Internet in the United Kingdom
The United Kingdom has been involved with the Internet since it was created. The telecommunications infrastructure provides Internet access to businesses and home users in various forms, including cable, DSL, and wireless. The Internet country code top-level domain (ccTLD) for the United Kingdom is .uk and is sponsored by Nominet.
The share of households with internet access in the United Kingdom grew from 9 percent in 1998 to 90 percent in 2018. Online shoppers in the UK spend more per household than consumers in any other country. Internet bandwidth per Internet user was the 7th highest in the world in 2016.
- 1 History
- 2 Broadband
- 3 School children's access to the Internet
- 4 Children's Internet Access
- 5 See also
- 6 References
- 7 External links
The UK was involved in research and development of packet switching, wide area networks, and Internet protocols since their origins. The development of these technologies was international from the beginning, although much of the research and development that led to the Internet was driven and funded by the United States.
Early years of the Internet
Beginning in the mid-1960s, Donald Davies and his team at the National Physical Laboratory pioneered packet switching, now the dominant basis for data communications in computer networks worldwide. They developed and implemented the concept in a local area network, the NPL network, which operated from 1969 to 1986, and carried out work to analyse and simulate the performance of packet switching networks. Their research and practice was adopted by the ARPANET in the United States, the forerunner of the Internet, and influenced other researchers in the UK and Europe.
Peter T. Kirstein's research group at University College London was one of the first international connections on the ARPANET in 1973, alongside Norwegian Seismic Array (NORSAR) and Sweden's Tanum Earth Station. Kirstein co-authored (with Vint Cerf) one of the most significant early technical papers on the internetworking concept. His research group at UCL adopted TCP/IP in 1982, a year ahead of ARPANET, and played a significant role in the very earliest experimental Internet work. Kirstein's group included Sylvia Wilbur who programmed the computer used as the local node for the network.
Post Office Telecommunications developed the first public packet switching network EPSS in 1977 based on protocols defined by the UK academic community in 1975. It was replaced with the Packet Switch Stream in 1980. Four companies provided electronic mail services in Britain in 1985, enabling subscribers to send email over telephone connections or data networks such as Packet Switch Stream.
A number of local and research networks in the 1970s serving the Science and Engineering Research Council community became SRCnet, later called SERCnet. In the early 1980s a standardisation and interconnection effort started based on X.25 protocols. This became JANET in 1984, the UK's high-speed academic and research network that linked all universities, higher education establishments, and publicly funded research laboratories. The BBC established Internet access via Brunel University in 1989. In 1991, JANET adopted Internet Protocol on the existing network.
World Wide Web
In 1989, Tim Berners-Lee, working at CERN in Switzerland, wrote a proposal for "a large hypertext database with typed links". The following year, he specified HTML, the hypertext language, and HTTP, the protocol. These concepts became a world-wide information system known as the World Wide Web (WWW). Operating on the Internet, it allows documents to be created for reading or accessing services with connections to other documents or services, accessed by clicking on hypertext links, enabling the user to navigate from one document or service to another.
Virtual networking services between the UK and the US were being developed in late 1990.
BT (British Telecommunications plc) began using the WWW in 1991 during a collaborative project called the Oracle Alliance Program. It was founded in 1990 by Oracle Corporation, based in Redwood Shores, California, to provide information for its corporate partners and about those partners. BT became involved in May 1991. File sharing was required as part of the program and, initially, floppy disks were sent through the post. Then in July 1991 access to the Internet was implemented by BT network engineers using the BT packet switching network. A link was established from Ipswich to London for access to the Internet backbone. The first file transfers made via a NeXT-based WWW interface were completed in October 1991.
An early attempt to provide access to the Web on television was being developed in 1995.
