Terrestrial television

Terrestrial televisionorover-the-air television(OTA) is a type oftelevision broadcastingin which the content istransmittedviaradio wavesfrom the terrestrial (Earth-based)transmitterof aTV stationto aTV receiverhaving anantenna.The termterrestrialis more common in Europe and Latin America, while in Canada and the United States it is calledover-the-airor simplybroadcast.This type ofTV broadcastis distinguished from newer technologies, such assatellite television(direct broadcast satelliteor DBS television), in which the signal is transmitted to the receiver from an overheadsatellite;cable television,in which the signal is carried to the receiver through acable;andInternet Protocol television,in which the signal is received over anInternetstream or on a network utilizing theInternet Protocol.Terrestrial television stations broadcast ontelevision channelswithfrequenciesbetween about 52 and 600 MHz in theVHFandUHFbands. Since radio waves in these bands travel byline of sight,reception is generally limited by the visual horizon to distances of 64–97 kilometres (40–60 mi), although under better conditions and withtropospheric ducting,signals can sometimes be received hundreds of kilometers distant.^[1]

Terrestrial television was the first technology used for television broadcasting. TheBBCbegan broadcasting in 1929 and by 1930 many radio stations had a regular schedule of experimentaltelevision programmes.However, these early experimental systems had insufficient picture quality to attract the public, due to theirmechanical scantechnology, and television did not become widespread until afterWorld War IIwith the advent of electronic scan television technology. The television broadcasting business followed the model ofradio networks,with local television stations in cities and towns affiliated withtelevision networks,either commercial (in the US) or government-controlled (in Europe), which provided content. Television broadcasts were ingreyscale(calledblack and white) until the transition tocolor televisionin the 1960s.^[2]

There was no other method of television delivery until the 1950s with the beginnings ofcable televisionandcommunity antenna television(CATV). CATV was, initially, only a re-broadcast of over-the-air signals. With the widespread adoption of cable across the United States in the 1970s and 1980s, viewing of terrestrial television broadcasts has been in decline; in 2018, it was estimated that about 14% of US households used an antenna.^[3]^[4]However, in certain other regions terrestrial television continue to be the preferred method of receiving television, and it is estimated byDeloitteas of 2020 that at least 1.6 billion people in the world receive at least some television using these means.^[5]The largest market is thought to beIndonesia,where 250 million people watch through terrestrial.

By 2019,over-the-top media service(OTT) which is streamed via the internet had become a common alternative.^[6]

Analog

Rooftoptelevision antennaslike these are required to receive terrestrial television infringe receptionareas far from the television station.

Europe

Following the ST61 conference, UHF frequencies were first used in the UK in 1964 with the introduction ofBBC2.In the UK, VHF channels were kept on the old405-linesystem, while UHF was used solely for 625-line broadcasts (which later usedPALcolor). Television broadcasting in the 405-line system continued after the introduction of four analog programs in the UHF bands until the last 405-line transmitters were switched off on January 6, 1985.VHFBand III was used in other countries around Europe for PAL broadcasts until the planned phase-out and switch over to digital television.

The success of analog terrestrial television across Europe varied from country to country. Although each country had rights to a certain number of frequencies by virtue of the ST61 plan, not all of them were brought into service.

Americas

The firstNational Television System Committeestandard was introduced in 1941. This standard defined a transmission scheme for a black-and-white picture with 525 lines of vertical resolution at 60 fields per second. In the early 1950s, this standard was superseded by a backward-compatible standard forcolor television.The NTSC standard was exclusively being used in the Americas as well as Japan until theintroduction of digital terrestrial television(DTT). While Mexico has ended all its analog television broadcasts and the United States and Canada have shut down nearly all of their analog TV stations, the NTSC standard continues to be used in the rest of Latin American countries except for Argentina, Paraguay and Uruguay where PAL-N standard is used while testing their DTT platform.^[7]

In the late 1990s and early 2000s, theAdvanced Television Systems Committeedeveloped theATSC standardfor digital high-definition terrestrial transmission. This standard was eventually adopted by many American countries, including the United States, Canada, Dominican Republic, Mexico, Argentina, El Salvador, Guatemala and Honduras; however, the four latter countries reversed their decision in favor ofISDB-Tb.^[8]^[9]

