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			{{Short description\|Television content transmitted via signals in the air}}
	{{redirect\|Air TV\|the anime\|Air (visual novel)}}		{{redirect\|Air TV\|the anime\|Air (visual novel)}}
	{{~~Refimprove~~\|date=~~January~~ ~~2010~~}}		{{Use American English\|date=April 2024}}

			]
	]
			{{multiple image
			\| align = right
			\| direction = horizontal
			\| header =
			\| image1 = Superturnstile Tx Muehlacker.JPG
			\| caption1 =
			\| width1 = 135
			\| image2 = Empire State Building television antenna 1939.jpg
			\| caption2 =
			\| width2 = 112
			\| footer = {{ubli
			\| ''(left)'' A television broadcasting antenna in Muehlacker, Germany
			\| ''(right)'' One of the first television broadcasting antennas, on the ] in New York City for NBC's experimental 46.5 MHz TV station ] in 1939.
			}}
			}}

	'''Terrestrial television''' or '''~~broadcast~~ television''' is a type of ] ] in which the ~~television signal~~ is transmitted by ]s from the terrestrial (Earth based) ] of a ] to a ] having an ]. The term is more common in ], while in ] it is ~~referred~~ to as ~~'''broadcast~~ ~~television~~''' or ~~sometimes~~ '''~~over-the-air television~~'~~'' (OTA)~~. ~~The~~ ~~term~~ ~~"terrestrial"~~ is ~~used~~ to ~~distinguish this type~~ from ~~the~~ newer technologies of ] (] or DBS television), in which the ~~television~~ signal is transmitted to the receiver from an overhead ]~~, and~~ ], in which the signal is carried to the receiver through a ].		'''Terrestrial television''', or '''over-the-air television''' ('''OTA''') is a type of ] ] in which the content is ] via ]s from the terrestrial (Earth-based) ] of a ] to a ] having an ]. The term ''terrestrial'' is more common in Europe and Latin America, while in Canada and the United States it is called ''over-the-air'' or simply ''broadcast''. This type of ] is distinguished from newer technologies, such as ] (] or DBS television), in which the signal is transmitted to the receiver from an overhead ]; ], in which the signal is carried to the receiver through a ]; and ], in which the signal is received over an ] stream or on a network utilizing the ]. Terrestrial television stations broadcast on ]s with ] between about 52 and 600 MHz in the ] and ] bands. Since radio waves in these bands travel by ], reception is generally limited by the visual horizon to distances of {{convert\|64-97\|km\|miles\|sigfig=2\|abbr=}}, although under better conditions and with ], signals can sometimes be received hundreds of kilometers distant.<ref name="BBChelp">{{cite web\|author=BBC\|author-link=BBC.co.uk\|title=Help receiving TV and radio\|url=https://www.bbc.co.uk/reception/help-guides/freeview/effect-of-tropospheric-ducting-on-freeview\|access-date=September 28, 2020}}</ref>

	Terrestrial television was the first technology used for television broadcasting~~, with the first long-distance ] broadcast from Washington, D.C., on 7 April 1927~~. The ] began broadcasting in 1929 and had a regular schedule of ]mes ~~in 1930~~. However, these early experimental systems had insufficient picture quality to attract the public, due to their ] technology, and television ~~didn't~~ become widespread until after ] with the advent of ] technology. The television broadcasting business followed the model of ]s, with local television stations in cities and towns affiliated with ]s, either commercial (in ~~USA~~) or government-controlled (in Europe), which provided content. Television broadcasts were in ] until the transition to ] in the ~~1950s and 60s~~.<ref>{{		Terrestrial television was the first technology used for television broadcasting. The ] began broadcasting in 1929 and by 1930 many radio stations had a regular schedule of experimental ]mes. However, these early experimental systems had insufficient picture quality to attract the public, due to their ] technology, and television did not become widespread until after ] with the advent of electronic scan television technology. The television broadcasting business followed the model of ]s, with local television stations in cities and towns affiliated with ]s, either commercial (in the US) or government-controlled (in Europe), which provided content. Television broadcasts were in ] (called ]) until the transition to ] in the 1960s.<ref>{{cite web\| url=http://www.tvobscurities.com/articles/color60s/\| access-date=2017-09-04\| title=The Color Revolution: Television In The Sixties\| date=2005-02-15\| publisher=TVObscurities}}</ref>
	cite web
	\| url=http://www.tvobscurities.com/articles/color60s/
	\| accessdate=2017-09-04
	\| title=The Color Revolution: Television In The Sixties
	\| date=2005-02-15
	\| publisher=TVObscurities
	}}</ref>

