Barely two years after the telephone was first patented in the United States in 1876 by Dr. "Alexander Graham Bell, an early concept of a combined videophone and wide-screen television called a "telephonoscope was conceptualized in the popular periodicals of the day. It was also mentioned in various early science fiction works such as "Le Vingtième siècle. La vie électrique (The 20th century. The electrical life) and other works written by "Albert Robida, and was also sketched in various cartoons by "George du Maurier as a fictional invention of "Thomas Edison. One such sketch was published on December 9, 1878 in "Punch magazine.
The term '"telectroscope' was also used in 1878 by French writer and publisher "Louis Figuier, to popularize an invention wrongly interpreted as real and incorrectly ascribed to Dr. Bell, possibly after his "Volta Laboratory discreetly deposited a sealed container of a "Graphophone phonograph at the "Smithsonian Institution for safekeeping. Written under the pseudonym "Electrician", one article earlier claimed that "an eminent scientist" had invented a device whereby objects or people anywhere in the world "....could be seen anywhere by anybody". The device, among other functions, would allow merchants to transmit pictures of their wares to their customers, and the contents of museum collections to be made available to scholars in distant cities...."[Note 1] In the era prior to the advent of "broadcasting, electrical "seeing" devices were conceived as adjuncts to the telephone, thus creating the concept of a videophone.
Fraudulent reports of 'amazing' advances in video telephones would be publicized as early as 1880 and would reoccur every few years, such as the episode of 'Dr. Sylvestre' of Paris who claimed in 1902 to have invented a powerful (and inexpensive) video telephone, termed a 'spectograph', the intellectual property rights he believed were worth $5,000,000. After reviewing his claim Dr. Bell denounced the supposed invention as a ""fairy tale", and publicly commented on the charlatans promoting bogus inventions for financial gain or self-promotion.
However Dr. Alexander Graham Bell personally thought that videotelephony was achievable even though his contributions to its advancement were incidental. In April 1891, Dr. Bell actually did record conceptual notes on an 'electrical radiophone', which discussed the possibility of "seeing by electricity" using devices that employed "tellurium or "selenium imaging components. Bell wrote, decades prior to the invention of the "image dissector:
Should it be found ... [that the image sensor] is illuminated, then an apparatus might be constructed in which each piece of selenium is a mere speck, like the head of a small pin, the smaller the better. The darkened selenium should be placed in a cup-like receiver which can fit over the eye ... Then, when the first selenium speck is presented to an illuminated object, it may be possible that the eye in the darkened receiver, should perceive, not merely light, but an image of the object ...
Bell went on to later predict that: "...the day would come when the man at the telephone would be able to see the distant person to whom he was speaking." The discoveries in physics, chemistry and "materials science underlying video technology would not be in place until the mid-1920s, first being utilized in "electromechanical television. More practical 'all-electronic' video and television would not emerge until 1939, but would then suffer several more years of delays before gaining popularity due to the onset and effects of World War II.
The compound name 'videophone' slowly entered into general usage after 1950, although 'video telephone' likely entered the lexicon earlier after video was coined in 1935. Prior to that time there appeared to be no standard terms for 'video telephone', with expressions such as 'sight-sound television system', 'visual radio' and nearly 20 others (in English) being used to describe the marriage of telegraph, telephone, television and radio technologies employed in early experiments.
Among the technological precursors to the videophone were telegraphic image transmitters created by several companies, such as the "wirephoto used by "Western Union, and the teleostereograph developed by AT&T's "Bell Labs, which were forerunners of today's "fax (facsimile) machines. Such early image transmitters were themselves based on previous work by Ernest Hummel and others in the 19th century. By 1927 AT&T had created its earliest "electromechanical television-videophone called the ikonophone (from Greek: 'image-sound'), which operated at 18 frames per second and occupied half a room full of equipment cabinets. An early U.S. test in 1927 had their then-Commerce Secretary "Herbert Hoover address an audience in "New York City from "Washington, D.C; although the audio portion was two-way, the video portion was one-way with only those in New York being able to see Hoover.
By 1930, AT&T's 'two-way television-telephone' system was in full-scale experimental use. The "Bell Labs' Manhattan facility devoted years of research to it during the 1930s, led by Dr. "Herbert Ives along with his team of more than 200 scientists, engineers and technicians, intending to develop it for both telecommunication and broadcast entertainment purposes.
There were also other public demonstrations of "two-way television-telephone" systems during this period by inventors and entrepreneurs who sought to compete with AT&T, although none appeared capable of dealing with the technical issues of "signal compression that Bell Labs would eventually resolve. Signal compression, and its later sibling "data compression were fundamental to the issue of transmitting the very large bandwidth of low-resolution black and white video through the very limited capacity of low-speed copper "PSTN telephone lines (higher resolution colour videophones would require even far greater capabilities).[Note 2] After the Second World War, Bell Labs resumed its efforts during the 1950s and 1960s, eventually leading to AT&T's Picturephone.
World's first public videophone service: Germany 1936–1940
In early 1936 the world's first public video telephone service, Germany's Gegensehn-Fernsprechanlagen (visual telephone system), was developed by Dr. Georg Schubert, who headed the development department at the Fernseh-AG, a technical combine for television broadcasting technology. It was opened by the German "Reichspost (post office) between "Berlin and "Leipzig, utilizing "broadband coaxial cable to cover the distance of approximately 160 km (100 miles).
Schubert's system, was based on Gunter Krawinkel's earlier research of the late-1920s that he displayed at the "1929 Internationale Funkausstellung Berlin (Berlin International Radio Exposition). Schubet's higher performance system employed "mechanical television scanning and 20 cm (8 inch) square displays with a resolution of 180 lines (initially 150 lines), transmitting some 40,000 pixels per frame at 25 frames per second.
