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{{redirect|TV}}
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{{redirect5|Telly|the character Telly on [[Sesame Street]]|Telly Monster}}
[[Image:Television.JPG|right|thumb|A 1970's-era television receiver, with "rabbit ears" antennae for receiving VHF transmissions, and a loop for UHF signals]]
{{for|the band|Television (band)}}
[[Image:Braun HF 1.jpg|thumb|right|210px|Braun HF 1, [[Germany]], 1958]]
[[Image:Casio TV-470.jpg|thumb|[[Casio]] TV-470 pocket color television ([[RadioShack]] Pocketvision 25 in the US)]]


'''Television''' is a [[telecommunication]] system for
<font size="2" color="660000">''This article discusses the history of television programming and content, and its social and economic impact; for an account of the history of Television technology, see [[History of television]].''</font>
[[broadcasting]] and receiving [[Film|moving picture]]s and [[sound]] over a distance. The term has come to refer to all the aspects of television from the [[television set]] to the [[television program|programming]] and [[Transmission (telecommunications)|transmission]]. The word is derived from mixed [[Latin ]] and [[Greek language|Greek]] roots, meaning "far sight": Greek ''{{polytonic|τῆλε}}'' "tele",  far, and Latin ''visio-n'', sight (from ''video, vis-'' to see).


== History ==
'''Television''' (also, informally, "TV" and "telly") is the electronic transmission of moving pictures. The word "television" literally means "far sight"; it was formed by combining the Greek word ''{{polytonic|τῆλε}}'' ("tele", or "far") with the Latin word ''visio-n'' ("sight", from ''video, vis-'' to see) &mdash; this coinage follows the pattern of [[telegraph]] ("far writer") and [[telephone]] ("far talker").  A parallel construction may be found in German, where it is known as "fernsehen" or "far-seer." In general usage, the meaning of "television" has been expanded to also refer to receivers, and to video in conventional broadcast as well as [[Cable television|cable]] and satellite signals.The word is also used to describe, in broad terms, the ''content'' of television programming generally; that is how it is used here.
{{Main article|History of television}}
The origins of what would become today's television system can be traced back as far as the discovery of the [[photoconductivity]] of the element [[selenium]] by [[Willoughby Smith]] in 1873 and the invention of a scanning disk by [[Paul Nipkow]] in 1884. All practical television systems use the fundamental idea of scanning an image to produce a time series signal representation. That representation is then transmitted to a device to reverse the scanning process. The final device, the television, relies on the human eye to integrate the result into a coherent image.


Electromechanical techniques were developed prior to World War II, most notably by [[Charles Francis Jenkins]] and [[John Logie Baird]]. Baird gave the world's first public demonstration of a working television system to members of the Royal Institution and a newspaper reporter on [[26 January]] [[1926]] at his laboratory in London. Baird further demonstrated the world's first [[color television]] transmission on [[3 July]] 1928He also produced the first transatlantic television signal, as well as the earliest scheduled television broadcasts, via the BBC, in the early 1930's.
==Content of television programming==
The content of television has evolved considerably since the earliest broadcasts in the late 1920's in BritainThe evolution of the medium can best be understood by looking at the broad historical trends, which themselves were often driven by technical innovations, such as higher definition signals, color, and an increased number of available channels and networks.


Completely electronic television systems relied on the inventions of [[Philo Taylor Farnsworth]], [[Vladimir Zworykin]] and others to produce a system suitable for mass distribution of television programming. Commercial broadcast programming, following years of experimental broadcasts seen only in a few specially-equipped homes, occurred in both the United States and the United Kingdom before World War II.
===Earliest broadcasts: 1929-1935===
In its earliest days, there was a good deal of incertainty as to what exactly what sort of material was suitable for broadcasts.  The BBC's earliest broadcasts using the Baird system tended to focus on music-hall performers, singers, and novelty acts.  A typical daily program, from the week of December 4th 1930, included the following:
* Bernard Dudley - character vocalist
* Pauline & Diana - instrumental entertainment
* Keith Mason - and his ukelele
* Eric Mason - entertainer and conjurer
* Gaye Jukes - musical comedy artists
* "Coal comfort" - a sketch by L. Saxey
* Jack Royce - coon songs
[[Image:Silvanim.gif|thumb|left|60px|1933 clip <ref>Clip of 1933 recording.  Used with permission of Donald McLean from his [http://www.tvdawn.com tvdawn.com] website.</ref>]]
As the earliest regularly scheduled broadcasts of television in the world, this Baird programming is quite remarkable.  Most of the acts performed for only a few minutes each, as the BBC had only allocated a half-hour at morning and at night. There are, in fact, surviving home recordings of these broadcasts; using a "Silvatone" home-recording deck, a viewer in 1933 had recorded a number of snippets of the BBC signal, including a segment featuring the "Paramount Astoria Girls," a popular dance troupe of the day.  These recordings have been restored by Scottish engineer Donald McLean, and give a unique window into early television, as they are the first recordings ever made of broadcast television.<ref>See [http://www.tvdawn.com/silvaton.HTM Donald McLean's tvdawn.com page] for details on "The Earliest Known Recording of Broadcast Television."</ref>  It is remarkable what the producers were able to accomplish with their heavy, fixed camera and sharply limited camera angle; the full recording shows faces popping out from behind a curtain, followed by the entry of the dancing girls, over which the camera was slowly panned (the only motion then possible; see image at left).  Due to the fact that the Silvatone disc could record only one channel, there is no sound.  In addition to live programming, cinema films were regularly shown, as Baird's had developed an early mechanical-scanning telecine process in 1929.