	There was no other method of television delivery until the 1950s with the beginnings of ] and ''community 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 ~~2013~~, it was estimated that about 7% of US households used an antenna.<ref>, '"TVTechnology'', 30 ~~July~~ ~~2013~~</ref><ref>, ''TVTechnology~~'',~~ 14 January 2013</ref> A ~~slight~~ ~~increase~~ in ~~use~~ ~~began~~ ~~after~~ ~~the~~ ~~2009~~ ~~final~~ ~~conversion~~ to ] ~~broadcasts~~, ~~which~~ ~~offer~~ ] ~~image~~ ~~quality~~ as an ~~alternative~~ to ~~CATV~~ ~~for~~ ].{{~~citation~~ ~~needed~~\|date=~~September~~ ~~2017~~}}		There was no other method of television delivery until the 1950s with the beginnings of ] and ''community 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.<ref>, ''TVTechnology'', 13 February 2019, Michael Balderston</ref><ref>{{cite web \|url-status=live \|url=https://www.tvtechnology.com/.amp/news/nielsen-broadcast-reliance-grew-in-2012 \|title=Nielsen: Broadcast Reliance Grew in 2012 \|website=TVTechnology \|date=14 January 2013 \|archive-url=https://web.archive.org/web/20140221011552/http://www.tvtechnology.com/article/nielsen-broadcast-reliance-grew-in--/217217 \|first1=Deborah D \|last1=McAdams \|archive-date=Feb 21, 2014 }}</ref> However, in certain other regions terrestrial television continue to be the preferred method of receiving television, and it is estimated by ] as of 2020 that at least 1.6 billion people in the world receive at least some television using these means.<ref>{{Cite web\|url=https://www.broadbandtvnews.com/2019/12/11/deloitte-terrestrial-tv-has-surprising-staying-power/\|title=Deloitte: Terrestrial TV has surprising staying power\|date=11 December 2019 \|website=Broadband TV News \|url-status=live \|archive-url=https://web.archive.org/web/20230616072705/https://www.broadbandtvnews.com/2019/12/11/deloitte-terrestrial-tv-has-surprising-staying-power/ \|archive-date= Jun 16, 2023 }}</ref> The largest market is thought to be ], where 250 million people watch through terrestrial.

			By 2019, ] (OTT) which is streamed via the internet had become a common alternative.<ref>{{Cite web\|last=Jacobson\|first=Adam\|date=2019-04-25\|title=Is OTT Eating Into OTA, While Killing Cable TV? \|website= Radio & Television Business Report\|url=https://www.rbr.com/is-ott-eating-into-ota-while-killing-cable-tv/ \|url-access=subscription \|access-date=2020-07-25\|language=en-US \|url-status=live \|archive-url=https://web.archive.org/web/20201206011432/https://www.rbr.com/is-ott-eating-into-ota-while-killing-cable-tv/ \|archive-date= Dec 6, 2020 }}</ref>
	]s like these are required to receive terrestrial television in ] areas far from the television station.]]

	==~~Europe~~==		== Analog ==
			{{See also\|Analog television}}
	Following the ST61 conference, UHF frequencies were first used in the UK in 1964 with the introduction of ]. In UK, VHF channels were kept on the old ] system, while UHF was used solely for 625-line broadcasts (which later used ] colour). Television broadcasting in the 405-line system continued after the introduction of four analogue programmes in the UHF bands until the last 405-line transmitters were switched off on January 6, 1985. ] Band III was used in other countries around Europe for PAL broadcasts until planned phase out and switchover to digital television.
			]s like these are required to receive analog terrestrial television in ] areas far from the transmitter.]]

