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Prestel

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Prestel
Prestel logo designed by
Mervyn Kurlansky of Pentagram[1]: 124 
DeveloperPost Office Telecommunications
Key peopleSamuel Fedida
TypeGeneral-purpose
public videotex service
Launch date1979; 45 years ago (1979)
Discontinued1994; 30 years ago (1994)
Platform(s)GEC 4000 minicomputers in a star network configuration with packet-switched connections
Operating system(s)OS4000 operating system supporting BABBAGE high-level assembly language
StatusDiscontinued
Membersc. 90,000 subscribers at peak
Pricing modelSubscription (quarterly) and usage (time spent on system, some pages, some messaging service actions)

Prestel was the brand name of a videotex service launched in the UK in 1979 by Post Office Telecommunications, a division of the British Post Office.[a] It had around 90,000 subscribers at its peak,[2] and was a forerunner of the internet-based online services developed in the late 20th and early 21st centuries.[3] Prestel was discontinued in 1994.

A subscriber to Prestel used an adapted TV set with a keypad or keyboard, a dedicated terminal, or a microcomputer, to interact with a central database via an ordinary phoneline. Prestel offered hundreds of thousands of pages of general and specialised information, ranging from consumer advice to financial data, as well as services such as home banking, online shopping, travel booking, telesoftware, and messaging.

In April 1984, British Telecom won a Queen's Award for Technological Achievement for the development of Prestel.[4]

History

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Invention and development

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In 1970, Samuel Fedida, a research engineer who had worked at English Electric and a US consultancy company, joined the Post Office as head of the Computer Applications Research Division. Within a year, he had completed the initial design of a viewdata system (the generic term in use at the time) for the general public: it would comprise information stored on a central computer accessed over the public phone network using modified televisions as terminals. By early 1973, the Post Office had decided to develop an experimental system, and was working with the BBC, the Independent Broadcasting Authority, and standards organisations to develop compatible standards for teletext and viewdata. During 1974, it decided to commercialise the viewdata concept.[5]: 107–109 

Pilot trial

[edit]

The first public demonstration of viewdata took place in London in 1975 during Eurocomp, the European Computing Conference on Communications Networks,[6] where Fedida presented a paper on the technology and the potential appeal, as the Post Office saw it, of a public interactive information service.[7]

Further demonstrations followed, and based on the favourable reactions of TV manufacturers and potential providers of information and services, the Post Office decided to run a pilot trial.[5]: 110  It also agreed with potential information providers (IPs) that it would not select IPs or exert editorial control over what they put on the system.[8]

The two-year pilot service began in January 1976.[5]: 111  By mid-1977, IPs included the Consumers' Association, the British Farm Produce Council, British Rail, London Transport, the Open University, the London Stock Exchange, the Institute for Scientific Information, and National Giro.[9]: cols 3–4  Interviewed by The Times, Fedida was quoted as saying that the Post Office saw viewdata playing several roles: as a "centralised information source", an "intelligent interface" to specialised scientific and technical data, a "communication machine" for passing messages, a personal information store, a new information distribution medium, a "channel for education in the home", and as providing an "advanced calculator service".[9]: cols 2–3 

Test service

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After some delay,[5]: 113 [10] the Post Office launched a test service of Prestel, as it was now called,[a] in October 1978. At the end of December, there were 95,500 information pages, growing at a rate of 3,500 per week, and just over 300 users, increasing by 30–50 per week.[11]: 56 

Commercial launch

[edit]

In March 1979, the Post Office opened a limited "London Residential Service" for subscribers in the capital.[12]: 22–23  The full commercial service launched in September 1979;[5]: 115  the director of Prestel stated that there were over 130,000 pages in the database and 1363 "sets" [sic] connected to the system at the start of that month.[13]: 23 col 4 

By February 1980, there were 131 IPs and 116 sub-IPs. The Post Office categorised the IPs as follows: national and local newspaper groups; magazine and other publishing groups; central government departments, and other agencies (such as the British Tourist Authority and the British Library); nationalised industries (including British Airways, Sealink, and British Rail), and companies in other fields of business, such as banks and travel agencies; new companies set up to exploit the viewdata medium, and those expanding from an existing base of online services, such as Reuters; associations; software companies; and miscellaneous. Particularly popular were the travel-oriented nationalised industries; new companies, such as Fintel;[14] and the Consumers' Association.[15]: 99–101  Overall, popular topics included games, quizzes, jokes, and horoscopes; the Stock Market, company information, and business news; travel and holiday information; national news, sports, and "What's On" locally; cars; and consumer advice.[15]: 102–103 

By the end of 1981, according to Butler Cox, a management consultancy,[16]: 9  Prestel had 2,000 residential and 11,000 business users, with 14,000 "terminals" [sic] in use. The service was within local call reach of 62% of phone subscribers in Britain. IPs numbered 153, with 593 sub-IPs. Users accessed 190,000 frames per day, and the average time on the system, for each user per day, was 9 minutes. There were 193,000 frames available, including 2,000 response frames. § Response frames

Database

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Pages and frames

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Information on Prestel was held in a database of "pages". Each page corresponded to a screenful of information, and had a unique number up to nine digits long.[b] A page could have up to 26 sub-pages, with each sub-page labelled with a letter from "a" to "z". A sub-page was called a "frame": the page itself was frame "a". Neither pages nor frames could scroll.[17]: 20–21 [18]: 2 [19]: 2 

Each frame had 24 lines of 40 characters each, like the display format used by the Ceefax and ORACLE teletext services. The top line showed the name of the Information Provider (IP), the page number, and the price.[18]: 7  The bottom line was reserved for system messages, leaving 22 lines available for the IP to present information to the user.[20]: 12 

