14:9 aspect ratio

Last updated December 06, 2023

14:9 (1.5:1) is a compromise aspect ratio between 4:3 and 16:9.^[1]^[2] It is used to create an acceptable picture on both 4:3 and 16:9 TV, conceived following audience tests conducted by the BBC. It has been used by most UK,^[3] Irish, French, Spanish, Colombian and Australian terrestrial analogue networks, and in the US on Warner Bros. Discovery' HD simulcast channels with programming and advertising originally compiled in 4:3. Note that 14:9 is not a shooting format; 14:9 material is almost always derived from either a 16:9 or 4:3 shot,^[1]^[2] and no televisions have ever been made in 14:9.^{[ citation needed ]}

Usage

With native 16:9 material

A common usage is for material shot in 16:9 format. During production, the important action is kept within the centre of the picture, known as the 14:9 safe area.^[1] When the material is broadcast in a 4:3 format (such as for analog television), the sides of the image are cropped to 14:9 and narrow black bars are added to the top and bottom. It is considered that viewers who are not used to wide-screen will find this less distracting than the letterbox format that would result from broadcasting the full 16:9 picture in analogue, while still seeing more of the picture than would be visible if cropped into 4:3. When the same material is broadcast in 16:9 (such as for digital television), the full 16:9 frame is left intact, but widescreen signaling auxiliary signals tell the receiver that the picture is suitable for cropping to 14:9 if necessary (for example, when the receiver is connected to a 4:3 display).

The major benefit in shooting 16:9 with protection for 14:9 (rather than 4:3) is improving the usable screen area for titles, logos and scrolling text. The visible enhancement is significant due to the restrictive requirements of overscan. When shooting in 16:9 for potential 4:3 distribution, the "Shoot And Protect" method (from the BBC's "Widescreen Book") is employed.^[4] As the name suggests, footage is shot in 16:9 but important visual information is protected inside the 14:9 or 4:3 safe areas.

With native 4:3 material

Another use is for material shot on a 4:3 format. When broadcast in 16:9, the top and bottom of the original frame are cropped to 14:9, and black bars (called pillarboxes) are added to either side.^[1] When broadcast in 4:3, the 14:9 crop is often used in preference to the original 4:3 frame. This is especially common when 4:3 footage needs to be included in an otherwise 16:9 program, such as a news broadcast, and was used in the 2000s by the BBC's children's channels (CBBC & CBeebies) to broadcast older children's programming shot in 4:3 on a larger proportion of a 16:9 screen.

Adoption by TV channels

Viacom International Media Networks Europe uses 14:9 for its music videos that are in 4:3. Nearly all of VIMN Europe's music channels around Europe (with the exception of MTV 80s and the now-defunct VH1 Classic and MTV Classic Italy) transitioned to widescreen from 2011 until 2015, all of the 4:3 music videos are cropped to 14:9 (with the exception of the now-defunct MTV Adria, where all of the 4:3 music videos were stretched horizontally to 16:9). From 2020 on MTV Latin America 4:3 music videos will be broadcast in 14:9 aspect ratio.

JimJam also uses 14:9 for reruns of classic children's programming as well.

Philippines

CNN Philippines was the first Philippine TV channel to air in 14:9 until March 2017, when it was later transitioned to 16:9.

UK

In the UK, most channels broadcast in 16:9. On Nick UK, the 14:9 cropping is used on adverts and shows which were produced in 16:9, such as House of Anubis , iCarly , Victorious and Big Time Rush , to present a more consistent output. Nick UK, along with its sister channels Nick Jr. UK and Nicktoons UK, were the only children's channels that were not shown in 16:9, but made the switch in 2013 (With Nicktoons UK remaining in 4:3 until February 2017). The HD channel, Nick HD UK, was already shown in 16:9 before this, with 4:3 programming shown in the pillarbox effect.

US

The primary use of 14:9 in the US was for full screen channels in the 2000s to show content that had been produced in 16:9. One major show to receive this treatment was Star Trek: Enterprise .

