Kell factor

Kell factor

:"There are some conflicting and confusing points in the following article. For a discussion of these please read the comments in the discussion section accessed from the discussion tab above. "

Kell factor is a parameter used to determine the effective resolution of a discrete display device. The number was first measured in 1934 by RCA engineer Raymond D. Kell and his associates. It has no fixed value, but is usually taken to be about 0.7, for electron gun scanning. Kell originally defined this as 0.64, and then later revised it to about 0.85. The number can be higher than 0.9, when fixed pixel scanning (e.g., CCD or CMOS) and fixed pixel displays (e.g., LCD or plasma) are used.

The actual sampled resolution will depend on the spot size and intensity distribution. For electron-gun scanning systems, the spot usually has a Gaussian intensity distribution. For CCDs, the distribution is somewhat rectangular, and is also affected by the sampling grid and inter-pixel spacing.

Kell factor is sometimes incorrectly stated to exist to account for the effects of interlacing. Interlacing itself does not affect Kell factor, but because interlaced video must be low-pass filtered (i.e., blurred) in the vertical dimension to avoid spatio-temporal aliasing (i.e., flickering effects), the Kell factor of interlaced video is said to be about 70% that of progressive video with the same scan line resolution.

Examples

* A 625-line analogue (e.g., 50Hz PAL) television picture is divided into 576 visible lines from top to bottom. Suppose a card featuring horizontal black and white stripes is placed in front of the camera. The effective vertical resolution of the TV system is equal to the largest number of stripes that can be within the picture height and appear as individual stripes. Since it is unlikely the stripes will line up perfectly with the lines on the camera's sensor, the number is slightly less than 576. Using a Kell factor of 0.7, the number can be determined to be 0.7×576 = 403.2 lines of resolution.

* Kell factor can be used to determine the horizontal resolution that is required to match the vertical resolution attained by a given number of scan lines. For 576i50, given its 4:3 aspect ratio, the required horizontal resolution must be 4/3 times the effective vertical resolution, or (4/3)×0.7×576 = 537.6 lines of resolution. Taken further, since 537.6 lines is equal to 268.8 cycles, and given 576i50 has an active line period of 52µs, its luminance signal requires a bandwidth of 268.8/52 = 5.17 MHz.

* Kell factor applies equally to digital devices. Using a Kell factor of 0.9, a 1080p HDTV video system using a CCD camera and an LCD or plasma display will only have 1728×972 lines of resolution.

See also

* Optical resolution

References

*M. Robin, "Revisiting Kell", Broadcast Engineering, May 2003.
* [http://digitalcontentproducer.com/hdhdv/depth/hdv_at_work_02272006/ S. Mullen, "Just What is 1080?", HDV@Work, Feb. 2006.]
* [http://www.cse.yorku.ca/~amana/research/interlacedVideo.pdf J. Amanatides, "Antialiasing of Interlaced Video Animation", SIGGRAPH 90.]
*G. Tonge, "The Television Scanning Process", SMPTE Journal, July 1984 pg 657


Wikimedia Foundation. 2010.

Игры ⚽ Нужно сделать НИР?

Look at other dictionaries:

  • Kell — The name Kell has a number of meanings:Places* Kell (volcano), an extinct stratovolcano in Kamchatka Krai, Russia * Kell, Illinois, a village in the United States * Kell am See, a village and a municipality in the Trier Saarburg district, in… …   Wikipedia

  • Factor de Kell — Saltar a navegación, búsqueda El factor de Kell es un parámetro utilizado para determinar la definición vertical (también llamada resolución vertical) efectiva de una pantalla de televisión. Diversas razones relacionadas con la adquisición y… …   Wikipedia Español

  • Raymond D. Kell — Raymond Davis Kell, most often known as Ray Kell, was a television researcher at RCA.ee also* Kell factor * George H. BrownExternal links* [http://www.cedmagic.com/mem/whos who/kell ray.html Brief biography with picture] *… …   Wikipedia

  • Display resolution — For screen sizes (typically in inches, measured in the diagonal), see Display size. For a list of particular display resolutions, see Graphic display resolutions. This chart shows the most common display resolutions, with the color of each… …   Wikipedia

  • Optical resolution — This article is about optical resolution in optics. For the method of separating enantiomers in chemistry, see Chiral resolution. Optical resolution describes the ability of an imaging system to resolve detail in the object that is being imaged.… …   Wikipedia

  • Machine vision glossary — Common definitions related to the machine vision field.Compiled for application on the Society of Manufacturing Engineers interest area.General related fields *Machine vision *Computer vision *Image processing *Signal processing NOTOC 0 9*1394.… …   Wikipedia

  • Multiple sub-nyquist sampling Encoding system — MUSE (Multiple Sub nyquist Sampling Encoding System), also known as Hi Vision for marketing purposes, was an early high definition analog television standard developed in Japan. Japan had the earliest working HDTV system, with design efforts… …   Wikipedia

  • K — 1. Symbol for potassium; kalium; phylloquinone; kelvin; lysine; lysyl. 2. In optics, the coefficient of scleral rigidity. 3. In contact …   Medical dictionary

  • k — Symbol for kilo . Symbol for rate constants, under constant or velocity constants, under constant; Boltzmann constant. * * * absolute zero; a burst of diphasic slow waves in response to stimuli during sleep [in electroencephalography]; capsular… …   Medical dictionary

  • Multiple sub-Nyquist sampling encoding — MUSE (Multiple sub Nyquist sampling encoding), was a dot interlaced digital video compression system that used analog modulation for transmission to deliver 1125 line high definition video signals to the home. Japan had the earliest working HDTV… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”