The Pan-American terrestrial television operates on analog channels 2 through 6 (VHF-low band, 54 to 88 MHz, known asband Iin Europe), 7 through 13 (VHF-high band, 174 to 216 MHz, known asband IIIelsewhere), and 14 through 51 (UHFtelevision band, 470 to 698 MHz, elsewherebands IVandV). Unlike with analog transmission, ATSC channel numbers do not correspond to radio frequencies. Instead, avirtual channelis defined as part of the ATSC stream metadata so that a station can transmit on any frequency but still show the same channel number.^[10]Additionally,free-to-air television repeatersand signal boosters can be used to rebroadcast a terrestrial television signal using an otherwise unused channel to cover areas with marginal reception. (seePan-American television frequenciesfor frequency allocation charts)^[11]

Analog television channels 2 through 6, 7 through 13, and 14 through 51 are only used forLPTVtranslator stations in the United States. Channels 52 through 69 are still used by some existing stations, but these channels must be vacated if telecommunications companies notify the stations to vacate that signal spectrum. By convention, broadcast television signals are transmitted with horizontal polarization.

Asia

Terrestrial television broadcast in Asia started as early as 1939 in Japan through a series of experiments done byNHK Broadcasting Institute of Technology.However, these experiments were interrupted by the beginning of theWorld War IIin the Pacific. On February 1, 1953,NHK(Japan Broadcasting Corporation) began broadcasting. On August 28, 1953,Nippon TV(Nippon Television Network Corporation), the first commercial television broadcaster in Asia was launched. Meanwhile, in the Philippines, Alto Broadcasting System (nowABS-CBN Corporation), the first commercial television broadcaster inSoutheast Asia,launched its first commercial terrestrial television stationDZAQ-TVon October 23, 1953, with the help ofRadio Corporation of America(RCA).

Digital

By the mid-1990s, the interest indigital televisionacross Europe was such theCEPTconvened the "Chester '97" conference to agree on means by which digital television could be inserted into the ST61frequency plan.

The introduction of digital terrestrial television in the late 1990s and early years of the 21st century led the ITU to call aRegional Radiocommunication Conferencetoabrogatethe ST61 plan and to put a new plan for DTT broadcasting only in its place.

In December 2005, theEuropean Uniondecided to cease allanalog audioandanalog videotelevision transmissions by 2012 and switch all terrestrial television broadcasting todigital audioanddigital video(all EU countries have agreed on usingDVB-T). The Netherlands completed the transition in December 2006, and some EU member states decided to complete their switchover as early as 2008 (Sweden), and (Denmark) in 2009. While the UK began to switch off analog broadcasts, region by region, in late 2007, it was not completed until 24 October 2012. Norway ceased all analog television transmissions on 1 December 2009.^[12]Two member states (not specified in the announcement) expressed concerns that they might not be able to proceed to the switchover by 2012 due to technical limitations; the rest of the EU member states had stopped analog television transmissions by the end 2012.

Many countries are developing and evaluating digital terrestrial television systems.

Australia has adopted the DVB-T standard and the government's industry regulator, theAustralian Communications and Media Authority,has mandated that all analog transmissions will cease by 2012. Mandated digital conversion started early in 2009 with a graduated program. The first centre to experience analog switch-off was the remote Victorian regional town ofMildura,in 2010. The government supplied underprivileged houses across the nation with free digital set-topconverterboxes in order to minimize conversion disruption. Australia's majorfree-to-air television networkswere all granted digital transmission licenses and are each required to broadcast at least one high-definition and one standard-definition channel into all of their markets.

In North America, a specification laid out by theATSChas become the standard for digital terrestrial television. In the United States, theFederal Communications Commission(FCC) set the final deadline for the switch-off of analog service for 12 June 2009. All television receivers must now include aDTT tuner using ATSC.In Canada, theCanadian Radio-television and Telecommunications Commission(CRTC) set 31 August 2011 as the date that terrestrial analog transmission service ceased in metropolitan areas and provincial capitals. ^[13]^[14]In Mexico, theFederal Telecommunications Institute(IFT) discontinued the use of analog terrestrial television on 31 December 2015.