The first television broadcasts with a modern level of definition (more than 240 lines) were made in England in 1936. So-called "System A" used 405 lines.  The BBC made its inaugural broadcasts on a dual-system television system in November of [[1936]], alternating between the Baird system (which used film as an intermediary) and the all-electronic EMI system, which used Zworykin's tubes.  The Baird system was eventually abandoned in favor of the EMI, but the outbreak of the [[Second World War]] caused the BBC service to be suspended on [[September 1]], [[1939]].  It did not resume until [[June 7]], [[1946]].
The BBC, in anticipation of a new higher-definition system, ended regularly scheduled 30-line transmissions in 1934.


While Television broadcasts recommenced in [[1946]] after the war's end, it did not become common in United States homes until the middle 1950s. While North American over-the-air broadcasting was originally free of direct marginal cost to the consumer (i.e., cost in excess of acquisition and upkeep of the hardware) and broadcasters were compensated primarily by receipt of advertising revenue, increasingly United States television consumers obtain their programming by subscription to cable television systems or direct-to-home satellite transmissionsIn the United Kingdom, on the other hand, the owner of each television must pay a [[Television licence|licence fee]] annually which is used to support the [[BBC|British Broadcasting Corporation]].
===BBC High Definition, 1936-1939===
[[Image:405aoffscreenstill.jpg|thumb|right|280px|Screen capture of 1936 405-line broadcast.  <small>Courtesy of [http://lost-british-television.blogspot.com/ Lost British Television]</small>]]
On November 2, 1936, the BBC launched its new higher-definition broadcasts from new studios at [[Alexandra Palace]].  Originally, broadcasts alternated between the Baird process, which used cinema cameras and "intermediate film" processing, which scanned freshly-developed film while still wet, and the all-electronic EMI-Marconi system, which used the Emitron tube (both were received electronically and displayed on Cathode-Ray tubes). Both processes suffered from some technical problems at the start, but the BBC eventually decided in favor of the EMI system; all broadcasts using Baird's system ceased early in 1937. The broadcasts were made from specially-designed studios at Alexandra Palace, and employed a new higher-definition 405-line broadcast standard as called for in the report of the Selsdon Committee to the BBCThe first announcers were Leslie Mitchell, Elizabeth Cowell, and Jasmine Bligh, and the first hour's program (repeated via both the Baird and the EMI systems) was as follows:


==Technology==
* 3.00 pm Opening of the BBC Television Service by GC Tryon (Postmaster General), Mr RC Norman (chairman of the BBC), and Lord Selsdon (chairman of the Television Committee).
===Elements of a television system===
* 3.15 Interval; Time, Weather
The elements of a simple television system are:
* 3.20 British Movietone News
* An image source - this may be a [[Professional video camera|camera]] for live pick-up of images or a [[flying spot scanner]] for transmission of [[motion picture|films]]
* 3.30 Variety Adele Dixon (musical comedy star), Buck and Bubbles (comedians and dancers), The Lai Founs (Chinese jugglers) and the BBC Television Orchestra
* A sound source.
* 4.00 Closedown; a chart arranged in co-operation with the Air Ministry will forecast the weather
* A [[transmitter]], which modulates one or more [[television signal]]s with both picture and sound information for transmission.
* A receiver (television) which recovers the picture and sound signals from the television broadcast.
* A display device, which turns the electrical signals into visible light and audible sound.


Practical television systems include equipment for selecting different image sources, mixing images from several sources at once, insertion of pre-recorded video signals, synchronizing signals from many sources, and direct image generation by computer for such purposes as station identification. Transmission may be over the air from land-based transmitters, over metal or optical cables, or by radio from synchronous [[Satellite television|satellite]]s.  Digital systems may be inserted anywhere in the chain to provide better image transmission quality, reduction in transmission [[bandwidth]], special effects, or security of transmission from reception by non-subscribers.  
The BBC television service was abruptly suspended on the eve of Word War II.


<!-- Elements of a television system - block diagram here -->
===The post-WWII era: 1945-1960===
<!-- Image source, camera, film, magnetic tape, exceptionally computer-generated images-->
{{Image|TV0073-72dpi.jpeg|right|300px|The DuMont Television Network spent heavily on advertisements such as this, which promoted television as the medium of the future, with its viewers as pioneers of a new world.}}
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Both the [[United Kingdom|UK]] and the [[United States of America|U.S.]]  limited television broadcasting during the  [[World War II|wartime]] years.  In the UK, broadcasts were stopped entirely, while in the US, though limited broadcasts continued, no new television receivers could be manufactured or sold.  The immediate post-war period was a heady one in both countries, though US growth was to be the fastest.  The UK continued its pre-war model of using licensing fees for receivers, such that the BBC transmissions had no commercial content, whereas in the US, the sponsorship model used for radio quickly became the standard for television as well.
<!-- Transmitter, over the air, bandwidth required, antenna, satellite system, cable system, digital encoding, scrambling -->
<!-- Receiver, antenna, cable connection, satellite down-converter, digital decode, descramble-->
<!-- Display, cathode ray tube, color tube, now LCD, historically mechanical scanned lamp-->
<!-- Recorder, analog magnetic tape, now digital -->
===Display technology===
Thanks to advances in display technology, there are now several kinds of video displays used in modern TV sets:


*'''CRT''': The most common displays are direct-view [[cathode ray tube|CRT]]s for up to 40&nbsp;in (100&nbsp;cm) (in 4:3) and 46&nbsp;in (115&nbsp;cm) (in 16:9) [[diagonal]]ly. These are still the least expensive, and are a refined technology that can still provide the best overall picture quality. As they do not have a fixed [[native resolution]], in some cases they are also capable of displaying sources with a variety of different resolutions at the best possible image qualityThe [[frame rate]] or refresh rate of a typical [[NTSC]] format CRT TV is 60&nbsp;Hz, and for the [[PAL]] format, it is 50&nbsp;Hz.  A typical [[NTSC]] broadcast signal's visible portion has an equivalent resolution of about 640x480&nbsp;pixels.  It actually could be slightly higher than that, but the [[Vertical blanking interval|Vertical Blanking Interval]], or VBI, allows other signals to be carried along with the broadcast.
One early pioneer was the DuMont Network, a subsidiary of DuMont Television Laboratories, an early television manufacturer, which launched in 1946 as the first television-only networkIn radio, most shows had had sole sponsors, who as a result exercised enormous control over content; DuMont was a pioneer of the model in which each individual program had multiple sponsors, freeing the producers of its shows from the veto of a single sponsor.  A characteristic array of DuMont programming included stage entertainers, news, variety shows, televised films, and genre dramas; the following is a characteristic sample (dates of broadcast in parentheses)
*'''Rear projection''': Most very large screen TVs (up to over 100&nbsp;inch (254&nbsp;cm)) use [[projection]] technology. Three types of projection systems are used in projection TVs: CRT-based, [[Liquid crystal display|LCD]]-based, and [[DLP]] (reflective micromirror chip) -based. Projection television has been commercially available since the 1970s, but at that time could not match the image sharpness of the CRT; current models are vastly improved, and offer a cost-effective large-screen display. A variation is a [[video projector]], using similar technology, which projects onto a [[Projection screen|screen]].
* The Adventures of Ellery Queen (1951)
*'''Flat panel LCD''' or '''plasma''': Modern advances have brought [[Flat panel display|flat panel]]s to TV that use [[Active-matrix liquid crystal display|active matrix]] [[liquid crystal display|LCD]] or [[plasma display]] technology. Flat panel LCDs and [[plasma display]]s are as little as 1&nbsp;inch thick and can be hung on a wall like a picture or put over a [[pedestal]]. Some models can also be used as [[Computer display|computer monitor]]s.<br>{{seealso|Liquid crystal display television}}
* The Author Meets the Critics (1952-1954)
* Camera Headlines (news) (1948)
* Cavalcade of Stars (variety) (1949-1952) (''[[The Honeymooners]]'' had its debut as a skit on this show)
* Frontier Theatre, (movies) (1950)
* Morey Amsterdam Show (variety) (1949-1950)
* On Your Way (game show) (1953-1954)
* Opera Cameos (music) (1953-1955)
* The Roy Doty Show (children) (1953)
* TV Shopper (shopping) (1948-1950)
* Twenty Questions (game show) (1951-1954)
* Washington Report (1951) (public affairs)


It is important to think about the living environment of your television before deciding on a single display technology. Each has its pros and cons. Flat panel LCD display can have narrow viewing angles and so may not suit a home environment. Rear projection screens do not perform well in natural [[daylight]] or well lit rooms and so are best suited to dark viewing areas. A complete run down of the [[Comparison of display technology|pros and cons]] of each display should be sought before purchasing a single television technology.
===The "boomer" generation: 1960-1985===
{{Image|Raptv2.jpg|left|350px|A typical baby-boomer baby parked in front of the family's television set, circa 1961}}
The period from 1960 to 1985 saw the greatest increase in television viewership, the greatest increase in televisions per home, and the greatest increase in average weekly hours viewed, in the entire history of television to date. This was in part because of the [[Baby boom]] generation, born between 1945 and 1962, which made a significant demographic spike as it aged. During this period, broadcast television in the [[United States of America|United States]] was dominated by three large networks: [[ABC]], [[NBC]], and [[CBS]].  At the same time, the introduction of [[UHF]] frequencies struggled to add a new venue for smaller, independent television stations.


===Terminology for televisions===
The DuMont network had collapsed by 1956.  CBS, which had already built a large radio network, quickly became the dominant player in the market.  At the same time, NBC, particularly through its promulgation of the first widely-successful color television technology, became a major force.  By the late 1960's, in most major U.S. markets, each of the three networks had a local affliate broadcasting on the [[VHF]] bandwidth, gradually relegating the low budget independent shows to [[UHF]].


Pixel [[Display resolution|resolution]] is the amount of individual points known as [[pixels]] on a given screen. A typical resolution of 800x600 means that the television display has 800 pixels across and 600&nbsp;pixels on the vertical axis. The higher the resolution on a specified display the sharper the image.
Network "affiliates," agreed to broadcast the network's programs during the "prime time" hours or 8 to 11 p.m. weeknights; in return, they obtained both a share of national advertising revenue, as well as a smaller bloc of time allocated to their local advertisers. As a result, the shows produced by the three major networks captured an unprecedented share of the nationwide television audience, and as this share grew, so did advertising revenue.


Contrast [[ratio]] is a measurement of the range between the brightest and darkest points on the screen. The higher the contrast ratio, the better looking picture there is in terms of richness, deepness, and [[shadow]] detail.
===Cable and satellite television===
In the 1980s, alternative broadcast technologies became available in the form of cable and satellite broadcasts. These were offered as subscription services on top of the existing over-the-air broadcasts. A new range of niche interest channels became available: in the United States, [[Ted Turner]]'s CNN network broadcasted around-the-clock news (later players in this market include [[Fox News Channel]] and [[MSNBC]]; [[Sky News]], [[BBC News 24]], [[Euronews]], [[Al-Jazeera]] and others used the model outside of the U.S.). [[MTV]] and the [[Cartoon Network]] made music, cartoons and entertainment for teens and children respectively available at any time. With these networks, new models of broadcast business became available. Premium subscription networks and pay-per-view broadcasts became available with [[sports]], [[pornography]] and movies being the prime beneficiaries.


