Videotelephony


Videotelephony is the use of audio and video for simultaneous two-way communication.
Videophones were standalone devices for video calling. As smartphones and computers have become capable of video calling, the demand for a separate category of videophones has disappeared.
Videoconferencing implies group communication and is used in telepresence, the goal of which is to create the illusion that remote participants are in the same room.
The concept of videotelephony was conceived in the late 19th century, and versions were demonstrated to the public starting in the 1930s. In April, 1930, reporters gathered at AT&T corporate headquarters on Broadway in New York City for the first public demonstration of two-way video telephony. The event linked the headquarters building with a Bell laboratories building on West Street.Early demonstrations were installed at booths in post offices and shown at world expositions. AT&T demonstrated Picturephone at the 1964 World’s Fair in New York City. In 1970, AT&T launched Picturephone as the first commercial personal videotelephone system. In addition to videophones, there existed image phones which exchanged still images between units every few seconds over conventional telephone lines. The development of advanced video codecs, more powerful CPUs, and high-bandwidth Internet service in the early 2000s allowed the new category of smartphones to provide high-quality low-cost color service between users almost anywhere in the world, eliminating the videophone as a separate product concept.
Applications of videotelephony include sign language transmission for deaf and speech-impaired people, distance education, telemedicine, and overcoming mobility issues. News media organizations have used videotelephony for broadcasting.

History

Origin

The concept of videotelephony was first conceived in the late 1870s, both in the United States and in Europe, although the basic sciences to permit its very earliest trials would take nearly a half century to be discovered. The prerequisite knowledge arose from intensive research and experimentation in several telecommunication fields, notably electrical telegraphy, telephony, radio, and television.

Early systems

Simple analog videophone communication could be established as early as the invention of the television. Such an antecedent usually consisted of two closed-circuit television systems connected via coax cable or radio. An example of that was the German Reich Postzentralamt videotelephone network serving Berlin and several German cities via coaxial cables between 1936 and 1940.
Gregorio Y. Zara, a Filipino scientist, invented the first videophone in 1954, which was patented in 1955 as a "photo phone signal separator network." He is recognized as the Father of Videoconferencing for his pioneering contribution to the development of videotelephony technology.
The development of videotelephony as a subscription service started in the latter half of the 1920s in the United Kingdom and the United States, spurred notably by John Logie Baird and AT&T's Bell Labs. This occurred in part, at least with AT&T, to serve as an adjunct supplementing the use of the telephone. A number of organizations believed that videotelephony would be superior to plain voice communications. Attempts at using normal telephony networks to transmit slow-scan video, such as the first systems developed by AT&T Corporation, first researched in the 1950s, failed mostly due to the poor picture quality and the lack of efficient video compression techniques.
During the first crewed space flights, NASA used two radio-frequency video links, one in each direction. TV channels routinely use this type of videotelephony when reporting from distant locations. The news media were to become regular users of mobile links to satellites using specially equipped trucks, and much later via special satellite videophones in a briefcase. This technique was very expensive, though, and was not adopted for applications such as telemedicine, distance education, and business meetings.
Decades of research and development culminated in the 1970 commercial launch of AT&T's Picturephone service, available in select cities. However, the system was a commercial failure, chiefly due to consumer apathy, high subscription costs, and lack of network effect—with only a few hundred Picturephones in the world, users had extremely few contacts they could actually call, and interoperability with other videophone systems would not exist for decades.
File:On Line System Videoconferencing FJCC 1968.jpg|thumb|Multiple user videoconferencing first being demonstrated with Stanford Research Institute's NLS computer technology

Digital

In the 1980s, digital telephony transmission networks became possible, such as with ISDN networks. During this time, there was also research into other forms of digital video and audio communication. Many of these technologies, such as the Media space, are not as widely used today as videoconferencing but were still an important area of research. The first dedicated systems started to appear as ISDN networks were expanding throughout the world. One of the first commercial videoconferencing systems sold to companies came from PictureTel Corp., which had an initial public offering in November, 1984.
In 1984, Concept Communication in the United States created a circuit board for standard personal computers that doubled the video frame rate of typical digital videotelephone systems from 15 to 30 frames per second, and reduced the cost from $100,000 to $12,000. The company also secured a patent for a codec for full-motion videoconferencing, first demonstrated at AT&T Bell Labs in 1986.
File:CUcollaboration.gif|thumb|right|Global Schoolhouse students communicating via CU-SeeMe, shown here with a video frame rate between 0.9 and 3 frames per second
Very expensive videoconferencing systems continued to rapidly evolve throughout the 1980s and 1990s. Proprietary equipment, software, and network requirements gave way to standards-based technologies that were available for anyone to purchase at a reasonable cost.
While videoconferencing technology was initially used primarily within internal corporate communication networks, one of the first community service uses of the technology started in 1992 through a unique partnership with PictureTel and IBM, which at the time were promoting a jointly developed desktop based videoconferencing product known as the PCS/1. Over the next 15 years, Project DIANE grew to use a variety of videoconferencing platforms to create a multi-state cooperative public service and distance education network consisting of several hundred schools, libraries, science museums, zoos and parks, and many other community-oriented organizations.