An IP rented a three-digit number as its master page. For example, the Meteorological Office's was 209,[21]: 6  and the numbers identifying all its pages began with these digits – such as for 20971, the page for "Aviation forecasts".[22]: 1 

Single- and double-digit pages were reserved by Prestel for system information purposes, such as page 1, which showed the main index. Pages starting with 9 were for account and other system management functions: page 92, for example, showed details of a Prestel user's bill.[18]: 10 

When preparing and editing a page, an IP could use upper- and lower-case letters, digits, punctuation marks, a few arithmetic symbols, and a set of "mosaic characters" for composing rudimentary graphics.[21]: 19 [c] By embedding cursor-control characters in the page, simple animations could be produced by rewriting parts of the screen already displayed. These were called "dynamic frames".[d]

The IP's name on line 1 occupied at least 43 bytes, depending on the number of control characters involved, so the space available for the IP's data on-screen was a maximum of 877 characters[20]: 12  A line could occupy all forty of the character positions available, or be terminated early with a control character. Each control character consumed two bytes, so the more complex the page, the less information could be shown.[citation needed]

Most frames were set up to provide information. Other types were for messaging, or provided a gateway to other computer-based services. A "follow-on" type could also be specified: this caused the following frame to be automatically displayed as soon as the current frame had finished being transmitted. For dynamic frames, this provided a way to continue animations that could not fit within the number of characters available in one frame alone.[citation needed]

This follow-on frame facility was also used for telesoftware, enabling computer programs, such as those for the BBC Micro, to be downloaded from Prestel.[e]

[edit]

A page could be directly linked to up to ten other pages by specifying, during editing, the number of the page whose content would be displayed when a user pressed a digit from 0 to 9 on their keypad or keyboard.[17]: 20  Double-digit links – such as "56" – were achieved by linking the first digit to an intermediate, stepping-stone frame on the IP's database: this, in turn, connected the second digit to the target page.[24]: 1 

The content of pages ranged between two poles: at one, a menu listing the topics available and the number to key to reach them, with no, or minimal, further information – referred to as an "index page"; and at the other, a screenful of information with few, if any, links to other pages – an "information page". According to Rex Winsbury, a media journalist and editorial director of Fintel, a major IP, [f] as experience with the viewdata medium grew, IPs "gave information on all or most pages, simply varying the amount according to the number of routings [links] that have to be given as well."[17]: 22 

Structures

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When the public Prestel service began in 1979, a user connecting to the system was presented with the main index page. As they made and keyed successive menu choices, they moved down a subject hierarchy, from the general to the specific, to finish with the information page they sought.[25]: 61  The Post Office, academics, and the media referred to this hierarchical database arrangement as a tree structure or "inverted tree".[24]: 1 [26]: 112 [27]: col. 2 

Though simple in theory, in practice this structure could lead a user to a dead end: they might find that how a subject was described in a menu did not match what they saw on the final destination page, or formed only part of what they were looking for, or provided information without the means to look up related material. Going back through the sequence of menu choices (using the *# command) to try another series of links was limited to three steps in all.[25]: 62–63 

As Prestel developed, IPs accommodated the particularities of the different types of information and services they provided, and the expectations of their users, through the extensive use of backlinks and crosslinks between their pages.[28]: 9  This resulted in a variety of database structures[15]: 104–105  that acquired labels such as cartwheels, ring-of-rings, Chinese lanterns and lobster-pots to help visualise how pages were connected.[17]: 24 

[edit]
Front of guide
front
Back of guide
back
Pocket guide to Prestel for medical practitioners, c. 1984. Their welcome page was 1629.[29] Laminated card, 6.9 x 11 cm

There were three basic navigation commands:[21]: 20 

  • *number# took the user directly to the first frame of the page number specified: for example, *5052# displayed the contents of 5052a onscreen;
  • # moved the user successively forward through the frames: 5052b, 5052c, and so on;
  • *# returned the user to the previous page in strict sequence, and could be repeated three times.

Keyword access was introduced in 1987, with *keyword# taking the user directly to the subject (or subject index) specified.[28]: 8 [21]: 20 

A topic index, updated daily, was published on page 199, and an IP index on page 198. A printed A‍–‍Z directory of the topics available on Prestel, with the appropriate page number to key, was sent to new users. From 1987, the topic names could also be used as keywords.[22] Every two months, users were sent a magazine, Connexions,[30] that included an updated directory, and the directory was also incorporated into the quarterly Prestel Business Directory created by the Financial Times.[31]

Information providers

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There were two levels of information provider (IP): main IPs, and sub-IPs.

Charges

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A main IP rented pages directly from the Post Office (initially) or British Telecom (later), and owned a three-digit node or "master page" in the database. This required an annual payment in 1982 of £5,500 for a basic package,[32]: 1  equivalent to around £29,000 in 2021.[33]

The basic IP package included 100 frames; the ability to enter and amend information, retrieve response frames, and store 10 completed response frames; staff training in editing (a two-day seminar), and a copy of the IP editing manual; and, if required, bulk update facilities and an annual print-out of frames in use. Additional frames were available, in batches of 500, for £500 a year (over £2,600 in 2021),[33] while using "Closed User Groups" (CUGs)[g] and the sub-IP facility each cost £250 annually[32]: 1  (over £1,300 in 2021).[33]

Sub-IPs – those with smaller requirements or budget – rented pages from a main IP.[34]: 130  After paying the additional £250 annual fee, a main IP could rent out individual pages at a market rate. Unlike a main IP, sub-IPs paid a per-minute charge for editing online: in 1982, this was 8p per minute from Monday to Friday between 8 am and 6 pm, and 8p per 4-minute block at all other times[32]: 1  (equivalent to around 35p as at end 2014).[33] Sub-IPs were restricted to pages under a 4 or more digit node within a main IP's area, and could only edit existing pages: they were not able to create or delete pages themselves.