References

^BBC."Help receiving TV and radio".RetrievedSeptember 28,2020.
^"The Color Revolution: Television In The Sixties".TVObscurities. 2005-02-15.Retrieved2017-09-04.
^"OTA Homes Cross 16M Mark, Per Nielsen",TVTechnology,13 February 2019, Michael Balderston
^McAdams, Deborah D (14 January 2013)."Nielsen: Broadcast Reliance Grew in 2012".TVTechnology.Archivedfrom the original on Feb 21, 2014.
^"Deloitte: Terrestrial TV has surprising staying power".Broadband TV News.11 December 2019.Archivedfrom the original on Jun 16, 2023.
^Jacobson, Adam (2019-04-25)."Is OTT Eating Into OTA, While Killing Cable TV?".Radio & Television Business Report.Archivedfrom the original on Dec 6, 2020.Retrieved2020-07-25.
^Mick Hurbis-Cherrier (2007)."NTSC Broadcast Standards"(PDF).Voice & Vision ed. 1.Archived fromthe original(PDF)on 2017-09-05.Retrieved2017-09-04.
^"About ATSC".Advanced Television Systems Committee.Retrieved2017-09-04.
^"ATSC Standards".Advanced Television Systems Committee.Retrieved2017-09-04.
^ATSC Standard: Program and System Information Protocol for Terrestrial Broadcast and Cable(PDF).Advanced Television Systems Committee.Archived(PDF)from the original on 2015-04-14.Retrieved2017-09-04.
^"FCC regulations CFR 47 Part 74 Subpart L: FM Broadcast Translator Stations and FM Broadcast Booster Stations".Edocket.access.gpo.gov.Retrieved2017-09-04.
^"DVB – Digital Video Broadcasting – Norway".Digital Video Broadcasting Project.
^"The Commission establishes a new approach for Canadian conventional television"(Press release).Canadian Radio-television and Telecommunications Commission.2007-05-17. Archived fromthe originalon 2007-05-19.Retrieved2007-05-17.
^"Broadcasting Public Notice CRTC 2007–53".Sections 50 to 80.Canadian Radio-television and Telecommunications Commission.2007-05-17.Retrieved2007-05-17.

External links

TVRadioWorld TV stations directory
W9WI.com(Terrestrial repeater and TV hobbyist information)
TV Coverage maps and Signal Analysis
[1]

[BBChelp-1] BBC."Help receiving TV and radio".RetrievedSeptember 28,2020.

[2] "The Color Revolution: Television In The Sixties".TVObscurities. 2005-02-15.Retrieved2017-09-04.

[3] "OTA Homes Cross 16M Mark, Per Nielsen",TVTechnology,13 February 2019, Michael Balderston

[4] McAdams, Deborah D (14 January 2013)."Nielsen: Broadcast Reliance Grew in 2012".TVTechnology.Archivedfrom the original on Feb 21, 2014.

[5] "Deloitte: Terrestrial TV has surprising staying power".Broadband TV News.11 December 2019.Archivedfrom the original on Jun 16, 2023.

[6] Jacobson, Adam (2019-04-25)."Is OTT Eating Into OTA, While Killing Cable TV?".Radio & Television Business Report.Archivedfrom the original on Dec 6, 2020.Retrieved2020-07-25.

[7] Mick Hurbis-Cherrier (2007)."NTSC Broadcast Standards"(PDF).Voice & Vision ed. 1.Archived fromthe original(PDF)on 2017-09-05.Retrieved2017-09-04.

[8] "About ATSC".Advanced Television Systems Committee.Retrieved2017-09-04.

[9] "ATSC Standards".Advanced Television Systems Committee.Retrieved2017-09-04.

[10] ATSC Standard: Program and System Information Protocol for Terrestrial Broadcast and Cable(PDF).Advanced Television Systems Committee.Archived(PDF)from the original on 2015-04-14.Retrieved2017-09-04.

[11] "FCC regulations CFR 47 Part 74 Subpart L: FM Broadcast Translator Stations and FM Broadcast Booster Stations".Edocket.access.gpo.gov.Retrieved2017-09-04.

[12] "DVB – Digital Video Broadcasting – Norway".Digital Video Broadcasting Project.

[13] "The Commission establishes a new approach for Canadian conventional television"(Press release).Canadian Radio-television and Telecommunications Commission.2007-05-17. Archived fromthe originalon 2007-05-19.Retrieved2007-05-17.