The [[brightness]] of a picture measures how vibrant and impacting the colours are. Measured in <math>cd/m^2</math> equivalent to the amount of candles required to power the [[image]].
===The post-broadcast era: digital signals and HDTV, 2006-?===
In the late 1990s, the possibility of digital broadcasting became widespread. Cable and satellite providers started transmitting signals digitally. New national and international video and broadcast standards (such as the European DVB standard) became available for use and promised increased [[bandwidth]] over the terrestrial television spectrum, and the ability to provide extra services including more interactive content and pay-per-view rental that didn't require having to phone through to the cable or satellite provider. The availability of digital television over-the-air was marketed by the broadcasters and national broadcasting authorities as the future - and transition plans to move to digital terrestrial broadcasting and to slowly switch off non-digital terrestrial broadcasts were rolled out. In the United States, this has been done in the form of a federal voucher scheme to provide money off the purchase of converter equipment to enable televisions to view digital terrestrial broadcasts. Most televisions sold now include the facilities to view digital terrestrial broadcasts.


===Transmission band===
One of the uses to which the increased bandwidth provided by digital broadcast signals was put was the provision of ''high definition'' signals (HDTV). HD signals increased the number of visible lines of pixels from 480 to 720 or 1080. Computer monitors had already demonstrated the possibility of scaling monitors to display significantly more pixels than standard-definition televisions, but the impetus to shift up the spectrum was as much to do with standards and broadcasters as it was to do with technical ability.
There are various bands of frequencies on which televisions work depending upon the country. The VHF and UHF signals in bands III to V are generally used. Lower frequencies do not have enough [[bandwidth]] available for television. Although the [[BBC]] initially used Band I VHF at 45 MHz, this frequency is no longer in use for this purpose.  Band II is used for FM radio transmissions.  Higher frequencies behave more like light and do not penetrate buildings or travel around obstructions well enough to be used in a conventional broadcast TV system, so they are generally only used for satellite broadcasting, which uses frequencies around 10 GHz.  TV systems in most countries relay the video as an AM ([[amplitude-modulation]]) signal and the sound as a FM ([[frequency-modulation]]) signal.  An exception is [[France]], where the sound is AM.


===Aspect ratios===
The Internet, the low-cost of storage and the availability of a new range of personal video recording devices (PVRs) like the [[TiVo]], as well as the rapidly multiplying number of channels being broadcast changed how television was being watched, matching up with changes in society. PVR devices enabled easy recording of television shows onto a hard drive, and most did so for a whole series, and predictively recording shows that would match the viewer's interest. Some of these devices enabled the skipping of advertising which caused consternation among broadcasters. Availability of high-speed broadband Internet services only increased the speed of change. Television shows were shunted around peer-to-peer networks like [[BitTorrent]] with adverts removed. Video blogs, podcasts and sites like [[YouTube]] enabled anyone to produce and publish amateur video, leading to many people consuming an increasing amount of amateur or semi-professional content complementing and competing with the existing commercial and national broadcasters. Broadcasters have responded by providing their own online services: [[Hulu]], the BBC [[iPlayer]], SkyPlayer, [[Joost]] and many others. The Internet has flattened television distribution. A show like ''Lost'' may be broadcast in the United States months before it is broadcast in Europe, now people anywhere can download (often through unsanctioned peer-to-peer networks) and watch shows at the point of first broadcast.
'''[[Aspect ratio (image)|Aspect ratio]]''' refers to the ratio of the horizontal to vertical measurements of a television's picture. Mechanically scanned television as first demonstrated by [[John Logie Baird]] in 1926 used a 7:3 vertical aspect ratio, oriented for the head and shoulders of a single person in close-up.


Most of the early electronic TV systems from the mid-1930s onward shared the same [[aspect ratio (image)|aspect ratio]] of 4:3 which was chosen to match the [[Academy ratio|Academy Ratio]] used in cinema films at the time. This ratio was also square enough to be conveniently viewed on round [[cathode ray tube|cathode-ray tube]]s (CRTs), which were all that could be produced given the [[manufacturing]] [[technology]] of the time. (Today's CRT technology allows the manufacture of much wider tubes, and the flat-screen technologies which are becoming steadily more popular have no technical aspect ratio limitations at all.) The [[BBC]]'s television service used a more squarish [http://tcc.members.beeb.net/tchistory.html 5:4] ratio from 1936 to [http://www.pembers.freeserve.co.uk/Test-Cards/Test-Card-Technical.html#Aspect-Ratio 3 April 1950], when it too switched to a 4:3 ratio.  This did not present significant problems, as most sets at the time used round tubes which were easily adjusted to the 4:3 ratio when the transmissions changed.
How television is watched has changed in other ways: people now have much more powerful handheld devices. MP3 players like the iPod as well as phones, handheld games consoles and other devices support watching downloaded or streamed content live on the devices. Many people in the Internet generation will grow up watching television on laptop or desktop computer screens rather than on televisions.