Editing pages

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Cherry Editing Keyboard manufactured by Cherry GmbH, connected to a Deccafax Viewdata Terminal Model VP1 manufactured (1979–1994) by Decca Radio & Television. Keyboard 11 x 50 x 31 cm, terminal 42 x 45 x 45 cm, 28 kg[35]

There were two ways to edit pages: directly, by creating or amending them using special editing keyboards while connected online to the main Update Computer; or offline, creating pages locally and uploading them in bulk. Bulk update required that pages be created offline using editing terminals that could store pages, or by using microcomputers. The pages were then either transmitted to the Update Computer online as a batch via a special dialup port and protocol, or sent on magnetic tape to the Update Centre (UDC), where they were uploaded.

Using the online editor, IPs were also able to view information about a page hidden from ordinary users, such as the time and date of its last update, whether the frame was in a Closed User Group (CUG),[g] the price-to-view (if any), and the "frame count" – the number of times the frame had been accessed.[h]

IPs and sub-IPs accessed the Edit computer using their normal ID and password, but had a separate password to access the editing facility. Bulk uploads only required the edit password and the IP's account number.

Information and services

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Prestel's pre-launch promotional material focused on the general public:

Prestel is for everyone. Busy mothers can check out prices before they go shopping or their children can use Prestel to help them with their homework. Gardeners will have a constant source of information on what they should be doing at any particular time of the year. Whole families can choose and even book their holidays through Prestel. [..] Prestel will provide you with listings for theatres, cinemas, sporting events, exhibitions and just about anything else that may be going on.[36]: 3 

When the service launched in late 1979, Post Office Telecommunications had a hands-off approach towards managing whatever IPs placed on the system.[37]: 25  This changed in early 1980, when British Telecom (its successor) started targeting the business, professional and hobbyist markets via joint ventures with companies and organisations with specialised expertise.[37]: 25 

By the mid-1980s, the specialised services on Prestel included:[21]: 15–18 

  • Prestel CitiService, involving the London Stock Exchange and ICV Information Systems, targeted three groups: the business community as a whole, with mainly company information; private investors in a closed user group[g], offering regularly updated share prices; and for brokers and other investment professionals, continuously updated share prices, also in a closed user group.[38]
  • British Telecom Travel Service provided travel agents with information from tour operators, airlines, and other transport operators, and enabled online reservations. The service for other users included flight arrivals and departures, car rental, and exchange rates.
  • Prestel Farmlink packaged information for farmers from the Ministry of Agriculture, Fisheries and Food, the Meat and Livestock Commission, the Meteorological Office, and others. A link to Prestel CitiService provided farm commodity prices, and farmers could calculate, online, weekly wages and the formulation of feedstuffs.
  • Banking: the Nottingham Building Society offered Homelink, and the Bank of Scotland HOBS, the Home & Office Banking Service. Subscribers were provided with free or subsidised Prestel terminals.
  • Prestel Microcomputing offered downloadable software (telesoftware), noticeboards, newsletters, and reviews. It incorporated Micronet 800 from EMAP, Viewfax 258, and Clubspot 810.[39]
  • Prestel Education targeted schools and colleges, and provided course and careers advice, educational software, and help with using computers.
  • British Telecom Insurance Services provided financial information to insurance intermediaries and enabled them to get online quotes from major insurance companies.
  • Prestel Teleshopping was a specialised e-commerce service for the residential market, and involved Littlewoods and Kays Catalogues, among others.

Messaging

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Response frames

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A "response frame" enabled a user to send a message to an IP using a special preformatted page, for example to order goods or services.[34]: 133  The user's name, address, and phone number were automatically added to the frame by means of embedded codes that triggered the extraction of this data from their Prestel account.

Initially, response frames had to be collected by an IP from each IRC in turn; later, they were ingathered at the UDC, where the IP concerned could retrieve them. Eventually, with the introduction of Mailbox, response frames could be retrieved from any IRC. § Network

Mailbox

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Launch version of Prestel Mailbox entry page, *7# (1983).

Prestel Mailbox was launched in 1983. Initially hosted on a computer in London, it was later made available UK-wide. § Network

The entry page for Prestel Mailbox was *7#. This linked to pages where new messages could be composed, stored messages retrieved, and standard, pre-formatted messages completed – many designs were available, including greetings cards and seasonal messages such as valentines.