[14] "Broadcasting Public Notice CRTC 2007–53".Sections 50 to 80.Canadian Radio-television and Telecommunications Commission.2007-05-17.Retrieved2007-05-17.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

v t e Analog television broadcasting topics
Systems	180-line 343-line 375-line 405-line(System A) 441-line 455-line 525-line(System M) 625-line(System B,System C,System D,System G,System H,System I,System K,System L,System N) 819-line(System E,System F)
Color systems	NTSC NTSC-J Clear-Vision PAL PAL-M PAL-S PALplus SECAM
Video	Back porchandfront porch Black level Blanking level Chrominance Chrominance subcarrier Colorburst Color killer Color TV Composite video Frame (video) Horizontal scan rate Horizontal blanking interval Luma Nominal analogue blanking Overscan Raster scan Safe area Television lines Vertical blanking interval White clipper
Sound	Multichannel television sound NICAM Sound-in-Syncs Zweikanalton
Modulation	Frequency modulation Quadrature amplitude modulation Vestigial sideband modulation (VSB)
Transmission	Amplifiers Antenna (radio) Broadcast transmitter/Transmitter station Cavity amplifier Differential gain Differential phase Diplexer Dipole antenna Dummy load Frequency mixer Intercarrier method Intermediate frequency Output power of an analog TV transmitter Pre-emphasis Residual carrier Split sound system Superheterodyne transmitter Television receive-only Direct-broadcast satellite television Television transmitter Terrestrial television Transposer Digital television transition
Frequencies& bands	Frequency offset Microwave transmission Television channel frequencies UHF VHF
Propagation	Beam tilt Distortion Earth bulge Field strength in free space Noise (electronics) Null fill Path loss Radiation pattern Skew Television interference
Testing	Distortionmeter Field strength meter Vectorscope VIT signals Zero reference pulse
Artifacts	Dot crawl Ghosting Hanover bars Sparklies

v t e Telecommunications
History	Beacon Broadcasting Cable protection system Cable TV Communications satellite Computer network Data compression audio DCT image video Digital media Internet video online video platform social media streaming Drums Edholm's law Electrical telegraph Fax Heliographs Hydraulic telegraph Information Age Information revolution Internet Mass media Mobile phone Smartphone Optical telecommunication Optical telegraphy Pager Photophone Prepaid mobile phone Radio Radiotelephone Satellite communications Semaphore Phryctoria Semiconductor device MOSFET transistor Smoke signals Telecommunications history Telautograph Telegraphy Teleprinter(teletype) Telephone The Telephone Cases Television digital streaming Undersea telegraph line Videotelephony Whistled language Wireless revolution
Pioneers	Nasir Ahmed Edwin Howard Armstrong Mohamed M. Atalla John Logie Baird Paul Baran John Bardeen Alexander Graham Bell Emile Berliner Tim Berners-Lee Francis Blake (telephone) Jagadish Chandra Bose Charles Bourseul Walter Houser Brattain Vint Cerf Claude Chappe Yogen Dalal Daniel Davis Jr. Donald Davies Amos Dolbear Thomas Edison Lee de Forest Philo Farnsworth Reginald Fessenden Elisha Gray Oliver Heaviside Robert Hooke Erna Schneider Hoover Harold Hopkins Gardiner Greene Hubbard Internet pioneers Bob Kahn Dawon Kahng Charles K. Kao Narinder Singh Kapany Hedy Lamarr Innocenzo Manzetti Guglielmo Marconi Robert Metcalfe Antonio Meucci Samuel Morse Jun-ichi Nishizawa Charles Grafton Page Radia Perlman Alexander Stepanovich Popov Tivadar Puskás Johann Philipp Reis Claude Shannon Almon Brown Strowger Henry Sutton Charles Sumner Tainter Nikola Tesla Camille Tissot Alfred Vail Thomas A. Watson Charles Wheatstone Vladimir K. Zworykin
Transmission media	Coaxial cable Fiber-optic communication optical fiber Free-space optical communication Molecular communication Radio waves wireless Transmission line telecommunication circuit
Network topology and switching	Bandwidth Links Nodes terminal Network switching circuit packet Telephone exchange
Multiplexing	Space-division Frequency-division Time-division Polarization-division Orbital angular-momentum Code-division
Concepts	Communication protocol Computer network Data transmission Store and forward Telecommunications equipment
Types of network	Cellular network Ethernet ISDN LAN Mobile NGN Public Switched Telephone Radio Television Telex UUCP WAN Wireless network
Notable networks	ARPANET BITNET CYCLADES FidoNet Internet Internet2 JANET NPL network Toasternet Usenet
Locations	Africa Americas North South Antarctica Asia Europe Oceania (Global telecommunications regulation bodies)
Telecommunication portal Category Outline Commons