The use of 14:9 to adapt full screen content for widescreen channels, by contrast, is much less common in the US, where pillarboxing and stretching are more commonly used (stretching is primarily used by Turner's Flexview). Only the HD simulcast channels of Warner Bros. Discovery used 14:9 for its previous episodes of their productions. Weigel Broadcasting uses 14:9 extensively as a compromise format on older shows without widescreen versions airing on their networks, including Catchy Comedy, Heroes & Icons, MeTV and Start TV. Some television networks use it on a more selective basis, with AMC and Sundance TV using it when showing episodes of M*A*S*H . The first disc of MythBusters: Big Blast Collection uses this ratio, as does the Mega Movie Myths disc.

The Adult Swim's programming block called Checkered Past formerly used that format, with shows like, Dexter's Laboratory, Ed, Edd n Eddy, The Grim Adventures of Billy and Mandy, and Courage the Cowardly Dog. Also, adult swim formerly used this format for old episodes of American Dad! and King of the Hill. That changes made from 25 September to 18 October in 2023, now used in 4:3 format.

Argentina

It is also used on the ISDB-Tb HD service of the Argentinian public television, TV Pública, in order to adjust their old programs and 4:3 SD studio cameras to 16:9 format.^{[ citation needed ]}

Portugal

The public broadcaster RTP used the 14:9 format to convert 16:9 broadcasts to the 4:3 format it still used until 2013 (for the majority of the programs broadcast). However, since 8 June 2012, they began to broadcast 16:9 material in its original aspect ratio, with the correct flag, thus ending the broadcasts featuring the 14:9 format and since January 2013, the majority of broadcasts are in 16:9 (since late 2017 downscaled from the native HD feed). Private broadcaster TVI started using the 14:9 format in August 2012 to broadcast 16:9 material instead of using 4:3 Pan & Scan, as they refused to broadcast in 16:9. However, on 3 October 2015, it began to broadcast in full widescreen.

Turkey

From 2005 to 2011, TRT broadcast (except TRT HD) Eurovision Song Contest by cropping to 14:9. Many channels of TRT were broadcasting 4:3 at the time; narrow black bars are added to the top and bottom.

Mathematics

The aspect ratio of 14:9 (1.555...) is the arithmetic mean (average) of 16:9 and 4:3 (12:9), $((16/9)+(12/9))\div 2=14/9$ . More practically, it is approximately the geometric mean ^[5] (the precise geometric mean is ${\sqrt {(16/9)\times (4/3)}}\approx 1.5396\approx 13.8:9$ ), and in this sense is mathematically a compromise between these two aspect ratios: two equal area pictures (at 16:9 and 4:3) will intersect in a box with aspect ratio the geometric mean, as demonstrated in the image at top (14:9 is just slightly wider than the intersection). In this way 14:9 balances the needs of both 16:9 and 4:3, cropping or distorting both about equally. Similar considerations were used in the choice of 16:9 by the SMPTE, which balanced 2.35:1 and 4:3.

Related Research Articles

Letter-boxing is the practice of transferring film shot in a widescreen aspect ratio to standard-width video formats while preserving the film's original aspect ratio. The resulting video-graphic image has mattes empty space above and below it; these mattes are part of each frame of the video signal.

Pan and scan is a method of adjusting widescreen film images so that they can be shown in fullscreen proportions of a standard-definition 4:3 aspect ratio television screen, often cropping off the sides of the original widescreen image to focus on the composition's most important aspects.

<span class="mw-page-title-main">Standard-definition television</span> Digital television with a similar definition to legacy analog systems

Standard-definition television is a television system that uses a resolution that is not considered to be either high or enhanced definition. Standard refers to offering a similar resolution to the analog broadcast systems used when it was introduced.

Widescreen images are displayed within a set of aspect ratios used in film, television and computer screens. In film, a widescreen film is any film image with a width-to-height aspect ratio greater than 4:3 (12:9).

Anamorphic widescreen is a process by which a comparatively wide widescreen image is horizontally compressed to fit into a storage medium with a narrower aspect ratio, reducing the horizontal resolution of the image while keeping its full original vertical resolution. Compatible play-back equipment can then expand the horizontal dimension to show the original widescreen image. This is typically used to allow one to store widescreen images on a medium that was originally intended for a narrower ratio, while using as much of the frame – and therefore recording as much detail – as possible.