			===Europe===
	The success of analogue 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.
			Following the ST61 conference, UHF frequencies were first used in the UK in 1964 with the introduction of ]. In the UK, VHF channels were kept on the old ] system, while UHF was used solely for 625-line broadcasts (which later used ] color). 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. ] Band 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.
	==North America==

			===Americas===
	In 1941, the first ] standard was introduced by the ]. 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 backwards-compatible standard for ]. The NTSC standard was used in the Americas as well as Japan until the ].<ref>{{cite web
	\|url=http://cw.routledge.com/textbooks/97802408115812e/pdf/ntsc_video_standards.pdf
	\|title=NTSC Broadcast Standards
	\|author=Mick Hurbis-Cherrier
	\|accessdate=2017-09-04
	\|date=2007
	}}</ref>

			The first ] standard 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 for ]. The NTSC standard was exclusively being used in the Americas as well as Japan until the ] (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.<ref>{{cite web\|url=http://cw.routledge.com/textbooks/97802408115812e/pdf/ntsc_video_standards.pdf\|title=NTSC Broadcast Standards\|author=Mick Hurbis-Cherrier\|access-date=2017-09-04\|date=2007 \|work=Voice & Vision ed. 1 \|archive-url=https://web.archive.org/web/20170905053315/http://cw.routledge.com/textbooks/97802408115812e/pdf/ntsc_video_standards.pdf\|archive-date=2017-09-05\|url-status=dead}}</ref>
	In the late 1990s and early 2000s, the ] developed the ] for digital high definition terrestrial transmission. This standard was eventually adopted by many North American countries, including the United States, Canada, Dominican Republic, El Salvador, Guatemala, Honduras, and Mexico.<ref>{{cite web
	\|accessdate=2017-09-04
	\|url=https://www.atsc.org/about-us/about-atsc/
	\|title=About ATSC
	\|publisher=Advanced Television Systems Committee
	}}</ref>
	<ref>{{cite web
	\|accessdate=2017-09-04
	\|url=https://www.atsc.org/standards/atsc-standards/
	\|title=ATSC Standards
	\|publisher=Advanced Television Systems Committee
	}}</ref>

			In the late 1990s and early 2000s, the ] developed the ] for 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 of ]b.<ref>{{cite web\|access-date=2017-09-04\|url=https://www.atsc.org/about-us/about-atsc/\|title=About ATSC\|publisher=Advanced Television Systems Committee}}</ref><ref>{{cite web\|access-date=2017-09-04\|url=https://www.atsc.org/standards/atsc-tandards/\|title=ATSC Standards\|publisher=Advanced Television Systems Committee}}</ref>
	North American terrestrial broadcast television operates on analog channels 2 through 6 (]-low band, 54 to 88 MHz, known as ] in Europe), 7 through 13 (VHF-high band, 174 to 216 MHz, known as ] elsewhere), and 14 through 51 (] television band, 470 to 698 MHz, elsewhere ] and ]). Unlike with analog transmission, ATSC channel numbers do not correspond to radio frequencies. Instead, a ] is defined as part of the ATSC stream metadata so that a station can transmit on any frequency but still show the same channel number.<ref>{{citation
	\|title=ATSC Standard: Program and System Information Protocol for Terrestrial Broadcast and Cable
	\|url=http://www.atsc.org/wp-content/uploads/2015/03/Program-System-Information-Protocol-for-Terrestrial-Broadcast-and-Cable.pdf
	\|publisher=Advanced Television Systems Committee
	\|accessdate=2017-09-04
	}}</ref> Additionally, ] and signal boosters can be used to rebroadcast a terrestrial television signal using an otherwise unused channel to cover areas with marginal reception. (see ] for frequency allocation charts)<ref>{{cite web
	\|url=http://edocket.access.gpo.gov/cfr_2007/octqtr/47cfr74.1201.htm
	\|title=FCC regulations CFR 47 Part 74 Subpart L: FM Broadcast Translator Stations and FM Broadcast Booster Stations
	\|publisher=Edocket.access.gpo.gov
	\|accessdate=2017-09-04
	}}</ref>