Dial-up Internet access was first introduced in the UK by Pipex in March 1992, having been established during 1990 as the UK's first commercial Internet provider. By November 1993 Pipex provided Internet service to 150 customer sites. One of its first customers was Demon Internet which popularised dial up modem-based internet access in the UK. Other commercial Internet service providers, and web-hosting companies aimed at small businesses and individuals, developed in the 1990s. By May 1998 Demon Internet had 180,000 subscribers.
This narrowband service has been almost entirely replaced by the new broadband technologies, and is now generally only used as a backup. BT trailed its first ISBN 'broadband' connection in 1992. The first commercial service was available from Telewest in 2000.
Broadband allowed the signal in one line to be split between telephone and Internet data, meaning users could be online and make phone calls at the same time. It also enabled faster connections, making it easier to browse the Internet and download files. Broadband Internet access in the UK was, initially, provided by a number of regional cable television and telephone companies which gradually merged into larger groups. The development of digital subscriber line (DSL) technology has allowed broadband to be delivered via traditional copper telephone cables. Also, Wireless Broadband is now available in some areas. These three technologies (cable, DSL and wireless) now compete with each other.
More than half of UK homes had broadband in 2007, with an average connection speed of 4.6 Mbit/s. Bundled communications deals mixing broadband, digital TV, mobile phone and landline phone access were adopted by forty per cent of UK households in the same year, up by a third over the previous year. This high level of service is considered the main driver for the recent growth in online advertising and retail.
As of July 2011 BT's share had grown by six percent and the company became the broadband market leader.
The Ofcom Communications Market 2018 report provided updated UK broadband usage statistics. A standout statistic from the 2012 Ofcom report compared with the 2018 Ofcom report is that the 2012 report showed just 5% of adults had access and use of a Smart TV, this increased to 42% by 2018 exemplifying the extra bandwidth required by broadband providers on their networks.
Cable broadband uses coaxial cables or optical fibre cables. The main cable service provider in the UK is Virgin Media and the current maximum speed available to their customers is 500Mbit/s (subject to change).
Digital subscriber line (DSL)
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Asymmetric digital subscriber line (ADSL) was introduced to the UK in trial stages in 1998 and a commercial product was launched in 2000. In the United Kingdom, most exchanges, local loops and backhauls are owned and managed by BT Wholesale, who then wholesale connectivity via Internet service providers, who generally provide the connectivity to the Internet, support, billing and value added services (such as web hosting and email).
As of October 2012, BT operate 5630 exchanges across the UK with the vast majority being enabled for ADSL. Only a relative handful have not been upgraded to support ADSL products - in fact it is under 100 of the smallest and most rural exchanges. Some exchanges, numbering under 1000, have been upgraded to support SDSL products. However, these exchanges are often the larger exchanges based in major towns and cities so they still cover a large proportion of the population. SDSL products are aimed more at business customers and are priced higher than ADSL services.
Unbundled local loop
Many companies are now operating their own services using local loop unbundling. Initially Bulldog Communications in the London area and Easynet (through their sister consumer provider UK Online) enabled exchanges across the country from London to Central Scotland.
In November 2010, having purchased Easynet in the preceding months, Sky closed the business-centric UK Online with little more than a month's notice. Although Easynet continued to offer business-grade broadband connectivity products, UKO customers could not migrate to an equivalent Easynet service, only being offered either a MAC to migrate provider or the option of becoming a customer of the residential-only Sky Broadband ISP with an introductory discounted period. Also, some previously available service features like fastpath (useful for time-critical protocols like SIP) were not made available on Sky Broadband, leaving business users with a difficult choice particularly where UK Online were the only LLU provider. Since then, Sky Broadband has become a significant player in the quad play telecoms market, offering ADSL line rental and call packages to customers (who have to pay a supplement if they are not also Sky television subscribers).
Whilst Virgin Media is the nearest direct competitor, their quad play product is available to fewer homes given the fixed nature of their cable infrastructure. TalkTalk is the next DSL-based ISP with a mature quad play product portfolio (EE's being the merger of the Orange and T-Mobile service providers, and focusing their promotion on forthcoming fibre broadband and 4G LTE products).