16:9 (1.78:1) is a widescreen aspect ratio with a width of 16 units and height of 9 units.

PALplus is an analogue television broadcasting system aimed to improve and enhance the PAL format by allowing 16:9 aspect ratio broadcasts, while remaining compatible with existing television receivers, defined by International Telecommunication Union (ITU) recommendation BT.1197-1. Introduced in 1993, it followed experiences with the HD-MAC and D2-MAC, hybrid analogue-digital widescreen formats that were incompatible with PAL receivers. It was developed at the University of Dortmund in Germany, in cooperation with German terrestrial broadcasters and European and Japanese manufacturers. The system had some adoption across Europe during the late 1990s and helped introduce widescreen TVs in the market, but never became mainstream.

In television technology, Wide Screen Signaling (WSS) is digital metadata embedded in invisible part of the analog TV signal describing qualities of the broadcast, in particular the intended aspect ratio of the image. This allows television broadcasters to enable both 4:3 and 16:9 television sets to optimally present pictures transmitted in either format, by displaying them in full screen, letterbox, widescreen, pillar-box, zoomed letterbox, etc.

1080i is a combination of frame resolution and scan type. 1080i is used in high-definition television (HDTV) and high-definition video. The number "1080" refers to the number of horizontal lines on the screen. The "i" is an abbreviation for "interlaced"; this indicates that only the even lines of each frame, then only the odd lines, are drawn alternately, so that only half the number of lines are ever updated at once. A related display resolution is 1080p, which also has 1080 lines of resolution; the "p" refers to progressive scan, which indicates that each full frame appears on the screen in sequence.

Cropping is the removal of unwanted outer areas from a photographic or illustrated image. The process usually consists of the removal of some of the peripheral areas of an image to remove extraneous visual data from the picture, improve its framing, change the aspect ratio, or accentuate or isolate the subject matter from its background. Depending on the application, this can be performed on a physical photograph, artwork, or film footage, or it can be achieved digitally by using image editing software. The process of cropping is common to the photographic, film processing, broadcasting, graphic design, and printing businesses.

1080p is a set of HDTV high-definition video modes characterized by 1,920 pixels displayed across the screen horizontally and 1,080 pixels down the screen vertically; the p stands for progressive scan, i.e. non-interlaced. The term usually assumes a widescreen aspect ratio of 16:9, implying a resolution of 2.1 megapixels. It is often marketed as Full HD or FHD, to contrast 1080p with 720p resolution screens. Although 1080p is sometimes informally referred to as 2K, these terms reflect two distinct technical standards, with differences including resolution and aspect ratio.

<span class="mw-page-title-main">Video scaler</span> System which converts video signals from one display resolution to another

A video scaler is a system which converts video signals from one display resolution to another; typically, scalers are used to convert a signal from a lower resolution to a higher resolution, a process known as "upconversion" or "upscaling".

The pillarbox effect occurs in widescreen video displays when black bars are placed on the sides of the image. It becomes necessary when film or video that was not originally designed for widescreen is shown on a widescreen display, or a narrower widescreen image is displayed within a wider aspect ratio, such as a 16:9 image in a 2.39:1 frame. The original material is shrunk and placed in the middle of the widescreen frame.

In television technology, Active Format Description (AFD) is a standard set of codes that can be sent in the MPEG video stream or in the baseband SDI video signal that carries information about their aspect ratio and other active picture characteristics. It has been used by television broadcasters to enable both 4:3 and 16:9 television sets to optimally present pictures transmitted in either format. It has also been used by broadcasters to dynamically control how down-conversion equipment formats widescreen 16:9 pictures for 4:3 displays.

<span class="mw-page-title-main">Windowbox (filmmaking)</span> The often undesirable combination of letterboxing and pillarboxing

Windowboxing in the display of film or video occurs when the aspect ratio of the media is such that the letterbox effect and pillarbox effect occur simultaneously. Sometimes, by accident or design, a standard ratio image is presented in the central portion of a letterbox picture, resulting in a black border all around. It is generally disliked because it wastes much screen space and reduces the resolution of the original image. It can occur when a 16:9 film is set to 4:3 (letterbox), but then shown on a 16:9 TV or other output device. It can also occur in the opposite direction. Few films have been released with this aspect ratio—one example is The Crocodile Hunter: Collision Course, which had numerous scenes with Steve & Terri Irwin using widescreen pillar boxing.