The system's opening was inaugurated by the Minister of Posts "Paul von Eltz-Rübenach in Berlin on March 1, 1936, who viewed and spoke with Leipzig's chief burgomaster. It employed a "Nipkow disk "flying-spot scanner for its transmitter, and a "cathode ray display tube with (an initial) resolution of 150 lines at its receiving-end videophone booth. The same coaxial cables were also used to distribute television programming.
In the initial service trial, broadband coaxial cable lines initially linked Berlin to Leipzig. After a period of experimentation the system entered public use and was soon extended another 160 km (100 miles) from Berlin to "Hamburg, and then in July 1938 from Leipzig to "Nuremberg and "Munich. The system eventually operated with more than 1,000 km (620 miles) of coaxial cable transmission lines. The videophones were integrated within large public videophone booths, with two booths provided per city. Calls between Berlin and Leipzig cost "RM3½, approximately one sixth of a "British pound sterling, or about one-fifteenth of the average weekly wage. The video telephone equipment used in Berlin was designed and built by the German Post Office Laboratory. Videophone equipment used in other German cities were developed by "Fernseh A.G., partly owned by "Baird Television Ltd. of the U.K., inventors of the world's first functional television. During its life the German system underwent further development and testing, resulting in higher resolutions and a conversion to an all-electronic "camera tube transmission system to replace its "mechanical Nipkow scanning disc. While the system's image quality was primitive by modern standards, it was deemed impressive in contemporary reports of the era, with users able to clearly discern the hands on wristwatches.
The special public videophone service was offered to the general public, which had to visit special post office Fernsehsprechstellen (video telephone booths, from "far sight speech place") simultaneously in their respective cities, but which at the same time also had "Nazi political and "propagandistic overtones similar to the broadcasting of the "1936 Olympic Games in Berlin. The German post office announced ambitious plans to extend their public videophone network to Cologne, Frankfurt and "Vienna, Austria, but expansion plans were discontinued in 1939 with the start of the Second World War. After Germany subsequently became fully engaged in the war its public videophone system was closed in 1940, with its expensive inter-city broadband cables converted to telegraphic message traffic and broadcast television service.
A similar commercial post office system was also created in France during the late-1930s. The "Deutsche Bundespost postal service would decades later develop and deploy its BIGFON (Broadband Integrated Glass-Fiber Optical Network) "videotelephony network from 1981 to 1988, serving several large German cities, and also created one of Europe's first public switched broadband services in 1989.
AT&T Picturephone: 1964
In the United States "AT&T's "Bell Labs conducted extensive research and development of videophones, eventually leading to public demonstrations of its trademarked Picturephone product and service in the 1960s. Its "large Manhattan experimental laboratory devoted years of technical research during the 1930s, led by Dr. "Herbert Ives along with his team of more than 200 scientists, engineers and technicians. The Bell Labs early experimental model of 1930 had transmitted "uncompressed video through multiple phone lines, a highly impractical and expensive method unsuitable for commercial use.
During the mid-1950s, its laboratory work had produced another early test prototype capable of transmitting still images every two seconds over regular analog "PSTN telephone lines. The images were captured by the Picturephone's compact "Vidicon camera and then transferred to a storage tube or magnetic drum for transmission over regular phone lines at two-second intervals to the receiving unit, which displayed them on a small cathode-ray television tube. AT&T had earlier promoted its experimental video for telephone service at the "1939 New York World's Fair.
The more advanced Picturephone Mod I's early promotion included public evaluation displays at "Disneyland and the "1964 New York World's Fair, with the first transcontinental videocall between the two venues made on April 20, 1964. The first Picturephone 'Mod I' (Model No. 1) demonstration units used small oval housings on swivel stands, intended to stand on desks. Similar AT&T Picturephone units were also featured at the "Telephone Pavilion (also called the "Bell Telephone Pavilion") at "Expo 67, an International World's Fair held in "Montreal, Canada in 1967. Demonstration units were available at the fairs for the public to test, with fairgoers permitted to make videophone calls to volunteer recipients at other locations.
Right side view, housing removed, one of its "printed circuit boards exposed. (Courtesy: Richard Diehl)
The United States would not see its first public videophone booths until 1964, when AT&T installed their earliest commercial videophone units, the Picturephone "Mod I", in booths that were set up in New York's "Grand Central Terminal, Washington D.C., and Chicago. Its system was the result of decades of research and development at Bell Labs, its principal supplier, "Western Electric, plus other researchers working under contract to the Bell Labs. However the use of reservation time slots and their cost of US$16 (Washington, D.C. to New York) to $27 (New York to Chicago) (equivalent to $118 to $200 in 2012 dollars) for a three-minute call at the public videophone booths greatly limited their appeal resulting in their closure by 1968.
Picturephones were also later installed in the offices of "Westinghouse and "Alcoa in Pittsburgh, as well as other technology companies in that city. AT&T's commercial service in Pittsburgh started on June 30, 1970 with 38 Picturephones at eight companies, at a lease rate of $160 per month ($947/month in 2012 dollars) for the service, which provided for 30 minutes of videocalling time per month, with extra minutes costing 25 cents each.[Note 3]
Color on AT&T's Picturephone was not employed with their early models. These Picturephone units packaged "Plumbicon cameras and small "CRT displays within their housings. The cameras were located atop their screens to help users see eye to eye. Later generation display screens were larger than in the original demonstration units, approximately six inches (15 cm) square in a roughly cubical cabinet.