			The Pan-American terrestrial television operates on analog channels 2 through 6 (]-low band, 54 to 88 MHz, known as ] in Europe), 7 through 13 (VHF-high band, 174 to 216 MHz, known as ] elsewhere), and 14 through 51 (] television band, 470 to 698 MHz, elsewhere ] and ]). Unlike with analog transmission, ATSC channel numbers do not correspond to radio frequencies. Instead, a ] is defined as part of the ATSC stream metadata so that a station can transmit on any frequency but still show the same channel number.<ref>{{cite book
	Analog television channels 2 through 6, 7 through 13, and 14 through 51 are only used for ] translator stations in the U.S. 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.
			\|title=ATSC Standard: Program and System Information Protocol for Terrestrial Broadcast and Cable\|url=http://www.atsc.org/wp-content/uploads/2015/03/Program-System-Information-Protocol-for-Terrestrial-Broadcast-and-Cable.pdf\|publisher=Advanced Television Systems Committee\|access-date=2017-09-04\|archive-url=https://web.archive.org/web/20150414003504/http://www.atsc.org/wp-content/uploads/2015/03/Program-System-Information-Protocol-for-Terrestrial-Broadcast-and-Cable.pdf\|archive-date=2015-04-14\|url-status=live}}</ref> Additionally, ] and signal boosters can be used to rebroadcast a terrestrial television signal using an otherwise unused channel to cover areas with marginal reception. (see ] for frequency allocation charts)<ref>{{cite web\|url=http://edocket.access.gpo.gov/cfr_2007/octqtr/47cfr74.1201.htm\|title=FCC regulations CFR 47 Part 74 Subpart L: FM Broadcast Translator Stations and FM Broadcast Booster Stations\|publisher=Edocket.access.gpo.gov\|access-date=2017-09-04}}</ref>

			Analog television channels 2 through 6, 7 through 13, and 14 through 51 are only used for ] translator 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==

			===Asia===
	{{Expand section\|date=November 2010}}		{{Expand section\|date=November 2010}}
	Terrestrial television broadcast in ] started as early as 1939 ~~in ]~~ through a series of experiments done by ]. However, these experiments were interrupted by the beginning of the ] in the Pacific. On February 1, 1953, ] (Japan Broadcasting Corporation) began broadcasting. On August 28, 1953, ] (Nippon Television Network Corporation), the first commercial television broadcaster in Asia was launched. Meanwhile, ~~in the ]~~, ] (now ]), the first commercial television broadcaster in ], launched its first commercial terrestrial television station ] on October 23, 1953, with the help of ] (RCA).		Terrestrial television broadcast in Asia started as early as 1939 in Japan through a series of experiments done by ]. However, these experiments were interrupted by the beginning of the ] in the Pacific. On February 1, 1953, ] (Japan Broadcasting Corporation) began broadcasting. On August 28, 1953, ] (Nippon Television Network Corporation), the first commercial television broadcaster in Asia was launched. Meanwhile, in the Philippines, Alto Broadcasting System (now ]), the first commercial television broadcaster in ], launched its first commercial terrestrial television station ] on October 23, 1953, with the help of ] (RCA).

	==Digital ~~terrestrial television~~==		==Digital==
	{{main\|Digital terrestrial television}}		{{main\|Digital terrestrial television}}
	{{update\|section\|date=December 2014}}		{{update\|section\|date=December 2014}}

	By the mid-1990s, the interest in ] across Europe was such the ] convened the "Chester '97" conference to agree means by which digital television could be inserted into the ST61 frequency plan.		By the mid-1990s, the interest in ] across Europe was such the ] convened the "Chester '97" conference to agree on means by which digital television could be inserted into the ST61 ].

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

	In December 2005, the ] decided to cease all ] and ] television transmissions by 2012 and switch all terrestrial television broadcasting to ] and ] (all EU countries have agreed on using ]). 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 ~~the~~ switch in late 2007, it was not completed until 24 October 2012. Norway ceased all ~~analogue~~ television transmissions on December 1, 2009.<ref>{{cite web\|url=http://www.dvb.org/about_dvb/dvb_worldwide/norway/index.xml\|title=DVB - Digital Video Broadcasting - Norway\|publisher=Digital Video Broadcasting Project}}</ref> Two member states (not specified in the announcement) ~~have~~ 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.		In December 2005, the ] decided to cease all ] and ] television transmissions by 2012 and switch all terrestrial television broadcasting to ] and ] (all EU countries have agreed on using ]). 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.<ref>{{cite web\|url=http://www.dvb.org/about_dvb/dvb_worldwide/norway/index.xml\|title=DVB – Digital Video Broadcasting – Norway\|publisher=Digital Video Broadcasting Project}}</ref> 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.		Many countries are developing and evaluating digital terrestrial television systems.