To prepare a basic message, a blank message page (directly accessible via *77#) was displayed, with the sender's Mailbox number pre-filled and blank fields shown for entering the recipient's number and the message text. As messages could only occupy a single frame, there was space for up to 100 words or so, and fewer if graphics were used. After addressing (with a Mailbox number) and writing the message, the user was offered the choice of keying 1 to send it, or keying 2 to not send it. Successful dispatch led to a confirmation page; if there were problems, such as a mistake in entering the recipient's Mailbox number, an error message was displayed.[21]: 8  To send the message to more than one recipient meant re-keying the text into a fresh message frame, although some microcomputers allowed the original message to be stored and then copy-pasted instead.[19]: 29 

Screenshot of a received message. The name of the host computer, "Enterprise", is at top-right. The Mailbox numbers start with 01999, so are ex-directory. The bottom of the screen shows instructions for storing or deleting the message.[40]

Prestel Mailbox numbers were based on the last nine digits of a user's phone number. For example, the Mailbox number for Prestel HQ, with the phone number 01-822-2211, was 018222211, while for a user in Manchester with the number 061-228-7878, it was 612287878.[citation needed] In keeping with phone directory practice at the time, Prestel Mailbox numbers were published in a list accessible from page *486#. Ex-directory Mailbox numbers were available on request.[i]

Prestel Mailbox promotional badge, c.1983. Metal, 5.6 cm diameter

When a user connected to Prestel, a Mailbox banner on their Welcome page alerted them if they had any new messages. Similarly, when a user signed off via *90#, a warning would appear if any new messages had arrived in the meantime, with the option to read them before disconnecting. Messages were retrieved from page *930#, where they were presented in chronological order. After reading a new message, a user had to choose between deleting or saving it before the next message was presented. Initially, only three messages could be saved at a time; these stored messages were accessible via page *931#.

Using this first version of the basic Mailbox service was free of charge. § Mailbox upgrade

[edit]

Prestel Mailbox was extended in 1984 to give access to the Telex service via "Telex Link". On *8#, the Telex Link entry page, a message could be composed, the destination country chosen, and the telex number entered before sending the telex like a standard message. Telex Link added the necessary telex codes and tried to send the message several times before confirming receipt (or failure) via Mailbox.

A telex could be sent to a Mailbox user from any telex terminal by using 295141 TXLINK G, the Telex Link number, as the telex address, and entering "MBX", followed by the Prestel user's Mailbox number, as the first line of the telex. An incoming telex appeared to the Prestel recipient as an ordinary Mailbox message, with the telex number of the sender added at the top of the screen.

Sending a telex cost 50p for UK destinations, £1.00 for Europe, £2.00 for North America, £3.00 for elsewhere in the world, and £5.00 for sending to ships (via INMARSAT). There was no charge for receiving one.[41]

In 1984, when there were some 70,000 users registered, up to 100,000 messages and telexes were sent each week via Prestel Mailbox.[citation needed]

Mailbox upgrade

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A new messaging system was introduced in July 1989. This enabled messages up to five frames long, storing messages before sending, sending to multiple recipients (either individually or via a mailing list), message forwarding, and acknowledgment of receipt.

Sending a basic message without using any of these new facilities remained free: all the new options were charged at 1p per use per recipient. For the first time, sending spam was permitted at a cost of 20p per message per recipient. In addition, the stored message facility was replaced by a summary page listing all the messages, both new and old, that were waiting: the user could then pick which message to view, rather than needing to read through them in chronological order.[42]

Hack

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A security breach of the Prestel mailbox of Prince Philip, Duke of Edinburgh occurred in November 1984[43] as part of a wider hack of Prestel.[44]

Infrastructure

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Network

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Configuration and growth

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In March 1979, the Post Office launched a limited "London Residential Service" for subscribers in the capital. This was based on the computer used in an earlier test phase to both store the Prestel database and enable IPs to make updates to their pages.[12]: 22–23 

When the full commercial service launched in September 1979, three new computer centres were opened in London.[34]: 130  Two, known as Byron and Juniper, were "Information Retrieval Centres" (IRCs): their computers each contained a copy of the Prestel database, and were accessible by users. The third, Duke, was Prestel's "Update Centre" (UDC): IPs used this to create, modify or delete their pages, with their updates sent to the IRCs.[j] A fourth IRC, Dickens, opened in Birmingham in December.[5]: 115–116 

IRCs were connected to the UDC in a star network configuration using leased-line connections (based on the X.25 protocol) operating at 2400 baud.[45] This network handled about 2,000 Prestel terminals and provided users with over 160,000 pages supplied by around 130 IPs.[5]: 116  By mid-1981, this arrangement had been replaced by dedicated X.25 circuits using the then-new PSS packet-switched network and operating at 4.8 kbit/s.[citation needed]

Each IRC typically housed two information retrieval computers, though some in London had a single machine.[34]: 130  IRCs were usually located in major telephone exchanges, rather than data-processing centres, to accommodate the extensive communications equipment needed: exchange buildings could more easily house the large numbers of rack-mounted 1200/75 baud modems and associated cabling required, as well as the GEC multiplexers[k] connecting the modems to the computers.[citation needed]

By June 1980, the network had grown to four individual information-retrieval computers in London, and six others installed in pairs in each of Birmingham, Edinburgh and Manchester, making ten in all.[46] These ten computers could initially connect to around 1000 user ports, expandable to 2000.[34]: 130  At this point, the Prestel database contained about 164,000 pages with expandability to up to 260,000 built in: allowing for system management pages, this arrangement capped the size of the public database at around 250,000 frames.[34]: 133 

By September 1980, there were five IRC machines in London and pairs of machines in Birmingham, Nottingham, Edinburgh, Glasgow, Manchester, Liverpool and Belfast, offering a total of 914 user ports. Further IRCs were planned in Luton, Reading, Sevenoaks, Brighton, Leeds, Newcastle, Cardiff, Bristol, Bournemouth, Chelmsford and Norwich by the end of 1980.[45][l]

By the end of 1980, 1500 user ports were available. By July 1981, the number of IRC computers had grown to 18: this increased the proportion of phone subscribers who could dial-up Prestel at local rates from 30% to 62%.[34]: 129  By 1984, the short dialling codes 618 and 918 could be used in most of the UK for access at local call rates.[citation needed]

International access

[edit]

In 1982, a virtual IRC was created in Boston, Massachusetts, giving US subscribers access to Prestel via the American Telenet packet-switched network.[citation needed]

Mailbox computer

[edit]

Mailbox, the Prestel messaging service, was launched on Enterprise computer, and allowed messaging only between users accessing that machine. By 1984, Mailbox had been rolled out nationwide using a dedicated computer in London known as Pandora.[citation needed]

Hardware

[edit]

Prestel's computers were based on the GEC 4000 series minicomputer. The main IRC machines were originally model GEC 4082s equipped with 384 Kbyte memory-core stores, six 70 Mbyte hard disk drives, and 100 ports.[m] This set-up accommodated an initial 1500 Prestel users.