- Further information: "Picturephone technology
Lack of Picturephone success
At the time of its first launch, AT&T foresaw a hundred thousand Picturephones in use across the Bell System by 1975 . However, by the end of July 1974, only five Picturephones were being leased in Pittsburgh, and U.S.-wide there were only a few hundred, mostly in Chicago. Unrelated difficulties at "New York Telephone also slowed AT&T's efforts, and few customers signed up for the service in either city. At its peak Picturephone service had only about 500 subscribers, with the service fading away through the 1970s.
AT&T's initial Picturephone 'Mod I' (Model No. 1) and then its upgraded 'Mod II' programs, were a continuation of its many years of prior research during the 1920s, 1930s, late-1940s and the 1950s. Both Picturephone programs, like their experimental AT&T predecessors, were researched principally at its "Bell Labs, formally spanned some 15 years and consumed more than US$500 million,[Note 4] eventually meeting with commercial failure. AT&T concluded that its early Picturephone was a "concept looking for a market" and discontinued its 'Mod II' service in the late 1970s.
AT&T would later market its VideoPhone 2500 to the general public from 1992 to 1995 with prices starting at "US$1,500 (approximately $2,560 in current dollars) and later dropping to $1,000 ($1,660 in current dollars), marketed by its Global VideoPhone Systems unit. The VideoPhone 2500 was designed to provide low-frame rate compressed color video on ordinary "Plain Old Telephone Service (POTS) lines, circumventing the significantly higher cost "ADSL telephone service lines used by several other videoconferencing manufacturers. Again, AT&T met with very little commercial success, selling only about 30,000 units, mainly outside the United States.
Despite AT&T's various videophone products meeting with commercial failure, they were widely viewed as technical successes which expanded the limits of the telecommunications sciences in several areas. Its videotelephony programs were critically acclaimed for their technical brilliance and even the novel uses they experimented with. The research and development programs conducted by Bell Labs were highly notable for their beyond-the-state-of-the-art results produced in "materials science, advanced "telecommunications, "microelectronics and "information technologies.
AT&T's published research additionally helped pave the way for other companies to later enter the field of "videoconferencing. The company's videophones also generated significant media coverage in science journals, the general news media and in popular culture. The image of a futuristic AT&T videophone being casually used in the science fiction film "2001: A Space Odyssey, became iconic of both the movie and, arguably, the public's general view of the future.
Other early videophones: 1968–1999
Beginning in the late 1960s, several countries worldwide sought to compete with AT&T's advanced development of its Picturephone service in the United States. However such projects were research and capital intensive, and fraught with difficulties in being deployed commercially. This time period also saw the research, development and commercial roll-out of what would become powerful video compression and decompression software "codecs, which would eventually lead to low cost "videotelephony in the early 2000s.
France's post office telecommunications branch had earlier set up a commercial videophone system similar to the German "Reichspost public videophone system of the late 1930s. In 1972 the defense and electronics manufacturer "Matra was one of three French companies that sought to develop advanced videophones in the early 1970s, spurred by the AT&T's Picturephone in the United States. Initial plans by Matra included the deployment of 25 units to France's "Centre national d'études des télécommunications (CNET of "France Télécom) for their internal use. CNET intended to guide its initial use towards the business sector, to be later followed by personal home usage. Its estimated unit cost in 1971 was the equivalent of £325, with a monthly usage subscription charge of £3.35.
Studies of applications of "videotelephony were conducted by CNET in France in 1972, with its first commercial applications for videophones appearing in 1984. The delay was due to the problem of insufficient bandwidth, with 2 Mb per second being required for transmitting both video and audio signals. The problem was solved worldwide by the creation of software for data encoding and compression via "video coding and decoding algorithms, also known as codecs.
In Japan the Lumaphone was developed and marketed by Mitsubishi in 1985. The project was originally started by the Ataritel division of the "Atari Video Game Company in 1983 under the direction of Atari's Steve Bristow. Atari then sold its division to "Mitsubishi Electric in 1984. The Lumaphone was marketed by Mitsubishi Electric of America in 1986 as the Luma LU-1000, costing US$1,500,  designed with a small black and white video display, approximately 4 centimetres (1.6 in) in size, and a video camera adjacent to the display which could be blocked with a sliding door for privacy. Although promoted as a 'videophone', it operated similar to "Bell Labs' early experimental image transfer phone of 1956, transmitting still images every 3–5 seconds over analog "POTS lines. It could also be hooked up to a printer or connected to a regular TV or monitor for improved "teleconferencing.
Mitsubishi also marketed its lower-cost VisiTel LU-500 image phone in 1988 costing about US$400, aimed at the consumer market. It came with reduced capabilities but had with a larger black and white display. Other Japanese electronic manufacturers marketed similar image transfer phones during the late-1980s, including Sony's PCT-15 (US$500), and two models from Panasonic, its WG-R2 (US$450) and its KX-TV10 (US$500).
Much later the "Kyocera Corporation, an electronics manufacturer based in Kyoto, conducted a two-year development campaign from 1997 to 1999 that resulted in the release of the VP-210 VisualPhone, the world's first mobile colour videophone that also doubled as a "camera phone for still photos. The camera phone was the same size as similar contemporary "mobile phones, but sported a large camera lens and a 5 cm (2 inch) colour "TFT display capable of displaying 65,000 colors, and was able to process two video frames per second. The 155 gram (5.5 oz.) camera could also take 20 photos and convey them by e-mail, with the camera phone retailing at the time for 40,000 yen, about US$325 in 1999.