In the 1950s, [[movie studio]]s moved towards [[widescreen]] aspect ratios such as [[CinemaScope]] in an effort to distance their product from television. Although this was initially just a [[gimmick]], widescreen is still the format of choice today and square aspect ratio movies are rare. Some people argue that widescreen is actually a disadvantage when showing objects that are tall instead of [[panorama|panoramic]], others say that natural vision is more panoramic than tall, and therefore widescreen is easier on the eye.
==Social impact of television==
 
The switch to [[digital television]] systems has been used as an opportunity to change the standard television picture format from the old ratio of 4:3 (1.33:1) to an aspect ratio of 16:9 (approximately 1.78:1). This enables TV to get closer to the aspect ratio of modern widescreen [[film|movie]]s, which range from 1.66:1 through 1.85:1 to 2.35:1. There are two methods for transporting widescreen content, the better of which uses what is called [[full screen anamorphic|anamorphic widescreen]] format. This format is very similar to the technique used to fit a widescreen movie frame inside a 1.33:1 35mm film frame. The image is compressed horizontally when recorded, then expanded again when played back. The anamorphic widescreen 16:9 format was first introduced via European [[PALPlus]] television broadcasts and then later on "widescreen" [[DVD]]s; the [[ATSC]] [[High-definition television|HDTV]] system uses straight widescreen format, no horizontal compression or expansion is used.
 
Recently "widescreen" has spread from television to computing where both [[desktop computer|desktop]] and [[laptop]] computers are commonly equipped with widescreen displays. There are some complaints about distortions of movie picture ratio due to some DVD playback software not taking account of aspect ratios; but this may subside as the DVD playback software matures. Furthermore, computer and laptop widescreen displays are in the 16:10 aspect ratio both physically in size and in pixel counts, and not in 16:9 of consumer televisions, leading to further complexity. This was a result of widescreen computer display engineers' uninformed assumption that people viewing 16:9 content on their computer would prefer that an area of the screen be reserved for playback controls or [[subtitle]]s, as opposed to viewing content full-screen.
 
=====Aspect ratio incompatibility=====
The television industry's changing of [[Aspect ratio (image)|aspect ratio]]s is not without difficulties, and can present a considerable problem.
 
Displaying a widescreen aspect (rectangular) image on a conventional aspect (square or 4:3) display can be shown:
*in "[[letterbox]]" format, with black horizontal bars at the top and bottom
*with part of the image being cropped, usually the extreme left and right of the image being cut off (or in "[[pan and scan]]", parts selected by an operator)
*with the image horizontally compressed
 
A conventional aspect (square or 4:3) image on a widescreen aspect (rectangular with longer horizon) display can be shown:
*in "[[pillar box (film)|pillar box]]" format, with black vertical bars to the left and right
*with upper and lower portions of the image cut off (or in "tilt and scan", parts selected by an operator)
*with the image horizontally distorted
 
A common compromise is to shoot or create material at an aspect ratio of 14:9, and to lose some image at each side for 4:3 presentation, and some image at top and bottom for 16:9 presentation.  In recent years, the cinematographic process known as [[Super 35 mm film|Super 35]] (championed by [[James Cameron]]) has been used to film a number of major movies such as [[Titanic (1997 film)|''Titanic'']], ''[[Legally Blonde]]'', ''[[Austin Powers]]'', and ''[[Crouching Tiger, Hidden Dragon]]'' (see also: [[List of top-grossing films shot in Super 35]]).  This process results in a camera-negative which can then be used to create both wide-screen theatrical prints, and standard "[[full screen]]" releases for television/VHS/DVD which avoid the need for either "[[Letterbox|letterboxing]]" or the severe loss of information caused by conventional "[[pan-and-scan]]" cropping.
 
=== Sound ===
{{further|[[NICAM]]}}
 
=== Television add-ons ===
Today there are many television add-ons including [[Computer and video games|Video Game]] Consoles, [[Videocassette recorder|VCR]]s, [[Set-top box]]es for [[Cable television|Cable]], [[Satellite television|Satellite]] and DVB-T compliant [[Digital Television]] reception, [[DVD]] players, or [[Digital video recorder|Digital Video Recorders]] (including personal video recorders, PVRs).  The add-on market continues to grow as new technologies are developed.
 
=== New developments ===
*[[Ambilight]]™
*[[Broadcast flag]]
*[[CableCARD]]™
*[[DLP|Digital Light Processing]] (DLP)
*[[Digital Rights Management]] (DRM)
*[[Digital television]] (DTV)
*[[Digital Video Recorder]]s
*[[Direct Broadcast Satellite]] TV (DBS)
*[[DVD]]
*[[Flicker-free]] (100&nbsp;Hz or 120&nbsp;Hz, depending on country)
*[[High Definition TV]] (HDTV)
*[[High-Definition Multimedia Interface]] (HDMI)
*[[IPTV]]
*[[Internet television]]
*[[Liquid crystal display television|LCD]] and [[Plasma display]] [[Flat panel display|Flat screen]] TV
*[[Surface-conduction Electron-emitter Display|SED]] display technology
*[[Organic light-emitting diode|OLED]] display technology
*[[P2PTV]]
*[[Pay-per-view]]
*[[Picture-in-picture]] (PiP)
*[[Pixelplus]]
*[[Remote control]]s
*[[Video on-demand]] (VOD)
*[[Ultra High Definition Video]] (UHDV)
*[[Web TV]]
 
==Geographical usage==
*[[Timeline of the introduction of television in countries]]
{{main|Geographical usage of television}}
 
==Content==
===Advertising===
Since their inception in the USA in 1940, [[television commercial|TV commercial]]s have become one of the most effective, most pervasive, and most popular methods of selling products of many sorts, especially consumer goods. U.S. advertising rates are determined primarily by [[Nielsen Ratings]].
 
===Programming===
Getting TV programming shown to the public can happen in many different ways. After production the next step is to market and deliver the product to whatever markets are open to using it.  This typically happens on two levels:
 
#'''Original Run''' or '''First Run''' - a producer creates a program of one or multiple episodes and shows it on a station or network which has either paid for the production itself or to which a license has been granted by the producers to do the same.
#'''[[Television syndication|Syndication]]''' - this is the terminology rather broadly used to describe secondary programming usages (beyond original run). It includes secondary runs in the country of first issue, but also international usage which may or may not be managed by the originating producer. In many cases other companies, [[TV stations]] or individuals are engaged to do the syndication work, in other words to sell the product into the markets they are allowed to sell into by contract from the copyright holders, in most cases the producers.
In most countries, the first wave occurs primarily on [[Free-to-air|free-to-air (FTA)]] television, while the second wave happens on subscription TV and in other countries. In the U.S., however, the first wave occurs on the FTA networks and subscription services, and the second wave travels via all means of distribution.
 