Each IRC computer had 208 ports. With eight reserved for testing and control, a computer could support up to 200 simultaneous Prestel users. For the ordinary user, access was via an asynchronous, duplex interface provided by banks of multiplexers.[k] These, in turn, were accessed via standard modems, operating at 1200/75 bit/s, directly connected to the public phone network.[34]: 130 

Besides the multiplexers required to support 1200/75 dial-up access, the Update Centre machines were also connected to special modems that handled online bulk updating by IPs. Banks of 300/300 bit/s full-duplex asynchronous V.21 modems supported direct IP-computer-to-Prestel-computer links, while 1200 bit/s half-duplex V.23 modems supported access by IPs using editing terminals that stored frames offline before uploading them. In addition, twin 9-track NRZI tape decks of 800 bytes/inch capacity were provided for bulk offline updates.[34]: 131 

GEC 4000 series computers at GEC Computers' Dunstable Development Centre, 1991

Though categorised as a minicomputer, GEC 4000 series machines were large: one occupied several standard computer cabinets each standing 6 feet (1.8 m) high by 2 feet (0.61 m) wide. The CDC 9762 hard disc drives were housed separately in large, stand-alone units about the size of a domestic washing machine.[n] A GEC machine cost over £200,000 at standard prices, in addition to which were the costs of the associated communications equipment. Combining the two to assemble a single IRC was a major undertaking, and took some 15 months from order placement to commissioning.[34]: 132 

Software

[edit]

GEC 4000 series computers could run one of several operating systems: in practice, though, Prestel machines ran on OS4000 exclusively. OS4000 was developed by GEC and supported BABBAGE,[citation needed] the high-level assembler in which all Prestel software was written.

In 1987, a Prestel Admin computer was introduced to support the user registration process: it handled capturing a new user's details from the paper Prestel application form, transferring the data to the relevant Prestel computer, and then printing the welcome letter to be sent to the user concerned.[o]

Monitoring

[edit]

Users' connections to Prestel were monitored by a device known as VAMPIRE – "Viewdata Access Monitor and Priority Incident Reporting Equipment". Via private circuits connected to an IRC computer's ports, this produced a continuously updated display on a monitoring screen at the Prestel Regional Centre responsible for an IRC.[34]: 131  The screen showed a matrix of small squares, each corresponding to a port on an IRC computer. Free ports were green, occupied ones yellow, incoming calls-to-connect by Prestel users were pale blue, and faulty ports red. In this way, the overall status of an IRC machine could be summarised and seen at a glance.

Public take-up

[edit]

Writing in early 1979 about the test service that had launched in October 1978, a PTO executive concluded that:

"The strengths of viewdata include its visual attractiveness, its ease of use, low cost and its wide range of applications. Its weaknesses include its small information window, unsophisticated search methods, its limited storage capacity and its lack of computer power for users. How rapidly viewdata will become established, and the exact role it will fulfil, is as yet a matter of speculation."[11]

While teletext services were provided free of charge, and were encoded as part of the regular television transmissions, Prestel data were transmitted via telephone lines to a set-top box terminal, computer, or dedicated terminal. While this enabled interactive services and a crude form of e-mail to be provided, gaining access to Prestel also involved purchasing a suitable terminal, and arranging with a Post Office engineer for the installation of a connection point known as a Jack 96A.[citation needed] (From the early 1980s, the "New Plan" sockets were fitted as standard on new lines and on any change of rented handset, and terminals or modems then required no special connections.)

Thereafter it was necessary to pay both a monthly subscription and the cost of local telephone calls. On top of this, some services (notably parts of Micronet 800) sold content on a paid-for basis. Each Prestel screen carried a price in pence in the top right-hand corner. Single screens could cost up to 99p.

The original idea was to persuade consumers to buy a modified television set with an inbuilt modem and a keypad remote control in order to access the service, but no more than a handful of models were ever marketed and they were prohibitively expensive. Eventually set-top boxes were made available, and some organisations made these available as part of their subscription, for example branded Tandata terminals were provided by the Nottingham Building Society for its customers, who could make financial transactions via Prestel.

Prestel terminal

Because the communication over telephone lines did not use any kind of error correction protocol, it was prone to interference from line noise which would result in garbled text. This was particularly problematic with early home modems which used acoustic couplers, because most home phones were hard-wired to the wall at that time.

Regardless of the hardware choice Prestel was an expensive proposition, and as a result, Prestel only ever gained a limited market penetration among private consumers, achieving a total of just 90,000 subscribers, with the largest user groups being Micronet 800 with 20,000 users and Prestel Travel with 6,500 subscribers.

The costs for businesses interested in publishing on Prestel were also expensive. This ensured that only the largest or most forward thinking companies were interested in the service.

During the daytime, when business usage was high, there was a per-minute charge to use Prestel, but in the evenings and weekends, traditionally the quiet times, it was free apart from the telephone call. With Micronet being so popular, suddenly the quiet times became fairly busy.