The VP-210 was released in May 1999 and used its single front-facing 110,000-pixel camera to send two images per second through Japan's PHS mobile phone network system. Although its frame rate was crude and its memory is considered tiny in the present day, the phone was viewed as "revolutionary" at the time of its release.
The Kyocera project was initiated at their Yokohama research and development center by Kazumi Saburi, one of their section managers. His explanation for the project was "Around that time, cellular handsets with enabled voice and SMS communication capabilities were considered to be just one among many personal communication tools. One day a simple idea hit us - 'What if we were able to enjoy talking with the intended person watching his/her face on the display?' We were certain that such a device would make cell phone communications much more convenient and enjoyable."
Saburi also stated that their R&D section had "nourished [the idea] for several years before" they received project approval from their top management which had encourage such forward-thinking research, because they "also believed that such a product would improve Kyocera's brand image." Their research showed that a "cell phone with a camera and color display provided a completely new value for users, It could be used as a phone, a camera and a photo album".
Technical challenges handled by about a dozen engineers at Kyocera over the two year development period included the camera module's placement within the phone at a time when electronic components had not been fully reduced in size, as well as increasing its data transmission rate. After its release the mobile video-camera phone was commercially successful, spawning several other competitors such as the "DDI Pocket, and one from "Vodafone K.K.
In Sweden, electronics maker "Ericsson began developing a videophone in the mid-1960s, intending to market it to government, institutions, businesses and industry, but not to consumers due to AT&T's lack of success in that market segment. Tests were conducted in "Stockholm, including trial communications in banking. Ultimately Ericsson chose not to proceed with further production.
In 1970 the British "General Post Office had 16 demonstration models of its Viewphone built, meant to be the equivalent to AT&T's Picturephone. Their initial attempt at a first generation commercial videophone later lead to the "British Telecom Relate 2000, which was released for sale in 1993, costing between £400-£500 each. The Relate 2000 featured a 74 millimetres (2.9 in) flip-up colour LCD display screen operating at a nominal rate of 8 video frames per second, which could be depressed to 3-4 frames per second if the PSTN bandwidth was limited. In the era prior to low-cost, high-speed broadband service, its video quality was found to be generally poor by the public with images shifting jerkily between frames, due to British phone lines that generally provided less than 3.4 kHz of bandwidth. British Telecom had initially expected the device, manufactured by "Marconi Electronics, to sell at a rate of 10,000 per year, but its actual sales were minimal. Its second generation videophone thus also proved to be commercially unsuccessful, similar to AT&T's "VideoPhone 2500 of the same time period.
Videophone improvements: post-2000
Significant improvements in "video call quality of service for the "deaf occurred in the United States in 2003 when "Sorenson Media Inc. (formerly Sorenson Vision), a video compression software coding company, developed its VP-100 model stand-alone videophone specifically for the "deaf community. It was designed to output its video to the user's television in order to lower the cost of acquisition, and to offer remote control and a powerful "video compression codec for unequaled video quality and ease of use with a video relay service (VRS). Favourable reviews quickly led to its popular usage at educational facilities for the deaf, and from there to the greater deaf community.
Coupled with similar high-quality videophones introduced by other electronics manufacturers, the "availability of high speed Internet, and "sponsored video relay services authorized by the U.S. "Federal Communications Commission in 2002, VRS services for the deaf underwent rapid growth in that country.
Current videophone usage
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The widest deployment of video telephony now occurs in "mobile phones, as nearly all mobile phones supporting "UMTS networks can work as videophones using their internal cameras, and are able to make video calls wirelessly to other UMTS users in the same country or internationally.["citation needed] As of the second quarter of 2007, there are over 131 million UMTS users (and hence potential videophone users), on 134 networks in 59 countries.["citation needed]
Videophones are increasingly used in the provision of "telemedicine to the elderly and to those in remote locations, where the ease and convenience of quickly obtaining diagnostic and consultative medical services are readily apparent. In one single instance quoted in 2006: "A nurse-led clinic at Letham has received positive feedback on a trial of a video-link which allowed 60 "pensioners to be assessed by medics without travelling to a doctor's office or medical clinic." A further improvement in telemedical services has been the development of new technology incorporated into special videophones to permit remote diagnostic services, such as "blood sugar level, "blood pressure and "vital signs monitoring. Such units are capable of relaying both regular audiovideo plus medical data over either standard ("POTS) telephone or newer "broadband lines.
Videotelephony has also been deployed in corporate "teleconferencing, also available through the use of public access videoconferencing rooms. A higher level of videoconferencing that employs advanced telecommunication technologies and high-resolution displays is called "telepresence.
Today the principles, if not the precise mechanisms of a videophone are employed by many users worldwide in the form of "webcam videocalls using personal computers, with inexpensive webcams, microphones and free videocalling "Web client programs. Thus an activity that was disappointing as a separate service has found a niche as a minor feature in software products intended for other purposes.
According to Juniper Research, smartphone videophone users will reach 29 million by 2015 globally.
A study conducted by Pew Research in 2010, revealed that 7% of Americans have made a mobile video call.
Sign language communications via videophones
One of the first demonstrations of the ability for "telecommunications to help sign language users communicate with each other occurred when "AT&T's videophone (trademarked as the "Picturephone") was introduced to the public at the "1964 New York World's Fair –two deaf users were able to communicate freely with each other between the fair and another city. Various universities and other organizations, including "British Telecom's Martlesham facility, have also conducted extensive research on "signing via videotelephony.
