Fiber access with speeds up to 10 Gbit/s.|
|"Mediacom||1,194,000||Cable Internet access at speeds from 60 Mbit/s to 1 Gbit/s. |
|"Windstream||1,017,400||DSL access at speeds from 3 to 12 Mbit/s. Also offers fiber, Metro Ethernet & T1 speeds, up to 1 Gbit/s.|
In 2010 four of these companies ranked among the ten largest ISPs in the world in terms of subscribers: Comcast (4th), AT&T (5th), Time Warner (7th), and Verizon (8th).
"Google Fiber, offering 1 Gbit/s connection speeds, is available in the "Kansas City metropolitan area in both Missouri and Kansas, as well in "Austin, and "Provo, Utah, with further plans to expand in "Nashville, "Charlotte, "Raleigh, "Durham, "Atlanta, "Salt Lake City, and "Huntsville.
With the advent of the "World Wide Web, the commercialization of the Internet, and its spread beyond use within the government and the research and education communities in the 1990s, Internet access became an important public policy and political issue.
The High Performance Computing and Communication Act of 1991 (HPCA), Pub.L. 102–194, built on prior U.S. efforts toward developing a national networking infrastructure, starting with the "ARPANET in the 1960s and the funding of the "National Science Foundation Network (NSFnet) in the 1980s. It led to the development of the "National Information Infrastructure and included funding for a series of projects under the titles "National Research and Education Network (NREN) and High-Performance Computing and Communications Initiative which spurred many significant technological developments, such as the "Mosaic "web browser, and the creation of a "high-speed "fiber optic "computer network. The HPCA provided the framework for the transition of the Internet from a largely government sponsored network to the commercial Internet that followed.
Universal service is a program dating back to early in the 20th century with a goal to encourage/require the interconnection of telephone networks operated by different providers. Over time this grew into the more general goal of providing telephone service to everyone in the United States at a reasonable price. When Congress passed the "Telecommunications Act of 1996 it provided for the creation of a Universal Service Fund to help meet the challenges and opportunities of the digital information age. The Universal Service Fund (USF) was established in 1997 by the "Federal Communications Commission (FCC) to implement the goals of the Telecommunications Act.
The Telecommunications Act requires all telecommunications companies to make equitable and non-discriminatory contributions to the USF. Under the supervision of the FCC, the Universal Service Administrative Company (USAC), is responsible for allocating money from the central fund to four programs: High Cost, Low Income, Rural Health Care, and Schools and Libraries (E-rate). These programs are designed to:
Telecommunications companies may, but are not required to, charge their customers a fee to recover the costs of contributing to the Universal Service fund. Consumers may see this reflected in a line-item charge labeled “Universal Service" on telecommunications bills. The amount of this charge, if any, and the method used to collect the fee from consumers is determined by the companies and is not mandated by the FCC.
In October 2011 the FCC voted to phase out the USF's high-cost program that has been subsidizing voice telephone services in rural areas by shifting $4.5 billion a year in funding over several years to a new Connect America Fund focused on expanding broadband deployment.
More formally known as the Schools and Libraries Program, the E-Rate is funded from the Universal Service Fund. The E-Rate provides discounts to K-12 schools and libraries in the United States to reduce the cost of installing and maintaining telecommunications services, Internet access, and internal connections. The discounts available range from 20% to 90% depending on the poverty level and urban/rural status of the communities where the schools and libraries are located.
There has been a good deal of controversy surrounding the E-Rate, including legal challenges from states and telecommunications companies. The impact of the program is hard to measure, but at the beginning of 2005 over 100,000 schools had participated in the program. Annual requests for discounts are roughly three times the $2.25 billion that is available, so while all eligible schools and libraries receive some discounts, some do not receive all of the discounts to which they are entitled under the rules of the program.
Seventy-eight percent of rural community members have internet access. <http://www.pewinternet.org/2015/06/26/americans-internet-access-2000-2015/> Like the E-Rate, the Rural Health Care Program (RHC) is funded from the "Universal Service Fund. It provides funding to eligible health care providers for telecommunications services, including broadband Internet access, necessary for the provision of health care. The goal of the program is to improve the quality of health care available to patients in rural communities by ensuring that eligible health care providers have access to affordable telecommunications services, most often to implement “tele-health and tele-medicine” services, typically a combination of video-conferencing infrastructure and high speed Internet access, to enable doctors and patients in rural hospitals to access specialists in distant cities.
Over $417 million has been allocated for the construction of 62 statewide or regional broadband telehealth networks in 42 states and three U.S. territories under the Rural Health Care Pilot Program.
The Healthcare Connect Fund (HCF) is a new component of the Rural Health Care Program. The HCF will provide a 65 percent discount on eligible expenses related to broadband Internet connectivity to both individual rural health care providers (HCPs) and consortia, which can include non-rural HCPs (if the consortium has a majority of rural sites). Applications under the new program will be accepted starting in late summer 2013 witih funding beginning on January 1, 2014. Discounts for traditional telecommunications will continue to be available under the existing RHC Telecommunications Program.
The "Rural Utilities Service of the "U.S. Department of Agriculture oversees several programs designed to bring the benefits of broadband Internet access and advanced telecommunications services to under served areas in the U.S. and its territories:
The 2009 Stimulus Bill, as it is commonly termed, was enacted by the "111th United States Congress and signed into law by President "Barack Obama on February 17, 2009. The bill provides funding for broadband grant and loan programs:
"Internet access has become a vital tool in development and social progress since the start of the 21st century. As a result, Internet penetration and, more specifically, broadband Internet penetration rates are now treated as key "economic indicators. The United States is widely perceived as falling behind in both its rate of broadband Internet penetration and the speed of its broadband infrastructure.
For all of these reasons, there were calls for the U.S. to develop, adopt, fund, and implement a National Broadband Plan. The difficulty of successfully designating and distributing government funds in order to increase Internet access (particularly via broadband) are central limiting factors in the development of such a policy, but proponents believe that establishing a national plan is necessary for social and economic progress. Those demanding a national broadband policy argue that such a policy is the best method by which the United States could achieve “universal availability and adoption of truly high-speed access".
The "Federal Communications Commission (FCC) published a National Broadband Plan in March 2010, after first soliciting public comments from April 2009 through February 2010. The goals of the plan as described on "Broadband.gov are:
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