First run programming is increasing on subscription services outside the U.S., but few domestically produced programs are syndicated on domestic FTA elsewhere. This practice is increasing however, generally on digital-only FTA channels, or with subscriber-only first run material appearing on FTA.
 
Unlike the U.S., repeat FTA screenings of a FTA network program almost only occur on that network. Also, [[Affiliate]]s rarely buy or produce non-network programming that isn't centered around local events.
 
== Social aspects ==
 
 
===Technology trends===
 
In its infancy, television was an ephemeral medium.  Fans of regular shows planned their [[TV listings|schedules]] so that they could be available to watch their shows at their time of broadcast.  The term ''appointment television'' was coined by marketers to describe this kind of attachment. 
 
The viewership's dependence on schedule lessened with the invention of programmable video recorders, such as the [[Videocassette recorder]] and the [[Digital video recorder]].  Consumers could watch programs on their own schedule once they were broadcast and recorded.  Television service providers also offer [[video on demand]], a set of programs which could be watched at any time. 
 
Both [[mobile phone]] networks and the [[internet]] are capable of carrying video streams. There is already a fair amount of internet TV available, either live or as downloadable programs. Mobile phone TV is planned to eventually become mainstream, after worldwide over-the-air digital TV takes over analogue and some technical difficulties can be overcome - especially the ones related to battery life.
 
===Suitability for audience===
Almost since the medium's inception there have been charges that some programming is, in one way or another, inappropriate, [[offensive]] or [[decency|indecent]]. Critics such as Jean Kilborne have claimed that television, as well as other mass media images, harm the self image of young girls.  Other commentators such as Sut Jhally, make the case that television advertising in the U.S. has been so effective that happiness has increasingly come to be equated with the purchasing of products. [[George Gerbner]] has presented evidence that the frequent portrayals of crime, especially minority crime, has led to the [[Mean World Syndrome]], the view among frequent viewers of television that crime rates are much higher than the actual data would indicate.  In addition, a lot of television has been charged with presenting propaganda, political or otherwise, and been pitched at a low intellectual level.
 
==Further reading==
*[[Erik Barnouw]], ''Tube of Plenty: The Evolution of American Television'', Oxford University Press, 1992.
*[[Pierre Bourdieu]], ''On Television'', The New Press, 2001.
*Brooks, Tim and March, Earle, ''The Complete Guide to Prime Time Network and Cable TV Shows'', Ballantine, Eighth Edition, 2002.
*[[Guy Debord]], ''The Society of the Spectacle'', Zone Books, 1995.
*[[Jacques Derrida]], [[Bernard Stiegler]], ''Echographies of Television'', Polity Press, 2002.
*[[Jerry Mander]], ''Four Arguments for the Elimination of Television'', Perennial, 1978.
* [[Neil Postman]], ''[[Amusing Ourselves to Death]]: Public Discourse in the Age of Show Business''. Penguin USA, 1985. ISBN 0-670-80454-1
*Dr. Aric Sigman, ''Remotely Controlled: How Television Is Damaging Our Lives — And What We Can Do About It'', Vermilion, 2005.
*Beretta E. Smith-Shomade, ''Shaded Lives: African-American Women and Television'',  Rutgers University Press, 2002.


==References==
==References==
*David E. Fisher and Marshall J. Fisher, ''Tube: the Invention of Television'', Counterpoint, Washington D.C. USA, (1996) ISBN 1-887178-17-1
<references/>
 
*Albert Abramson, ''The History of Television, 1942 to 2000'', McFarland, Jefferson, NC, USA, and London (2003) ISBN 0-7864-1220-8
 
==See also==
* [[Golden Age of Television]]
* [[Archive of American Television]]
* [[BARB]]
* [[Composite monitor]]
* [[Compression]]
* [[Digital Video]]
* [[European Broadcasting Union]] ([[EBU]])
* [[Electronic field production]]
* [[Electronic news gathering]]
* [[History of television]]
* [[List of television topics]]
* [[List of 'years in television']]
* [[Lists of television channels]]
* [[List of television programs|List of television programs/series]]
* [[List of television personalities]]
* [[Live television]]
* [[Museum of Broadcast Communications]]
* [[PC card]]
* [[PVR]] ([[Personal Video Recorder]]).
* [[S-video monitor]]
* [[Teletext]]
* [[Time code]]
* [[TV/VCR combo]]
* [[TV/FM DX|Long distance television reception (TV DX)]]
* [[TV listings]]
 
==External links==
{{sisterlinks|Television}}
* [http://www.bbc.co.uk/tv/ BBC Television]
* [http://www.gooya.co.uk/worldtv.html A directory of world television channels]
* [http://www.tvhistory.tv/ Television History — The First 75 Years]
* [http://www.lcdplasmatvguide.com/ TV Type Guide]
* [http://www.museum.tv/archives/etv/index.html The Encyclopedia of Television] at the [[Museum of Broadcast Communications]]
* [http://www.mztv.com MZTV Museum of Television] Some of the rarest sets in America
* [http://www.the-best-of-television.com/ The #1 Online Television Resource]
* [http://www.cherishedtelevision.co.uk/home.html Cherished Television]
* [http://www.metvwiki.com/index.php/Main_Page CNET News.com's Me TV Wiki, about  the future of television].
* [http://www.infopaw.com/movies_tv.htm Cross-search TV shows, TV forums, TV critics, and Hollywood news]
 
[[Category:CZ Live]]
[[Category:Media Workgroup]]
[[Category:Scottish inventions]]
[[Category:Television| ]]

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A 1970's-era television receiver, with "rabbit ears" antennae for receiving VHF transmissions, and a loop for UHF signals

This article discusses the history of television programming and content, and its social and economic impact; for an account of the history of Television technology, see History of television.