The use of sign language via "videotelephony was hampered for many years due to the difficulty of its use over slow "analogue copper phone lines, coupled with the high cost of better quality "ISDN (data) phone lines. Those factors largely disappeared with the introduction of more efficient "video codecs and the advent of lower cost high-speed ISDN data and "IP (Internet) services in the 1990s.
21st century improvements for signing
Significant improvements in "video call quality of service for the deaf occurred in the United States in 2003 when Sorenson Media Inc. (formerly Sorenson Vision Inc.), a video compression software coding company, developed its VP-100 model stand-alone videophone specifically for the deaf community. It was designed to output its video to the user's television in order to lower the cost of acquisition, and to offer remote control and a powerful proprietary "video compression codec for unequaled video quality and ease of use with video relay services. Favourable reviews quickly led to its popular usage at educational facilities for the deaf, and from there to the greater deaf community.
Coupled with similar high-quality videophones introduced by other electronics manufacturers, the "availability of high speed Internet, and "sponsored video relay services authorized by the U.S. "Federal Communications Commission in 2002, VRS services for the deaf underwent rapid growth in that country.
Present day usage by signers
Using such video equipment in the present day, the deaf, hard-of-hearing and speech-impaired can communicate between themselves and with hearing individuals using "sign language. The United States and several other countries compensate companies to provide "Video Relay Services" (VRS). Telecommunication equipment can be used to talk to others via a sign language interpreter, who uses a conventional telephone at the same time to communicate with the deaf person's party. Video equipment is also used to do on-site sign language translation via "Video Remote Interpreting (VRI). The relative low cost and widespread availability of "3G "mobile phone technology with video calling capabilities have given deaf and speech-impaired users a greater ability to communicate with the same ease as others. Some wireless operators have even started free sign language gateways.
Sign language interpretation services via VRS or by VRI are useful in the present-day where one of the parties is "deaf, "hard-of-hearing or "speech-impaired (mute). In such cases the interpretation flow is normally within the same principal language, such as "French Sign Language (LSF) to spoken French, "Spanish Sign Language (LSE) to spoken Spanish, "British Sign Language (BSL) to spoken English, and "American Sign Language (ASL) also to spoken English (since BSL and ASL are completely distinct to each other), and so on.
"Multilingual "sign language interpreters, who can also translate as well across principal languages (such as to and from SSL, to and from spoken English), are also available, albeit less frequently. Such activities involve considerable effort on the part of the translator, since sign languages are distinct "natural languages with their own "construction, "semantics and "syntax, different from the aural version of the same principal language.
With video interpreting, "sign language interpreters work remotely with live "video and "audio feeds, so that the interpreter can see the deaf or mute party, and converse with the hearing party, and vice versa. Much like "telephone interpreting, video interpreting can be used for situations in which no on-site "interpreters are available. However, video interpreting cannot be used for situations in which all parties are speaking via telephone alone. VRS and VRI interpretation requires all parties to have the "necessary equipment. Some advanced equipment enables interpreters to control the video camera remotely, in order to "zoom in and out or to point the camera toward the party that is signing.
Videophones have historically employed a variety of transmission and reception bandwidths, which can be understood as data transmission speeds. The lower the transmission/reception bandwidth, the lower the data transfer rate, resulting in a more limited and poorer image quality. Data transfer rates and live video image quality are related, but are also subject to other factors such as "data compression techniques. Some early videophones employed very low data transmission rates with a resulting sketchy video quality.
Broadband bandwidth is often called "high-speed", because it usually has a high rate of data transmission. In general, any connection of 256 kbit/s (0.256 Mbit/s) or greater is more concisely considered broadband Internet. The "International Telecommunication Union Standardization Sector ("ITU-T) recommendation I.113 has defined broadband as a transmission capacity at 1.5 to 2 Mbit/s. The "United States Federal Communications Commission definition of broadband is 25 Mbit/s.
Currently, adequate video for some purposes becomes possible at data rates lower than the ITU-T broadband definition, with rates of 768 kbit/s and 384 kbit/s used for some video conferencing applications, and rates as low as 100 kbit per second used for videophones using "H.264/MPEG-4 AVC compression protocols. The newer "MPEG-4 "video and "audio compression format can deliver high-quality video at 2 Mbit/s, which is at the low end of "cable modem and "ADSL broadband performance.["citation needed]
The Picturephone's video bandwidth was 1 "MHz with a "vertical scan rate of 30 Hz, "horizontal scan rate of 8 kHz, and about 250 visible scan lines.["citation needed] The equipment included a "speakerphone (hands free telephone), with an added box to control picture transmission. Each Picturephone line used three "twisted pairs of ordinary telephone cable, two pairs for video and one for audio and signaling. Cable amplifiers were spaced about a mile apart (1.6 kilometres) with built-in six-band adjustable "equalization filters. For distances of more than a few miles, the signal was digitized at 2 MHz and 3 bits per sample "DPCM, and transmitted on a "T-2 carrier.
The original Picturephone system used contemporary crossbar and multi-frequency operation. Lines and trunks were six wire, one pair each way for video and one pair two way for audio. MF address signaling on the audio pair was supplemented by a Video Supervisory Signal (VSS) looping around on the video quad to ensure continuity. More complex protocols were later adopted for conferencing.
To deploy Picturephone service new wideband "crossbar switches were designed and installed into the "Bell System's "5XB switch offices, this being the most widespread of the relatively modern kind. Hundreds of technicians attended schools to learn to operate the Cable Equalizer Test Set and other equipment, and to install Picturephones.
AT&T later marketed its colour VideoPhone 2500 to the general public from 1992 to 1995. It was limited by analog phone line connection speeds of about 19 Kilobits per second, the video portion being 11,200 bit/s, and with a maximum frame rate of 10 frames per second, but typically much slower, as low as a third of a video frame per second. The VideoPhone 2500 used proprietary technology protocols, including AT&T's Global VideoPhone Standard (GVS).