The original Prestel system, designed for cost effectiveness and simplicity, employed a rudimentary graphic capability known as serial mosaics. Through juxtaposition of the special mosaic characters, crude but recognizable graphic representations could be made on the screen. This graphic scheme had its limitations. To change colours between two mosaic graphic characters or between any two characters in general, a colour change command was required. This command signal, however, physically occupied a blank space on the screen.

Having developed Prestel as a way of maximising usage of existing telephone lines, the British Post Office and subsequently British Telecom sought to "provide only the framework" for the service, delegating the provision of information to information providers. Nevertheless, considerable investment was required in the infrastructure to provide such a service. With information providers needing to pay rental charges and with users needing to pay installation and rental fees, such an investment was considered likely to pay off handsomely for BT and that they would be "cleaning up" by providing an interactive service that, in contrast to teletext services such as Ceefax and Oracle, could support a range of commercial activities. A "mass public service" was envisaged, with considerable public take-up, but a lack of compelling content and services gave domestic users in particular the impression of Prestel being something that "would cost them a lot for relatively little". Thus, Prestel became more like "a fragmented series of computer-linked private systems" used and run by various companies such as American Express and Thomas Cook, for whom adoption of the technology made sense operationally. Nevertheless, it was predicted that eventually, "Prestel - or another viewdata system - will be ubiquitous".[47]

International sales

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The Prestel system was sold to several countries, including Austria, Australia, former West Germany,[48] the then-British colony of Hong Kong, Hungary, Italy, Malaysia, the Netherlands, New Zealand, Singapore, and former Yugoslavia.[citation needed]

Telecom Australia re-branded their system Viatel, with the centre of operations in Windsor, Melbourne, Australia. During the Black Monday stock market crash the system's stock trading system was highly used. The system in Italy run by SIP was heavily used during the 1990 FIFA World Cup for reporting the match progress and scores. The Singapore system provided a much higher receive bandwidth than was available over dial-up modems at the time by broadcasting the return frames using the Teletext technique of embedding them in broadcast television signals. Four VHF TV channels were dedicated to this with all the scan lines used for Teletext encoding, which enabled the system to provide a feature called Picture Prestel to convey higher resolution images. The Yugoslav system was based in Zagreb, with additional IRCs located in Rijeka, Ljubljana, and Split.[citation needed]

The American Viewtron videotex service was modelled after Prestel.[citation needed]

See also

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Notes

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  1. ^ a b According to Alex Reid, the first Director of Prestel: "The question of what our commercial viewdata system should be called was given careful thought ... To build a commercial brand we had to choose a new name. I undertook this process personally, compiling a long list of simple words [and] then subjected a short list to professional checking for availability and protection worldwide ... [t]he winner in this exercise was Prestel. Pre had connotations of press, presentation, press button, prestige and premium. Tel had the telecomms connotation."[1]: 123–124 
  2. ^ I.e, page numbers could run from 0 to 999999999.
  3. ^ This was in line with a variant of the ISO/IEC 646 and CCITT standards and became formalised in the 1981 CEPT videotex standard as the CEPT3 profile.[23]
  4. ^ Dynamic frames could not be created online: their preparation required specialist software and then uploading via the "bulk update" facility. No timing options were available beyond those imposed by the transmission speed, which was usually 1200 baud.
  5. ^ The first few frames acted as headers. For example, a program would be described on frames 70067a and b, while frame c gave the number of subsequent frames containing the program, and a checksum.The telesoftware program itself started in frame d. To verify a successful download, software compared the checksum with a value calculated from the result of downloading all the frames required. If the check failed, the program had to be downloaded again.[citation needed]
  6. ^ Fintel was a joint venture between the Financial Times and Extel.[14]
  7. ^ a b c A Closed User Group, or CUG, was a group of Prestel users, set up by an Information Provider, with access to confidential information.[21]: 18 
  8. ^ The frame count was not cumulated over all IRCs, but related only to the computer being viewed at the time: calculating national access counts was a manual exercise.
  9. ^ Ex-directory Prestel Mailbox numbers used a dummy phone number format starting with 01999 or 01111.[citation needed]
  10. ^ The computer centres in London were first located in St Alphage House, together with Prestel's National Operations Centre (NOC). The computers and the NOC were later moved to Baynard House, which acted as a combined UDC and IRC. Both types of machine remained in service there till Prestel was discontinued in 1994.
  11. ^ a b The multiplexers were GEC 16-port Multi-Channel Asynchronous Communications Control Units (MCACCU).
  12. ^ In some of these locations where there was insufficient Prestel traffic to warrant siting an IRC computer, the plans were to site multiplex equipment in a suitable exchange building from where connections were made over X25 to the nearest proper IRC.[citation needed]
  13. ^ By 1981, this configuration had changed: memory was doubled to 768 kbytes and data discs reduced to six (corresponding to the number at the IRC machines), with a single transaction disc.[34]: 131 
  14. ^ The 70 Mbyte capacity hard discs were removable. Each consisted of a stack of five, 14-inch (36 cm) diameter platters, standing 4 inches (10 cm) high, that could be lifted in and out of the drive unit.
  15. ^ The Prestel Admin computer, which was also based on GEC 4082 equipment, was the first to be equipped with the 1 Mbyte of memory needed to support the use of the Rapport relational database product supplied by Logica.