Market consolidation and expansion has permitted service providers to offer faster and less expensives services with typical speeds of up to 24 Mbit/s downstream (subject to ISP and line length). They can offer products at sometimes considerably lower prices, due to not necessarily having to conform to the same regulatory requirements as BT Wholesale: for example, 8 unbundled LLU pairs can deliver 10 Mbit/s over 3775 m for half the price of a similar fibre connection.
In 2005, another company, Be, started offering speeds of up to 24 Mbit/s downstream and 2.5 Mbit/sec upstream using ADSL2+ with Annex M, eventually from over 1,250 UK exchanges. Be were taken over by O2's parent company Telefónica in 2007. On 1 March 2013 O2 Telefónica sold Be to Sky who have now migrated O2 and Be customers onto the somewhat slower Sky network.
Exchanges continue to be upgraded, subject to demand, across the country, although at a somewhat slower pace since BT's commencement of FTTC rollout plans and near-saturation in key geographical areas.
Up until the launch of "Max" services, the only ADSL packages available via BT Wholesale were known as IPStream Home 250, Home 500, Home 1000 and Home 2000 (contention ratio of 50:1); and Office 500, Office 1000, and Office 2000 (contention ratio of 20:1). The number in the product name indicates the downstream data rate in kilobits per second. The upstream data rate is up to 250 kbit/s for all products.
For BT Wholesale ADSL products, users initially had to live within 3.5 kilometres of the local telephone exchange to receive ADSL, but this limit was increased thanks to rate-adaptive digital subscriber line (RADSL), although users with RADSL possibly had a reduced upstream rate, depending on the quality of their line. There are still areas that cannot receive ADSL because of technical limitations, not least of which networks in housing areas built with aluminium cable rather than copper in the 1980s and 1990s, and areas served by optical fibre (TPON), though these are slowly being serviced with copper.
In September 2004, BT Wholesale removed the line-length/loss limits for 500 kbit/s ADSL, instead employing a tactic of "suck it and see" — enabling the line, then seeing if ADSL would work on it. This sometimes includes the installation of a filtered faceplate on the customer's master socket, so as to eliminate poor quality telephone extension cables inside the customer's premises which can be a source of high frequency noise.
In the past, the majority of home users used packages with 500 kbit/s (downstream) and 250 kbit/s (upstream) with a 50:1 contention ratio. However, BT Wholesale introduced the option of a new charging structure to ISPs which means that the wholesale service cost was the same regardless of the ADSL data rate, with charges instead being based on the amount of data transferred. Nowadays, most home users use a package whose data rate is only limited by the technical limitations of their telephone line. Initially this was 2 Mbit/s downstream. Until the advent of widespread FTTC, most home products were first ADSL Max-based (up to 7.15 Mbit/s), using ADSL G.992.1 and then later ADSL2+ (up to 21 Mbit/s).
Max and Max Premium
Following successful trials, BT announced the availability of higher speed services known as BT ADSL Max and BT ADSL Max Premium in March 2006. BT made the "Max" product available to more than 5300 exchanges, serving around 99% of UK households and businesses.
Both Max services offered downstream data rates of up to 7.15 Mbit/s. Upstream data rates were up to 400 kbit/s for the standard product and up to 750 kbit/s for the premium product. (Whilst the maximum downstream data rate for IPStream Max is often touted as 8 Mbit/s, this is in fact misleading because, in a departure from previous practice, it actually refers to the gross ATM data rate. The maximum data rate available at the IP level is 7.15 Mbit/s; the maximum TCP payload rate – the rate one would actually see for file transfer – would be about 7.0 Mbit/s.)