Videoconferencing in the late 20th century was limited to the "H.323 protocol (notably Cisco's "SCCP implementation was an exception), but newer videophones often use "SIP, which is often easier to set up in home networking environments. It is a text-based protocol, incorporating many elements of the "Hypertext Transfer Protocol (HTTP) and the "Simple Mail Transfer Protocol (SMTP). H.323 is still used, but more commonly for business videoconferencing, while SIP is more commonly used in personal consumer videophones. A number of call-setup methods based on "instant messaging protocols such as "Skype also now provide video.
Another protocol used by videophones is "H.324, which mixes call setup and video compression. Videophones that work on regular phone lines typically use H.324, but the bandwidth is limited by the modem to around 33 kbit/s, limiting the video quality and frame rate. A slightly modified version of H.324 called "3G-324M defined by "3GPP is also used by some cellphones that allow video calls, typically for use only in "UMTS networks.
There is also "H.320 standard, which specified technical requirements for narrow-band visual telephone systems and terminal equipment, typically for videoconferencing and videophone services. It applied mostly to dedicated circuit-based switched network (point-to-point) connections of moderate or high bandwidth, such as through the medium-bandwidth "ISDN digital phone protocol or a fractionated high bandwidth T1 lines. Modern products based on H.320 standard usually support also H.323 standard.
The "IAX2 protocol also supports videophone calls natively, using the protocol's own capabilities to transport alternate media streams. A few hobbyists obtained the Nortel 1535 Color SIP Videophone cheaply in 2010 as surplus after Nortel's bankruptcy and deployed the sets on the "Asterisk (PBX) platform. While additional software is required to patch together multiple video feeds for conference calls or convert between dissimilar video standards, SIP calls between two identical handsets within the same PBX were relatively straightforward.
In science fiction literature, names commonly associated with videophones include viewphone, vidphone, vidfone, and visiphone. In many "science fiction "movies and TV programs that are set in the future, videophones were used as a primary method of communication. One of the first movies where a videophone was used was "Fritz Lang's "Metropolis (1927).
Other notable examples of videophones in popular culture include an iconic scene from "2001: A Space Odyssey set on "Space Station V. The movie was released shortly before AT&T began its efforts to commercialize its Picturephone Mod II service in several cities and depicts a videocall to Earth using an advanced AT&T videophone—which it predicts will cost $1.70 for a two-minute call in 2001 (a fraction of the company's real rates on Earth in 1968). Film director "Stanley Kubrick strove for scientific accuracy, relying on interviews with scientists and engineers at "Bell Labs in the United States. Dr. "Larry Rabiner of Bell Labs, discussing videophone research in the documentary 2001: The Making of a Myth, stated that in the mid-to-late-1960s videophones "...captured the imagination of the public and... of Mr. Kubrick and the people who reported to him." In one 2001 movie scene a central character, Dr. Heywood Floyd, calls home to contact his family, a social feature noted in the Making of a Myth. Floyd talks with and views his daughter from a "space station in "orbit above the Earth, discussing what type of present he should bring home for her.
A portable videophone is also featured prominently in the 2009 science fiction movie "Moon, where the story's protagonist, Sam Bell, also calls home as well to communicate with loved ones. Bell, the lone occupant of a mining station on the far side of the Earth's moon, finally succeeds in making his videocall after an extended work period, but becomes traumatized when viewing his daughter.
Other popular science fiction stories with videophones include "Space: 1999, "Star Trek, "Total Recall, "Blade Runner, and "Firefly. The videophone was a staple, everyday technology in the futuristic 1960s "Hanna Barbera cartoon "The Jetsons.
Other earlier examples of videophones in popular culture included a videophone that was featured in the "Warner Bros. cartoon, "Plane Daffy, in which the female spy "Hatta Mari used a videophone to communicate with "Adolf Hitler (1944), as well as a device with the same functionality has been used by the "comic strip character Dick Tracy. Called the '2-Way Wrist TV', the fictional detective often used the phone to communicate with police headquarters (1964–1977).
By the early 2010s "videotelephony and videophones had become commonplace and unremarkable in various forms of media, in part due to their real and ubiquitous presence in common electronic devices and laptop computers. Additionally, TV programming increasingly utilized videophones to interview subjects of interest and to present live coverage by news correspondents, via the Internet or by satellite links. In the mass market media, the popular U.S. "TV talk show hostess "Oprah Winfrey incorporated videotelephony into her TV program on a regular basis from May 21, 2009, with an initial episode called Where the Skype Are You?, as part of a marketing agreement with the Internet telecommunication company "Skype.
Additionally, videophones have been featured in:
- "E.M. Forster's 1909 short story "The Machine Stops is set in a dystopian future in which, for the most part, human interaction has been reduced to communication via a kind of videoconferencing device called the "speaking apparatus";
- the 1935 British sci-fi film, "The Tunnel, in which a videophone device (termed a "televisor") is in common use in the mid-20th century.
- several episodes of "Thunderbirds (1965–66). These were shown to also have an audio-only setting, which was indicated by the words SOUND ONLY SELECTED being displayed on the screen;
- the British cartoon "DangerMouse, where the title character regularly communicated with headquarters via videophones from both his home and his car (1981–1992);
- the movie "Gremlins 2: The New Batch, where AT&T's VideoPhone 2500 "prototypes are visible (1990);
- ""Lisa's Wedding", an episode of "The Simpsons which depicted a Picturephone (1995).