References

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  1. ^ a b Reid, Alexander (24 September 2021). "Alexander Reid : Autobiographical life story" (PDF). www.livesretold.co.uk. See section "Prestel", pp. 120–129. Retrieved 24 October 2024. Alexander "Alex" Reid was the first Director of Prestel at Post Office Telecommunications / British Telecom, holding the post during the service's initial development and for the first few years after its commercial launch.
  2. ^ "History of Computing: Prestel". Parker Shaw. Retrieved 21 October 2024.
  3. ^ Davenport, Lucinda D. (2023). "The Viability of Viewdata as a Mass Medium: A Case Study of Prestel, the Prototype for Computerized Information Systems, the Internet". TMG Journal for Media History. 26 (2): 1–29. doi:10.18146/tmg.845. ISSN 1387-649X. Retrieved 1 October 2024.
  4. ^ "The Queen's Award for Technological Achievement 1984". The London Gazette (Supplement). No. 49713. 21 April 1984. p. 2. Her Majesty the Queen has been graciously pleased to confer Her Award for Technological Achievement in 1984 upon ... : The Videotex Section of BT Research Department and the Prestel Executive of British Telecommunications, Martlesham Heath, Ipswich and London, E.C.4. Nature of product or development: 'Prestel' viewdata system.
  5. ^ a b c d e f g Rutter, Dorian James (2005). "Chapter 4: Before the Internet: the Rise and Fall of Prestel" (PDF). From Diversity to Convergence: British Computer Networks and the Internet, 1970–1995 (PDF) (PhD thesis). University of Warwick. pp. 105–158. OCLC 93065596.
  6. ^ Owen, Kenneth (26 September 1975). "Why the Post Office is so excited by its plans for a TV screen information service". Business news. The Times. No. 59511. London. col 4, p. 23. Earlier this week the proposed new service was publicly demonstrated for the first time at ... Eurocomp ... at Heathrow. Yesterday the philosophy behind Viewdata was described at the conference by Samuel Fedida [...].
  7. ^ Fedida, Samuel (1975). "Viewdata: an interactive information service for the general public". Communications Networks: Papers presented at the European Computing Conference on Communications Networks (Eurocomp) – London, September 1975. Uxbridge: Online Conferences Ltd. pp. 261–282. ISBN 978-0-903-79605-7. OCLC 2006258. Retrieved 28 October 2024 – via Internet Archive. p. 261: The concept of Viewdata, a computer-based information medium and service, suitable for non-computer users, is explained by reference to the 'total cost-effectiveness' of computer-based information systems. The means of implementing such a system includes the design of a low-cost, yet of pleasing appearance, rugged and reliable terminal connected to the telephone system, together with its associated keypads, a distributed but interconnected computer system giving access to internal and external databases, a 'natural' protocol for information retrieval requiring no training whatsoever for its effective use and a software structure designed to maximise throughput and hence minimise costs.
  8. ^ Reid, Alex (1981). "Prestel philosophy and practice". In Winsbury, Rex (ed.). Viewdata in Action : a Comparative Study of Prestel. London: McGraw-Hill. pp. 13–28. ISBN 978-0-070-84548-0. OCLC 715473323. Retrieved 5 October 2024. p. 16: [W]e plumped firmly for the 'common carrier' approach. We rent space in our Prestel computers to anyone who can pay the storage charges. The information providers may choose whether to charge the users to look at their information, and if so, how much; and information providers may put up on their pages whatever information they wish, subject only to the law.
  9. ^ a b "Dial-a-fact television becoming reality". Telecommunications. The Times. No. 60013. London. 26 May 1977. col 1, p. 17.
  10. ^ Large, Peter (3 October 1978). "Prestel's passing problems". The Guardian. p. 19.
  11. ^ a b Williams, Ederyn (April 1979). "Strengths and Weaknesses of Prestel". Computer Communications. 2 (2): 56–59. doi:10.1016/0140-3664(79)90121-X.
  12. ^ a b Stokes, Adrian V. (1980). Viewdata: A Public Information Utility (2nd ed.). Purley: Input Two-Nine. ISBN 978-0-905-89753-0. OCLC 6972310.
  13. ^ Reid, Alex (13 September 1984). "Prestel develops the world's biggest system". Guardian. pp. 22–23.
  14. ^ a b "FT and Extel form joint venture". Financial news and market reports. The Times. No. 60208. London. 12 January 1978. col 2, p. 21.
  15. ^ a b c Williams, Ederyn (1981). "Who's who on the Prestel database". In Winsbury, Rex (ed.). Viewdata in Action : a Comparative Study of Prestel. London: McGraw-Hill. pp. 99–106. ISBN 978-0-070-84548-0. OCLC 715473323. Retrieved 29 October 2024.
  16. ^ Butler Cox (March 1982). "Developments in Videotex" (PDF). Archives of IT. Butler Cox Report Series #27. London: Butler Cox & Partners. Retrieved 1 November 2024.
  17. ^ a b c d Winsbury, Rex (1979). The Electronic Bookstall : Push-button publishing on videotex: a critical study of Prestel in Britain. London: International Institute of Communications. ISBN 978-0-904-77610-2. OCLC 5507588.
  18. ^ a b c British Telecom (September 1982). "Prestel" (Customer brochure). London: Prestel Public Relations. Prestel P526 9/82.
  19. ^ a b Acorn Computers (March 1984). "Prestel System User Guide – BBC Micro". Retrieved 7 October 2024 – via Internet Archive.