Transition to internet and mobile devices

Advances in video compression allowed digital video streams to be transmitted over the Internet, which was previously difficult due to the impractically high bandwidth requirements of uncompressed video. The DCT algorithm was the basis for the first practical video coding standard that was useful for online videoconferencing, H.261, standardised by the ITU-T in 1988, and subsequent H.26x video coding standards.
In 1992 CU-SeeMe was developed at Cornell by Tim Dorcey et al. In 1995 the first public videoconference between North America and Africa took place, linking a technofair in San Francisco with a techno-rave and cyberdeli in Cape Town. At the 1998 Winter Olympics opening ceremony in Nagano, Japan, Seiji Ozawa conducted the Ode to Joy from Beethoven's Ninth Symphony simultaneously across five continents in near-real-time.
Kyocera conducted a two-year development campaign from 1997 to 1999 that resulted in the release of the VP-210 Visual Phone, the 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 colour TFT display capable of displaying 65,000 colors, and was able to process two video frames per second.
Videotelephony was popularized in the 2000s via free Internet services such as Skype and iChat, web plugins supporting H.26x video standards, and online telecommunication programs that promoted low cost, albeit lower quality, videoconferencing to virtually every location with an Internet connection.
Videotelephony became even more widespread through the deployment of video-enabled mobile phones such as 2010s iPhone 4, plus videoconferencing and computer webcams which use Internet telephony. In the upper echelons of government, business, and commerce, telepresence technology, an advanced form of videoconferencing, has helped reduce the need to travel.

Additional history

In May 2005, the first high definition videoconferencing systems, produced by Lifesize, were displayed at the Interop trade show in Las Vegas, Nevada, able to provide video at 30 frames per second with a 1280 by 720 display resolution. Polycom introduced its first high definition videoconferencing system to the market in 2006. As of the 2010s, high-definition resolution for videoconferencing became a popular feature, with most major suppliers in the videoconferencing market offering it.
Technological developments by videoconferencing developers in the 2010s have extended the capabilities of videoconferencing systems beyond the boardroom for use with hand-held mobile devices that combine the use of video, audio and on-screen drawing capabilities broadcasting in real time over secure networks, independent of location. Mobile collaboration systems now allow people in previously unreachable locations, such as workers on an offshore oil rig, the ability to view and discuss issues with colleagues thousands of miles away. Traditional videoconferencing system manufacturers have begun providing mobile applications as well, such as those that allow for live and still image streaming.
The highest ever video call took place on May 19, 2013, when British adventurer Daniel Hughes used a smartphone with a BGAN satellite modem to make a videocall to the BBC from the summit of Mount Everest, at above sea level.
The COVID-19 pandemic resulted in a significant increase in the use of videoconferencing. Berstein Research found that Zoom added more subscribers during the first two months of 2020 alone than in the entire year 2019. GoToMeeting had a 20 percent increase in usage, according to LogMeIn. UK based StarLeaf reported a 600 percent increase in national call volumes. Videoconferencing became so widespread during the pandemic that the term Zoom fatigue came to prominence, referring to the taxing nature of spending long periods of time on videocalls. This fatigue refers to the psychological and physiological effects participants involved in videoconferencing. One experimental study from 2021 revealed a link between camera use in videoconferencing and a prediction of fatigue occurrence an individual. Furthermore, a 2022 article in the journal "Computers in Human Behaviour" highlighted a study linking negative attitudes with the use of "self-view" when videoconferencing.
On 21 September 2021, Facebook launched two new versions of its Portal video-calling devices, the Portal Go and Portal Plus. The new video calling devices include the first portable variety of the hardware and number of updates.