The actual downstream data rate achieved on any given Max line is subject to the capabilities of the line. Depending on the stable ADSL synchronisation rate negotiated, BT's ‘20CN’ system applied a fixed rate limit from one of the following data rates: 160 kbit/s, 250, 500, 750 kbit/s, 1.0 Mbit/s, 1.25, 1.5, 1.75, 2.0 Mbit/s, then in 500 kbit/s steps up to 7.0 Mbit/s, then a final maximum rate of 7.15 Mbit/s.
On 13 August 2004 the ISP Wanadoo (formerly Freeserve and now EE in the UK) was told by the Advertising Standards Authority to change the way that they advertised their 512 kbit/s broadband service in Britain, removing the words "full speed" which rival companies claimed was misleading people into thinking it was the fastest available service.
In a similar way, on 9 April 2003 the Advertising Standards Authority ruled against ISP NTL, saying that NTL's 128 kbit/s cable modem service must not be marketed as "broadband". Ofcom reported in June 2005 that there were more broadband than dial-up connections for the first time in history.
In the third quarter of 2005 with the merger of NTL and Telewest, a new alliance was formed to create the largest market share of broadband users. This alliance brought about huge increases in bandwidth allocations for cable customers (minimum speed increasing from the industry norm of 512 kbit/s to 2 Mbit/s home lines with both companies planning to have all domestic customers upgraded to at least 4 Mbit/s downstream and ranging up to 10 Mbit/s and beyond by mid-2006.) along with the supply of integrated services such as Digital TV and Phone packages.
March 2006 saw the nationwide launch of BT Wholesale's up to “8 Mbit/s” ADSL services, known as ADSL Max. “Max”-based packages are available to end users on any broadband-enabled BT exchange in the UK.
Since 2003, BT has been introducing SDSL to exchanges in many of the major cities. Services are currently offered at upload/download speeds of 256 kbit/s, 512 kbit/s, 1 Mbit/s or 2 Mbit/s. Unlike ADSL, which is typically 256 kbit/s upload, SDSL upload speeds are the same as the download speed. BT usually provide a new copper pair for SDSL installs, which can be used only for the SDSL connection. At a few hundred pounds a quarter, SDSL is significantly more expensive than ADSL, but is significantly cheaper than a leased line. SDSL is marketed to businesses and offers low contention ratios, and in some cases, a service level agreement. At present, the BT Wholesale SDSL enablement programme has stalled, most probably due to a lack of uptake.
Still in the year 2015 it was common in highly developed areas like the London Aldgate region for consumers to be limited to speeds of up to 8 Mbit/s for ADSL services. This had a major effect in the London rental market as limited broadband service can affect the readiness of prospective tenants to sign a rental lease.
Developments since 2006
Since 2006, the UK market has changed significantly; companies that previously provided telephone and television subscriptions also began to offer broadband.
TalkTalk offered customers ‘free’ broadband if they had a telephone package. Orange responded by offering ‘free’ broadband for some mobile customers. Many smaller ISPs now offer similar packages. O2 also entered the broadband market by taking over LLU provider Be, while Sky (BSkyB) had already taken over LLU broadband provider Easynet. In July 2006, Sky announced 2 Mbit/s broadband to be available free to Sky TV customers and a higher speed connection at a lower price than most rivals.
Virgin Media stated that 13 million UK homes are covered by their optical fibre broadband network, and that by the end of 2012 would be able to offer 100Mb broadband. There are currently over 100 towns in the UK that have access to this service.
In October 2011, British operator Hyperoptic launched a 1Gbit/sec FTTH service in London.
In October 2012, British operator Gigler UK launched a 1Gbit/sec down and 500Mbit/sec up FTTH service in Bournemouth using the CityFibre network.
In contrast to development in cities, in rural areas certain people even in 2014 still suffered connection speeds below 256 kbit/s during daytimes and only can achieve speeds of more than 1 Mbit/s during nighttimes.