- the popular television series "Pee-Wee's Playhouse, "Pee-wee Herman often made and received calls on a videophone-like 'magic screen' (1986–1990);
- the movie "Back to the Future Part II, where the future Marty McFly is contacted by Needles, his coworker, and then by his boss Mr. Fujitsu, via videophone (1989);
- the movie "Demolition Man, where the action was referred to as "fiberop";
- the movie "Spaceballs, which used the potential intrusiveness to humorous effect;
- the movie "Aliens, in the early scenes on the space station;
- the movie "Seven Days in May made in 1964, in which the president of the United States uses a videophone in the near future (early 1970's.)
- the novel "Infinite Jest, where the videophone (specifically the fall of the videophone) is spoken of extensively (1996);
- the animated television program "Futurama, where the videophone is often used within the delivery service spaceship (1999 – present);
- "Teenage Mutant Ninja Turtles (1987 TV series) The Turtle Comm cellphone devices have video phones on them and are often used by the 4 mutant turtles to contact April O Neil, Shredder, Krang, Rocksteady and Bebop also use video phones on their cellphone devices.
- "ReBoot 1991 TV series. Video phones are often used by Bob, Dot and Enzo and even by Megabyte to contact each other in the city Mainframe.
- the "Pokémon anime series, where Videophones were occasionally used (2006–2011);
- a "Beyoncé Knowles pop single and music video called ""Video Phone" from her album I am... Sasha Fierce (2008).
|""||Wikimedia Commons has media related to Videophones.|
- Although the pseudonymous letter was accompanied by a technical description of how the telectroscope would work and was published in a reputable New York newspaper, researchers later noted that it was published close to "April Fools Day and believed the article was submitted as an elaborate hoax.
- One such demonstration that likely omitted any signal compression was performed in Mobile, Alabama on April 27, 1938. An Alabama news article reported that a "...technician of the American Television Institute, [promoted a videophone from a display booth for] the Roche Home Equipment Company... and through the medium of a scientific marvel... flashed a living picture over an ordinary telephone wire. Forming a practical insight into things that are to come, the television contrivance afforded a small, but clear, picture of speakers at each end of the wire."
- Several uses of the Picturephone were novel and ahead of their time. At Alcoa in Pittsburgh, their Picturephone system was integrated into the company's corporate "Information Technology system under its APRIS, or Alcoa Picturephone Remote Information System. APRIS let users retrieve information from Alcoa's databases, controlled by the buttons on their "touch-tone telephones, with the data being presented on their Picturephone's video display, long before computer monitors came into popular use. AT&T's Bell Labs would also soon experiment with multiple users on the same videocall, creating one of the earliest forms of "videoconferencing.
- The $500M figure is attributed only to the AT&T and Bell Labs' 15 year program covering its Picturephone Mod I and Mod II versions. Earlier videotelephony programs during the later half of the 1920s, the 1930s, late-1940s and the 1950s, plus the AT&T VideoPhone 2500 model program of the late-1980s led to a cumulative cost which approached, by some estimates, one billion dollars in total for all videotelephony development.
- Videophone definition, Merriam-Webster Online. Retrieved April 13, 2009
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- Howell, Peter. The Lasting Appeal of 2001: A Space Odyssey, "Toronto Star website, November 1, 2014; also published in print as "Forever 2001: Why Stanley Kubrick's Sci-Fi Masterpience Is More Popular Now Than In 1968", November 1, 2014, p. E1, E10. Retrieved November 2, 2014 from TheStar.com. Quote: "Public esteem and critical estimation of 2001 has grown steadily ever since, even as the title date has come and gone with very few of its far-out advancements having been realized — although.... innovations like iPads and Skyping have finally caught up with Kubrick's view of future living. [2001 actor] Lockwood marvels at how he's now able to Skype his wife and daughter, just as he does his movie parents in the space-to-Earth communication scene in 2001."
- Mulbach, 1995. Pg. 291.
- Solomon Negash, Michael E. Whitman. Editors: Solomon Negash, Michael E. Whitman, Amy B. Woszczynski, Ken Hoganson, Herbert Mattord. Handbook of Distance Learning for Real-Time and Asynchronous Information Technology Education, Idea Group Inc (IGI), 2008, p. 17, "ISBN 1-59904-964-3, "ISBN 978-1-59904-964-9. Note costing: "....students had the option to install a webcam on their end (a basic webcam costs about $40.00) to view the class in session."
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- "Motion Media Unveils Two New Healthcare Videophones -- CareStation 156s and CareStation 126s", Business Wire, May 3, 2004.
- Smartphone Video Call Users to reach 29 million by 2015 Globally, finds Juniper Research
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- How to use your Picturephone
- RFC 4168, The Stream Control Transmission Protocol (SCTP) as a Transport for the Session Initiation Protocol (SIP), IETF, The Internet Society (2005)
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- French, Lawrence. Director Fritz Lang on the Making of Metropolis, May 15, 2010, retrieved from CinemaFantastique website, April 8, 2012.
- 2001: The Making of a Myth, (TV Documentary) first released on 13 January 2001 (UK), presented and narrated by "James Cameron; directed by Paul Joyce under "Jamie Doran (video sequence from 0:23:00 to 0:24:20).
- Agel, Jerome (1970). The Making of Kubrick's 2001. Signet. "ISBN "0-451-07139-5.
- Kolker, Robert (ed.), ed. (2006). Stanley Kubrick's 2001: A Space Odyssey: New Essays. Oxford & New York: Oxford University Press. "ISBN "0-19-517453-4.