Television (also, informally, "TV" and "telly") is the electronic transmission of moving pictures. The word "television" literally means "far sight"; it was formed by combining the Greek word τῆλε ("tele", or "far") with the Latin word visio-n ("sight", from video, vis- to see) — this coinage follows the pattern of telegraph ("far writer") and telephone ("far talker"). A parallel construction may be found in German, where it is known as "fernsehen" or "far-seer." In general usage, the meaning of "television" has been expanded to also refer to receivers, and to video in conventional broadcast as well as cable and satellite signals.The word is also used to describe, in broad terms, the content of television programming generally; that is how it is used here.

Content of television programming

The content of television has evolved considerably since the earliest broadcasts in the late 1920's in Britain. The evolution of the medium can best be understood by looking at the broad historical trends, which themselves were often driven by technical innovations, such as higher definition signals, color, and an increased number of available channels and networks.

Earliest broadcasts: 1929-1935

In its earliest days, there was a good deal of incertainty as to what exactly what sort of material was suitable for broadcasts. The BBC's earliest broadcasts using the Baird system tended to focus on music-hall performers, singers, and novelty acts. A typical daily program, from the week of December 4th 1930, included the following:

  • Bernard Dudley - character vocalist
  • Pauline & Diana - instrumental entertainment
  • Keith Mason - and his ukelele
  • Eric Mason - entertainer and conjurer
  • Gaye Jukes - musical comedy artists
  • "Coal comfort" - a sketch by L. Saxey
  • Jack Royce - coon songs
1933 clip [1]

As the earliest regularly scheduled broadcasts of television in the world, this Baird programming is quite remarkable. Most of the acts performed for only a few minutes each, as the BBC had only allocated a half-hour at morning and at night. There are, in fact, surviving home recordings of these broadcasts; using a "Silvatone" home-recording deck, a viewer in 1933 had recorded a number of snippets of the BBC signal, including a segment featuring the "Paramount Astoria Girls," a popular dance troupe of the day. These recordings have been restored by Scottish engineer Donald McLean, and give a unique window into early television, as they are the first recordings ever made of broadcast television.[2] It is remarkable what the producers were able to accomplish with their heavy, fixed camera and sharply limited camera angle; the full recording shows faces popping out from behind a curtain, followed by the entry of the dancing girls, over which the camera was slowly panned (the only motion then possible; see image at left). Due to the fact that the Silvatone disc could record only one channel, there is no sound. In addition to live programming, cinema films were regularly shown, as Baird's had developed an early mechanical-scanning telecine process in 1929.

The BBC, in anticipation of a new higher-definition system, ended regularly scheduled 30-line transmissions in 1934.

BBC High Definition, 1936-1939

Screen capture of 1936 405-line broadcast. Courtesy of Lost British Television

On November 2, 1936, the BBC launched its new higher-definition broadcasts from new studios at Alexandra Palace. Originally, broadcasts alternated between the Baird process, which used cinema cameras and "intermediate film" processing, which scanned freshly-developed film while still wet, and the all-electronic EMI-Marconi system, which used the Emitron tube (both were received electronically and displayed on Cathode-Ray tubes). Both processes suffered from some technical problems at the start, but the BBC eventually decided in favor of the EMI system; all broadcasts using Baird's system ceased early in 1937. The broadcasts were made from specially-designed studios at Alexandra Palace, and employed a new higher-definition 405-line broadcast standard as called for in the report of the Selsdon Committee to the BBC. The first announcers were Leslie Mitchell, Elizabeth Cowell, and Jasmine Bligh, and the first hour's program (repeated via both the Baird and the EMI systems) was as follows:

  • 3.00 pm Opening of the BBC Television Service by GC Tryon (Postmaster General), Mr RC Norman (chairman of the BBC), and Lord Selsdon (chairman of the Television Committee).
  • 3.15 Interval; Time, Weather
  • 3.20 British Movietone News
  • 3.30 Variety Adele Dixon (musical comedy star), Buck and Bubbles (comedians and dancers), The Lai Founs (Chinese jugglers) and the BBC Television Orchestra
  • 4.00 Closedown; a chart arranged in co-operation with the Air Ministry will forecast the weather

The BBC television service was abruptly suspended on the eve of Word War II.

The post-WWII era: 1945-1960

The DuMont Television Network spent heavily on advertisements such as this, which promoted television as the medium of the future, with its viewers as pioneers of a new world.

Both the UK and the U.S. limited television broadcasting during the wartime years. In the UK, broadcasts were stopped entirely, while in the US, though limited broadcasts continued, no new television receivers could be manufactured or sold. The immediate post-war period was a heady one in both countries, though US growth was to be the fastest. The UK continued its pre-war model of using licensing fees for receivers, such that the BBC transmissions had no commercial content, whereas in the US, the sponsorship model used for radio quickly became the standard for television as well.