The term "wireless broadband" generally refers to the provision of a wireless router with a broadband connection, although it can also refer to alternative wireless methods of broadband delivery, such as satellite or radio-based technology. These alternative delivery models are often deployed in areas that are physically or commercially unfeasible to reach by traditional fixed methods.
A new mobile broadband technology emerging in the United Kingdom is 4G which hopes to replace the old 3G technology currently in use and could see download speeds increased to 300Mbit/s. The company EE have been the first company to start developing a full scale 4G network throughout the United Kingdom. This was later followed by other telecommunications companies in the UK such as O2 (Telefónica) and Vodafone.
School children's access to the Internet
This section needs to be updated.March 2017)(
- nearly a third of UK children have a mobile phone,
- 15% use smartphones regularly,
- 10% have an iPhone,
- 5% have an iPad,
- 16% have access to a laptop computer,
- 8% have a social networking account,
- 25% have an e-mail address,
- most use their smartphone primarily to make phone calls, but 20% send and receive text messages, 10% go online, and 5% draft and send email,
- 50% have no parental controls installed on their internet connected devices,
- 5% use their phone or laptop when their parents are out,
- 50% of parents said they have concerns about the lack of controls installed on their children's Internet devices,
- 68% of parents who bought their children smartphones said they did so to keep better track of their children,
- 17% of surveyed parents bought phones after being pestered by their kids, and
- most pay around £10 per month on children's phone bills, although 20% pay £20 or more.
The survey gathered answers from 2,000 British parents of children ages 10 and under. The survey was used as a marketing tool to coincide with the release of Westcoastcloud's new iPad Internet content filtering product.
Children's Internet Access
According to a 2017 Ofcom report named 'Children and Parents: Media Use and Attitudes Report' providing varying age ranges up to aged 15 found:
Ages of 3-4:
- 1% own a smartphone
- 21% own a tablet
- 96% watch TV on a TV set for around 15hr a week
- 41% watch TV on other devices but primarily on a tablet
- 40% play games for around 6hr a week
- 53% go online for around 8hr a week
- 71% mostly use tablets to go online
- 48% use YouTube
- 0% have a social media profile
Ages of 5-7:
- 5% own a smartphone
- 35% own a tablet
- 95% watch TV on a TV set for around 13.5hr a week
- 49% watch TV on other devices but primarily on a tablet
- 66% play games for around 7.5hr a week
- 79% go online for around 9hr a week
- 63% mostly use a tablet to go online
- 71% use YouTube
- 3% have a social media profile
Ages of 8-11:
- 39% own a smartphone
- 52% own a tablet
- 95% watch TV on a TV set for around 14hr a week
- 55% watch TV on other devices but primarily on a tablet
- 81% play games for around 10hr a week
- 94% go online for around 13.5hr a week
- 46% mostly use a tablet to go online, 22% use a mobile
- 81% use YouTube
- 23% have a social media profile
Ages of 12-15:
- 83% own a smartphone
- 55% own a tablet
- 91% watch TV on a TV set for around 14.5hr a week
- 68% watch TV on other devices but primarily on a tablet
- 77% play games for around 12hr a week
- 99% go online for around 21hr a week
- 49% mostly use a tablet to go online, 26% use a mobile
- 90% use YouTube
- 74% have a social media profile
Call for better oversight
In June 2018 Tom Winsor, Her Majesty’s chief inspector of constabulary, said technologies like encryption should be breakable if law enforcers have a warrant. Winsor said the public was running out of patience with organisations like Facebook, Telegram and WhatsApp. Winsor said, “There is a handful of very large companies with a highly dominant influence over how the internet is used. In too many respects, their record is poor and their reputation tarnished. The steps they take to make sure their services cannot be abused by terrorists, paedophiles and organised criminals are inadequate; the commitment they show and their willingness to be held to account are questionable.”
- Digital Britain
- Internet censorship in the United Kingdom
- Illegal file sharing in the United Kingdom
- Media in the United Kingdom
- Internet rush hour
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