	Australia has adopted the DVB-T ~~standard~~ and the government's industry regulator, the ], has mandated that all ~~analogue~~ transmissions will cease by 2012. Mandated digital conversion ~~commenced~~ early in 2009 with a graduated program. The first centre to experience analog switch-off ~~will be~~ the remote Victorian regional town of ], in 2010. The government ~~will supply~~ underprivileged houses across the nation with free digital set-top ] boxes in order to ~~minimise any~~ conversion disruption. Australia's major ] ]s ~~have~~ all ~~been~~ granted digital transmission ~~licences~~ and are each required to broadcast at least one high-definition and one standard-definition channel into all of their markets.		Australia has adopted the DVB-T standards and the government's industry regulator, the ], 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 of ], in 2010. The government supplied underprivileged houses across the nation with free digital set-top ] boxes in order to minimize conversion disruption. Australia's major ] ]s were 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 the ] has become the standard for digital terrestrial television. In the United States, the ] (FCC) set the final deadline for the switch-off of analog service for June 12, 2009. All television receivers must now include a ]. In Canada, the ] (CRTC), set August 31, 2011, as the date that over-the-air analog transmission service ceased in metropolitan areas and provincial capitals.
	<ref>
	{{cite press release
	\| title = The Commission establishes a new approach for Canadian conventional television
	\| publisher = ]
	\| date =2007-05-17
	\| url = http://www.crtc.gc.ca/eng/NEWS/RELEASES/2007/r070517.htm
	\| accessdate = 2007-05-17}}</ref>
	<ref>{{cite web
	\| last =
	\| first =
	\| authorlink =
	\| coauthors =
	\| title = Broadcasting Public Notice CRTC 2007-53
	\| work = Sections 50 to 80
	\| publisher = ]
	\| date = 2007-05-17
	\| url = http://www.crtc.gc.ca/eng/archive/2007/pb2007-53.htm
	\| doi =
	\| accessdate = 2007-05-17}}</ref> In Mexico, the ] (IFT) set the final deadline for the end of Analog Television for December 31, 2015.

	==Competition for radio spectrum==
	{{Update\|inaccurate=y\|date=December 2010}}
	In late 2009, US competition for the limited available radio spectrum led to debate over the possible re-allocation of frequencies currently occupied by television, and the FCC began asking for comments on how to increase the ] available for ]. Some have proposed mixing the two together, on different channels that are already open (like ]) while others have proposed "repacking" some stations and forcing them off certain channels, just a few years after the same thing was done (without ] to the broadcasters) in the ].

	Some US commentators have proposed the closing down of over-the-air ], on the grounds that available spectrum might be better used, and requiring viewers to shift to satellite or cable reception. This would eliminate ], which has been delayed several years by the FCC's decision to choose ] and its proprietary ] ], instead of the worldwide ] standard used for all other digital terrestrial broadcasting around the world. Compared to Europe and Asia, this has hamstrung mobile TV in the US, because ATSC cannot be received while in motion (or often even while stationary) without ] as terrestrial ] or ] can even without ] or ].