  20. ^ a b British Telecom (November 1981). "Prestel Bulk Update Technical Specification". Ref. 14 9 81p. Retrieved 7 October 2024 – via Internet Archive.
  21. ^ a b c d e f g British Telecom (1987). "Prestel Customer Handbook". Retrieved 7 October 2024 – via Internet Archive.
  22. ^ a b British Telecom (1 September 1987). "Prestel Start-Up Directory" (handbook). London: Prestel.
  23. ^ "Terminal Equipment (TE): videotex presentation layer protocol, videotex presentation layer data syntax" (PDF). Sophia Antipolis: ETSI. November 1990. ETS 300 072. Retrieved 9 October 2024.
  24. ^ a b Williams, Ederyn (18 July 1978). "Database Organisation and Information Retrieval – a discussion paper" (PDF). www.whatdotheyknow.com. BL: SGV 78/10. PO: PO-IP CP-26. Retrieved 14 October 2024. p. 1: The database was initially organised on the 'tree principle', in which pages were organised into a single massive tree, and page access was presumed to be primarily through a series of single digit choices. Note: this Post Office document was published by WhatDoTheyKnow as part of the outcome of a Freedom of Information request made to The British Library in February 2010.
  25. ^ a b Orna, Elizabeth (1986). "Information management by design: improving information retrieval on Prestel". Information Design Journal. 5 (1): 61–68. doi:10.1075/idj.5.1.orn. ISSN 1569-979X.
  26. ^ Storey, I. N. J. (1982). "The future of videotex systems – a personal view". Journal of Information Science. 4 (2–3): 111–115. doi:10.1177/016555158200400207. ISSN 0165-5515.
  27. ^ Schofield, Jack (13 September 1984). "How the Post Office failed to deliver". Guardian. p. 17. The tree structure means a large proportion of the frames are simply 'routeing' frames. They contain no useful information, but simply direct you on the long route to where that information is held. [column 2]
  28. ^ a b Yeates, Robin (April 1988). "Prestel indexing from the user's point of view". The Indexer. 16 (1): 7–10. doi:10.3828/indexer.1988.16.1.3. ISSN 1756-0632.
  29. ^ "Short progress report: Present and potential uses of Prestel by the medical profession". Medical Informatics. 7 (2): 141–142. 1982. doi:10.3109/14639238209010707.
  30. ^ "Connexions [cover]". Centre for Computing History. British Telecom. April–May 1988. CH24135. Retrieved 16 October 2024.
  31. ^ "Prestel Business Directory [cover]". Centre for Computing History. Financial Times Business Publishing. October 1981. ISSN 0142-5102. OCLC 225634964. CH56750. Retrieved 16 October 2024.
  32. ^ a b c British Telecom (October 1982). "Information Provider (IP) Charges and User Charges". Retrieved 8 October 2024 – via Internet Archive.
  33. ^ a b c d "Five Ways to Compute the Relative Value of a UK Pound Amount, 1270 to Present". The MeasuringWorth Foundation. Retrieved 9 October 2024.
  34. ^ a b c d e f g h i j k l Broadhead, W. R. (July 1981). "Prestel: The First Year of Public Service". Post Office Electrical Engineers' Journal. 74 (2): 129–133. Retrieved 7 October 2024 – via Internet Archive.
  35. ^ "Deccafax Viewdata Terminal Model VP1, 1979-1994, and Cherry Editing Keyboard". Science Museum Group Collection Online. Science Museum Group. 23 June 2014. Object number 1994-1169: donated by House of Commons. Retrieved 5 October 2024.
  36. ^ "Prestel" (brochure). London: Post Office Telecommunications. January 1979.
  37. ^ a b Butler Cox (January 1985). "Videotex in Europe" (PDF). Archives of IT. Butler Cox Report Series #19. London: Butler Cox & Partners. OCLC 12808197. Retrieved 17 October 2024.
  38. ^ "CitiService doubles its speed to meet demand". CITINEWS : The newsletter of Prestel CitiService. Vol. 1, no. 3. ICV Information Systems. Winter 1985–1986. p. 1.
  39. ^ Prestel Microcomputing (May 1984). "PRESTEL MICROCOMPUTING will add a new dimension to your home computing" (letter). British Telecom.
  40. ^ Ashton, Jane (host) (7 June 1984). "Using Prestel". Database. 3:08 minutes in. Thames TV – via YouTube.
  41. ^ "Mailbox Charges". British Telecom. June 1990. Retrieved 9 October 2024 – via Internet Archive.
  42. ^ "Duke's mail code is cracked". News. The Times. No. 61977. London. 6 November 1984. col 3, p. 2.
  43. ^ "Archive of historic BT 'email' hack preserved". BBC. 19 May 2016. Retrieved 26 October 2024.
  44. ^ a b Scott, Barry (September 1980). Viewdata and Training: What, Where and How Much (PDF) (Report). Technical Report No. 9. Burlington: Digital Equipment Corporation Educational Services. p. 7. Retrieved 8 October 2024.
  45. ^ Bloom, L. R.; Hanson, A. G.; Linfield, R. F.; Wortendyke, D. R. (October 1980). "Section 2.2: The United Kingdom". Videotex Systems and Services (PDF) (Report). Boulder: U.S. Department of Commerce. p. 18. NTIA Report 80-50. Archived from the original (PDF) on 6 June 2011. Retrieved 8 October 2024.
  46. ^ McLaren, Ian (May 1982). "Head, Heart, Hand - and Screen". Design. pp. 50–54. Retrieved 14 March 2022.
  47. ^ Brown, Michael (24 August 1977). "Post Office sells Viewdata system to West Germans". Business news. The Times. No. 60090. London. col 4, p. 19. The West German Post Office will be supplied with a duplicate of the Viewdata computer programmes [sic] and expertise, and a trial system will be set up with the guidance of the British Post Office.

Further reading

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[edit]
  • Prestel at Celebrating the Viewdata Revolution