The technology of television has evolved since its early days using a mechanical system invented by Paul Gottlieb Nipkow in 1884. Every television system works on the scanning principle first implemented in the rotating disk scanner of Nipkow. This turns a two-dimensional image into a time series of signals that represent the brightness and color of each resolvable element of the picture. By repeating a two-dimensional image quickly enough, the impression of motion can be transmitted as well. For the receiving apparatus to reconstruct the image, synchronization information is included in the signal to allow proper placement of each line within the image and to identify when a complete image has been transmitted and a new image is to follow.

High-definition television (HDTV) describes a television or video system which provides a substantially higher image resolution than the previous generation of technologies. The term has been used since at least 1933; in more recent times, it refers to the generation following standard-definition television (SDTV). It is the current de facto standard video format used in most broadcasts: terrestrial broadcast television, cable television, satellite television.

"21:9" is a consumer electronics (CE) marketing term to describe the ultrawide aspect ratio of 64:27, designed to show films recorded in CinemaScope and equivalent modern anamorphic formats. The main benefit of this screen aspect ratio is a constant display height when displaying other content with a lesser aspect ratio.

The aspect ratio of an image is the ratio of its width to its height, and is expressed with two numbers separated by a colon, such as 16:9, sixteen-to-nine. For the x:y aspect ratio, the image is x units wide and y units high. Common aspect ratios are 1.85:1 and 2.39:1 in cinematography, 4:3 and 16:9 in television photography, and 3:2 in still photography.

<span class="mw-page-title-main">ABS-CBN HD</span> Defunct Philippine pay television channel

ABS-CBN HD was a Philippine pay television channel, working as the high-definition feed of ABS-CBN. It was launched on October 3, 2015 initially on Sky Cable and Destiny Cable and later on iWant, Sky On Demand, and Sky Direct, broadcasting in 1080i at a frame rate of 50 fps or at 60fps. The network including its HD feed dissolved on May 5, 2020 at 7:52 pm following TV Patrol. It was replaced by Kapamilya Channel HD on June 13, 2020.

References

1 2 3 4 BT.1379 - Framing of wide-screen 16:9 and standard 4:3 aspect ratio productions to achieve a common production format during a transition period to wide-screen 16:9 production and broadcasting (PDF). ITU Radiocommunication Assembly. 1998.
1 2 R93-1998 - Compromise Scanned Area Dimensions for Television from 35 mm Wide-Screen Films (PDF). EBU. 1998.
↑ "BBC - Commissioning - A Guide to Picture Size". Archived from the original on 26 August 2010. Retrieved 30 March 2023.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
↑ Gardiner, Paul (2000). Evolution of Widescreen Broadcasting in the UK (PDF). Independent Television Commission.
↑ US 5956091,"Method of showing 16:9 pictures on 4:3 displays",issued 21 September 1999

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[:0-1] 1 2 3 4 BT.1379 - Framing of wide-screen 16:9 and standard 4:3 aspect ratio productions to achieve a common production format during a transition period to wide-screen 16:9 production and broadcasting (PDF). ITU Radiocommunication Assembly. 1998.

[:1-2] 1 2 R93-1998 - Compromise Scanned Area Dimensions for Television from 35 mm Wide-Screen Films (PDF). EBU. 1998.

[3] "BBC - Commissioning - A Guide to Picture Size". Archived from the original on 26 August 2010. Retrieved 30 March 2023.{{cite web}}: CS1 maint: bot: original URL status unknown (link)

[4] Gardiner, Paul (2000). Evolution of Widescreen Broadcasting in the UK (PDF). Independent Television Commission.

[5] US 5956091,"Method of showing 16:9 pictures on 4:3 displays",issued 21 September 1999

[avs-6] 1 2 Also used in China's DVB-S/S2 network.

[mobaho-7] 1 2 Defuncted.

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