			In North America, a specification laid out by the ] has become the standard for digital terrestrial television. In the United States, the ] (FCC) set the final deadline for the switch-off of analog service for 12 June 2009. All television receivers must now include a ]. In Canada, the ] (CRTC) set 31 August 2011 as the date that terrestrial analog transmission service ceased in metropolitan areas and provincial capitals.
	The ] has organized to fight such proposals, and ]s are also being taken by the FCC through mid-December 2009, in preparation for a ] to be released in mid-February 2010.
			<ref>{{cite press release \|title = The Commission establishes a new approach for Canadian conventional television \|publisher = ] \|date = 2007-05-17 \|url = http://www.crtc.gc.ca/eng/NEWS/RELEASES/2007/r070517.htm \|access-date = 2007-05-17 \|url-status = dead \|archive-url =https://web.archive.org/web/20070519082346/http://www.crtc.gc.ca/eng/NEWS/RELEASES/2007/r070517.htm \|archive-date = 2007-05-19 }}</ref><ref>{{cite web \| title = Broadcasting Public Notice CRTC 2007–53 \| work = Sections 50 to 80 \| publisher = ] \| date = 2007-05-17 \| url = http://www.crtc.gc.ca/eng/archive/2007/pb2007-53.htm \| access-date = 2007-05-17}}</ref> In Mexico, the ] (IFT) discontinued the use of analog terrestrial television on 31 December 2015.

	==See also==		==See also==
	{{portal\|Television}}		{{portal\|Television}}
			{{Div col}}
	*]
	*]		* ]
			* ]
	*]s
			* ]
	*] for lists by country and language.
			* ]
	*]
	*]		* ]
	*]		* ]
	*]		* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			* ] for various lists
			* ]
			* ]
			* ]
			* ]
			* ]
			* ]
			{{Div col end}}

	==References==		==References==
Line 123:		Line 110:

	==External links==		==External links==
			{{Commons category\|Terrestrial television}}
	*		*
	* (Terrestrial repeater and TV hobbyist information)		* (Terrestrial repeater and TV hobbyist information)
	*		*
			*

	{{Analogue TV transmitter topics}}		{{Analogue TV transmitter topics}}
Line 133:		Line 122:
	]		]
	]		]
	]

Latest revision as of 03:16, 22 November 2024

Television content transmitted via signals in the air "Air TV" redirects here. For the anime, see Air (visual novel).

(left) A television broadcasting antenna in Muehlacker, Germany
(right) One of the first television broadcasting antennas, on the Empire State Building in New York City for NBC's experimental 46.5 MHz TV station W2XBS in 1939.

Terrestrial television, or over-the-air television (OTA) is a type of television broadcasting in which the content is transmitted via radio waves from the terrestrial (Earth-based) transmitter of a TV station to a TV receiver having an antenna. The term terrestrial is more common in Europe and Latin America, while in Canada and the United States it is called over-the-air or simply broadcast. This type of TV broadcast is distinguished from newer technologies, such as satellite television (direct broadcast satellite or DBS television), in which the signal is transmitted to the receiver from an overhead satellite; cable television, in which the signal is carried to the receiver through a cable; and Internet Protocol television, in which the signal is received over an Internet stream or on a network utilizing the Internet Protocol. Terrestrial television stations broadcast on television channels with frequencies between about 52 and 600 MHz in the VHF and UHF bands. Since radio waves in these bands travel by line of sight, reception is generally limited by the visual horizon to distances of 64–97 kilometres (40–60 miles), although under better conditions and with tropospheric ducting, signals can sometimes be received hundreds of kilometers distant.

Terrestrial television was the first technology used for television broadcasting. The BBC began broadcasting in 1929 and by 1930 many radio stations had a regular schedule of experimental television programmes. However, these early experimental systems had insufficient picture quality to attract the public, due to their mechanical scan technology, and television did not become widespread until after World War II with the advent of electronic scan television technology. The television broadcasting business followed the model of radio networks, with local television stations in cities and towns affiliated with television networks, either commercial (in the US) or government-controlled (in Europe), which provided content. Television broadcasts were in greyscale (called black and white) until the transition to color television in the 1960s.

There was no other method of television delivery until the 1950s with the beginnings of cable television and community 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. However, in certain other regions terrestrial television continue to be the preferred method of receiving television, and it is estimated by Deloitte as of 2020 that at least 1.6 billion people in the world receive at least some television using these means. The largest market is thought to be Indonesia, 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.

Analog

Europe

Following the ST61 conference, UHF frequencies were first used in the UK in 1964 with the introduction of BBC2. In the UK, VHF channels were kept on the old 405-line system, while UHF was used solely for 625-line broadcasts (which later used PAL color). 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. VHF Band 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 first National Television System Committee standard 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 for color television. The NTSC standard was exclusively being used in the Americas as well as Japan until the introduction 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.