One early pioneer was the DuMont Network, a subsidiary of DuMont Television Laboratories, an early television manufacturer, which launched in 1946 as the first television-only network. In radio, most shows had had sole sponsors, who as a result exercised enormous control over content; DuMont was a pioneer of the model in which each individual program had multiple sponsors, freeing the producers of its shows from the veto of a single sponsor. A characteristic array of DuMont programming included stage entertainers, news, variety shows, televised films, and genre dramas; the following is a characteristic sample (dates of broadcast in parentheses)

  • The Adventures of Ellery Queen (1951)
  • The Author Meets the Critics (1952-1954)
  • Camera Headlines (news) (1948)
  • Cavalcade of Stars (variety) (1949-1952) (The Honeymooners had its debut as a skit on this show)
  • Frontier Theatre, (movies) (1950)
  • Morey Amsterdam Show (variety) (1949-1950)
  • On Your Way (game show) (1953-1954)
  • Opera Cameos (music) (1953-1955)
  • The Roy Doty Show (children) (1953)
  • TV Shopper (shopping) (1948-1950)
  • Twenty Questions (game show) (1951-1954)
  • Washington Report (1951) (public affairs)

The "boomer" generation: 1960-1985

A typical baby-boomer baby parked in front of the family's television set, circa 1961

The period from 1960 to 1985 saw the greatest increase in television viewership, the greatest increase in televisions per home, and the greatest increase in average weekly hours viewed, in the entire history of television to date. This was in part because of the Baby boom generation, born between 1945 and 1962, which made a significant demographic spike as it aged. During this period, broadcast television in the United States was dominated by three large networks: ABC, NBC, and CBS. At the same time, the introduction of UHF frequencies struggled to add a new venue for smaller, independent television stations.

The DuMont network had collapsed by 1956. CBS, which had already built a large radio network, quickly became the dominant player in the market. At the same time, NBC, particularly through its promulgation of the first widely-successful color television technology, became a major force. By the late 1960's, in most major U.S. markets, each of the three networks had a local affliate broadcasting on the VHF bandwidth, gradually relegating the low budget independent shows to UHF.

Network "affiliates," agreed to broadcast the network's programs during the "prime time" hours or 8 to 11 p.m. weeknights; in return, they obtained both a share of national advertising revenue, as well as a smaller bloc of time allocated to their local advertisers. As a result, the shows produced by the three major networks captured an unprecedented share of the nationwide television audience, and as this share grew, so did advertising revenue.

Cable and satellite television

In the 1980s, alternative broadcast technologies became available in the form of cable and satellite broadcasts. These were offered as subscription services on top of the existing over-the-air broadcasts. A new range of niche interest channels became available: in the United States, Ted Turner's CNN network broadcasted around-the-clock news (later players in this market include Fox News Channel and MSNBC; Sky News, BBC News 24, Euronews, Al-Jazeera and others used the model outside of the U.S.). MTV and the Cartoon Network made music, cartoons and entertainment for teens and children respectively available at any time. With these networks, new models of broadcast business became available. Premium subscription networks and pay-per-view broadcasts became available with sports, pornography and movies being the prime beneficiaries.

The post-broadcast era: digital signals and HDTV, 2006-?

In the late 1990s, the possibility of digital broadcasting became widespread. Cable and satellite providers started transmitting signals digitally. New national and international video and broadcast standards (such as the European DVB standard) became available for use and promised increased bandwidth over the terrestrial television spectrum, and the ability to provide extra services including more interactive content and pay-per-view rental that didn't require having to phone through to the cable or satellite provider. The availability of digital television over-the-air was marketed by the broadcasters and national broadcasting authorities as the future - and transition plans to move to digital terrestrial broadcasting and to slowly switch off non-digital terrestrial broadcasts were rolled out. In the United States, this has been done in the form of a federal voucher scheme to provide money off the purchase of converter equipment to enable televisions to view digital terrestrial broadcasts. Most televisions sold now include the facilities to view digital terrestrial broadcasts.

One of the uses to which the increased bandwidth provided by digital broadcast signals was put was the provision of high definition signals (HDTV). HD signals increased the number of visible lines of pixels from 480 to 720 or 1080. Computer monitors had already demonstrated the possibility of scaling monitors to display significantly more pixels than standard-definition televisions, but the impetus to shift up the spectrum was as much to do with standards and broadcasters as it was to do with technical ability.

The Internet, the low-cost of storage and the availability of a new range of personal video recording devices (PVRs) like the TiVo, as well as the rapidly multiplying number of channels being broadcast changed how television was being watched, matching up with changes in society. PVR devices enabled easy recording of television shows onto a hard drive, and most did so for a whole series, and predictively recording shows that would match the viewer's interest. Some of these devices enabled the skipping of advertising which caused consternation among broadcasters. Availability of high-speed broadband Internet services only increased the speed of change. Television shows were shunted around peer-to-peer networks like BitTorrent with adverts removed. Video blogs, podcasts and sites like YouTube enabled anyone to produce and publish amateur video, leading to many people consuming an increasing amount of amateur or semi-professional content complementing and competing with the existing commercial and national broadcasters. Broadcasters have responded by providing their own online services: Hulu, the BBC iPlayer, SkyPlayer, Joost and many others. The Internet has flattened television distribution. A show like Lost may be broadcast in the United States months before it is broadcast in Europe, now people anywhere can download (often through unsanctioned peer-to-peer networks) and watch shows at the point of first broadcast.

How television is watched has changed in other ways: people now have much more powerful handheld devices. MP3 players like the iPod as well as phones, handheld games consoles and other devices support watching downloaded or streamed content live on the devices. Many people in the Internet generation will grow up watching television on laptop or desktop computer screens rather than on televisions.

Social impact of television

References

  1. Clip of 1933 recording. Used with permission of Donald McLean from his tvdawn.com website.
  2. See Donald McLean's tvdawn.com page for details on "The Earliest Known Recording of Broadcast Television."
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