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- Garyn G. Roberts, Dick Tracy and American Culture: Morality and Mythology, Text and Context, McFarland, 2003.
- Phil Wolff, Why Oprah's Skype Day Was Ineffective: Tone And Skype, Skype Journal online, May 27, 2009. Retrieved October 22, 2009.
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- Lisa's Wedding BBC.co.uk. Retrieved on March 20, 2007.
- in the Albert Brooks movie "Mother, the character played by Rob Morrow buys the mother a picture phone, thereby "showing up" the brother played by Brooks
- Burns, R.W., Television: An International History of the Formative Years in IEE Publication Series, "Institution of Electrical Engineers, "Science Museum (Great Britain), 1998, "ISBN 0-85296-914-7, "ISBN 978-0-85296-914-4
- Daly, Edward A. & Hansell, Kathleen J. Visual Telephony, Artech House, Boston, 1999, "ISBN 1-58053-023-0, "ISBN 978-1-58053-023-1, CIPD HD9697.T452D35 651.7'3-dc21.
- Mulbach, Lothar; Bocker, Martin; Prussog, Angela (1995). "Telepresence in Videocommunications: A Study on Stereoscopy and Individual Eye Contact". Human Factors. 37 (2): 290.
- Nellist, John G. Understanding Telecommunications And Lightwave Systems: An Entry-Level Guide, "John Wiley and Sons, IEEE Press, 2002, "ISBN 0-471-15032-0, "ISBN 978-0-471-15032-9.
- Schnaars, Steve; Wymbs, Cliff (2004). "On The Persistence Of Lackluster Demand – The History Of The Video Telephone". Technological Forecasting and Social Change. 71 (3): 197–216. "doi:10.1016/S0040-1625(02)00410-9.
- Shepard, Steven. Videoconferencing Demystified: Making Video Services Work, "McGraw-Hill Professional, 2002, "ISBN 0-07-140085-0, "ISBN 978-0-07-140085-5
- Stevenson Bacon, W. Amazing New Picturephone: A Step Closer to In-Person Visits, '"Popular Science, June 1968, pp. 46–47.
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- Bajaj, Vikas. Transparent Government, Via Webcams in India, "The New York Times, July 18, 2011, p. B3, published online: July 17, 2011.
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- Fairlie, Rik. Skype Puts Video Calls on Your TV, "The New York Times, July 2, 2010.
- Hoffman, Jan. When Your Therapist Is Only a Click Away, "The New York Times, September 25, 2011, p. ST1. Also published September 23, 2011 online at www.nytimes.com.
- Miller, Hugh."Videophones: The Real Problem". Archived from the original on 2002-06-16. Retrieved 2002-06-16. , Department of Social Sciences, "Nottingham Trent University, June 16, 2002. Discusses social issues related to videotelephony.
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- Saint Louis, Catherine. With Enough Bandwidth, Many Join The Band, "The New York Times, January 10, 2012 (online), January 11, 2012 (in print, New York Edition, pg. A1). Retrieved online January 11, 2012. Synopsis: a look at the pros and cons of videotelephony used for private, individual, music lessons.
- Steinberg, Neil. Dude, Where's My Video Phone?, "Forbes.com website, October 15, 2007.
Historical and technical
- Ebel, H. "Subjective Assessment of Picture Interference in the Videophone" in 4th International Symposium on Human Factors in Telephony, Bad Wiessee, Germany, September 23–27, 1968, Information Gatekeepers Inc., pp. 289–298.
- Fischer, K.; Ebel, H.; "Problems Of How To Position Users In Front Of The Videophone" in: 4th International Symposium on Human Factors in Telephony, Bad Wiessee, Germany, September 23–27, 1968, Information Gatekeepers Inc., pp. 269–282.
- Hall, A.D. "Experiments with Picturephone Service" in: Bell Laboratories RECORD, 1964, Vol. 42, pp. 114–120.
- "Ives, Herbert E. Two-Way Television and a Pictorial Account of its Background in: Bell Laboratories Record, 1930, Vol. 8, pp. 399–404, and viewable online here.
- "Ives, Herbert E.. Picture Transmission and Television in: Bell Labs Quarterly, April 1932, Vol. 11, pp. 118–142.
- Jaur, Francis. "Usage Domestiques du Visiophone", Technologies de l’Information et Société, 2, 1990, pp. 89–102. (French)
- Schunack, Von Johannes; Maly, Rolf. Die Fernseh-Sprechtechnik in: Fernseh A.G.: 10 Jahre, Berlin: Hausmitteilungen Aus Forshunsg Und Betrieb Der Fernseh Aktiengellschaft, July 1939, pp. 138–143. (PDF, German)
- Schulte, Olaf A. "The Next Best Thing To Being There" – Ein Überblick Zu 25 Jahren Videokonferenzforschung (An Overview of 25 years of videoconferencing research) in: Medien & Kommunikations-wissenschaft, Baden-Baden: "Hans-Bredow-Institut, April 2002, pp. 551–570 (PDF, German).
|""||Look up videophone in Wiktionary, the free dictionary.|
- Debut of the First Picturephone, 1970 video courtesy of AT&T Archives and History Center, Warren, N.J.
- British Pathé news clip: Videophone 1970, a movie reel news clip on the assembly and demonstration of a prototype British General Post Office 'Viewphone' at Taplow, Buckinghamshire; (February 1, 1970; video, 1:16 seconds length)
- TVTropes.org: Video Phone, includes extensive lists of videophones used in popular culture
- Wirlpool Forums: Movies that feature videophones
- Finnish 1980s videophone development at YLE Elävä arkisto (YLE Living Archives)