In the late 1990s and early 2000s, the Advanced Television Systems Committee developed the ATSC standard for 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 of ISDB-Tb.

The Pan-American terrestrial television operates on analog channels 2 through 6 (VHF-low band, 54 to 88 MHz, known as band I in Europe), 7 through 13 (VHF-high band, 174 to 216 MHz, known as band III elsewhere), and 14 through 51 (UHF television band, 470 to 698 MHz, elsewhere bands IV and V). Unlike with analog transmission, ATSC channel numbers do not correspond to radio frequencies. Instead, a virtual channel is defined as part of the ATSC stream metadata so that a station can transmit on any frequency but still show the same channel number. Additionally, free-to-air television repeaters and signal boosters can be used to rebroadcast a terrestrial television signal using an otherwise unused channel to cover areas with marginal reception. (see Pan-American television frequencies for frequency allocation charts)

Analog television channels 2 through 6, 7 through 13, and 14 through 51 are only used for LPTV translator 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

This section needs expansion. You can help by adding to it. (November 2010)

Terrestrial television broadcast in Asia started as early as 1939 in Japan through a series of experiments done by NHK Broadcasting Institute of Technology. However, these experiments were interrupted by the beginning of the World War II in 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 (now ABS-CBN Corporation), the first commercial television broadcaster in Southeast Asia, launched its first commercial terrestrial television station DZAQ-TV on October 23, 1953, with the help of Radio Corporation of America (RCA).

Digital

Main article: Digital terrestrial television

This section needs to be updated. Please help update this article to reflect recent events or newly available information. (December 2014)

By the mid-1990s, the interest in digital television across Europe was such the CEPT convened the "Chester '97" conference to agree on means by which digital television could be inserted into the ST61 frequency plan.

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

In December 2005, the European Union decided to cease all analog audio and analog video television transmissions by 2012 and switch all terrestrial television broadcasting to digital audio and digital video (all EU countries have agreed on using DVB-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. 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 standards and the government's industry regulator, the Australian 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 of Mildura, in 2010. The government supplied underprivileged houses across the nation with free digital set-top converter boxes in order to minimize conversion disruption. Australia's major free-to-air television networks were 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 the ATSC has become the standard for digital terrestrial television. In the United States, the Federal Communications Commission (FCC) set the final deadline for the switch-off of analog service for 12 June 2009. All television receivers must now include a DTT tuner using ATSC. In Canada, the Canadian 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. In Mexico, the Federal Telecommunications Institute (IFT) discontinued the use of analog terrestrial television on 31 December 2015.

References

BBC. "Help receiving TV and radio". Retrieved September 28, 2020.
"The Color Revolution: Television In The Sixties". TVObscurities. 2005-02-15. Retrieved 2017-09-04.
"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. Archived from the original on Feb 21, 2014.
"Deloitte: Terrestrial TV has surprising staying power". Broadband TV News. 11 December 2019. Archived from the original on Jun 16, 2023.
Jacobson, Adam (2019-04-25). "Is OTT Eating Into OTA, While Killing Cable TV?". Radio & Television Business Report. Archived from the original on Dec 6, 2020. Retrieved 2020-07-25.
Mick Hurbis-Cherrier (2007). "NTSC Broadcast Standards" (PDF). Voice & Vision ed. 1. Archived from the original (PDF) on 2017-09-05. Retrieved 2017-09-04.
"About ATSC". Advanced Television Systems Committee. Retrieved 2017-09-04.
"ATSC Standards". Advanced Television Systems Committee. Retrieved 2017-09-04.
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. Retrieved 2017-09-04.
"FCC regulations CFR 47 Part 74 Subpart L: FM Broadcast Translator Stations and FM Broadcast Booster Stations". Edocket.access.gpo.gov. Retrieved 2017-09-04.
"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 from the original on 2007-05-19. Retrieved 2007-05-17.
"Broadcasting Public Notice CRTC 2007–53". Sections 50 to 80. Canadian Radio-television and Telecommunications Commission. 2007-05-17. Retrieved 2007-05-17.

External links

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

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