Raster scan

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A Raster scan, or raster scanning, is the pattern of image detection and reconstruction in television, and is the pattern of image storage and transmission used in most computer image systems. The word raster comes from the Latin word for a rake, as the pattern left by a rake resembles the parallel lines of a scanning raster.

In a raster scan, an image is cut up into successive samples called pixels, or picture elements, along scan lines. Each scan line can be transmitted as it is read from the detector, as in television systems, or can be stored as a row of pixel values in an array in a computer system. On a television receiver or computer monitor, the scan line is turned back to a line across an image, in the same order. After each scan line, the position of the scan line is advanced, typically downward across the image in a process known as vertical scanning, and a next scan line is detected, transmitted, stored, retrieved, or displayed. This ordering of pixels by rows is known as raster order, or raster scan order.

[edit] Theory and History

The concept of raster scanning was inherent in the original mechanical disc-scanning television patent of Paul Nipkow in 1884.

Images prepared for halftone printing used screens, or rasters in the German terminology, at least from 1897. Eder[1] writes of "die Herstellung von Rasternegativen fur Zwecke der Autotypie" (the production of raster negatives for halftones).

Max Dieckmann and Gustav Glage were the first to produce actual raster images on a cathode-ray tube (CRT); they patented their techniques in Germany in 1906. It has not been determined whether they used the word raster in their patent or other writings.

An early use of the term raster with respect to image scanning via a rotating drum is Arthur Korn's 1907 book which says (in German)[2]: "...als Rasterbild auf Metall in solcher Weise aufgetragen, dass die hellen Töne metallisch rein sind, oder umgekehrt" (...as a raster image laid out on metal in such way that the bright tones are metallically pure, and vice versa). Korn was applying the terminology and techniques of halftone printing, where a "Rasterbild" was a halftone-screened printing plate.

There were more uses of Raster by German authors Eichhorn in 1926:[3] "die Tönung der Bildelemente bei diesen Rasterbildern" and "Die Bildpunkte des Rasterbildes" ("the tone of the picture elements of this raster image" and "the picture points of the raster image"); and Schröter in 1932:[4] "Rasterelementen," "Rasterzahl," and "Zellenraster" ("raster elements," "raster count," and "cell raster").

The first use of raster specifically for a television scanning pattern is often credited to Baron Manfred von Ardenne who wrote in 1933:[5] "In einem Vortrag im Januar 1930 konnte durch Vorführungen nachgewiesen werden, daß die Braunsche Röhre hinsichtlich Punktschärfe und Punkthelligkeit zur Herstellung eines präzisen, lichtstarken Rasters laboratoriumsmäßig durchgebildet war" (In a lecture in January 1930 it was proven by demonstrations that the Braun tube was prototyped in the laboratory with point sharpness and point brightness for the production of a precise, bright raster).

Raster was adopted into English at least by 1936, in the title of an article in Electrician.[6]

The mathematical theory of scanning was developed in detail using Fourier transform techniques in a classic paper by Mertz and Gray of Bell Labs in 1934[7].

[edit] References

  1. ^ Josef Maria Eder, Ausführliches Handbuch der Photographie Halle: Druck und Verlag von Wilhelm Knapp, 1897
  2. ^ Arthur Korn, Elektrisches Fernphotograhie und Ähnliches, Leipzig: Verl. v. S. Hirzel, 1907
  3. ^ Gustav Eichhorn, Wetterfunk Bildfunk Television (Drahtloses Fernsehen), Zürich: Teubner, 1926
  4. ^ Fritz Schröter, Handbuch der Bildtelegraphie und des Fernsehens, Berlin: Verl. v. Julius Springer, 1932
  5. ^ Manfred von Ardenne, Die Kathodenstrahlröhre und ihre Anwendung in der Schwachstromtechnik, Berlin: Verl. v. Julius Springer, 1933.
  6. ^ Hughes, L. E. C., "Telecommunications XX-IV: The Raster," Electrician 116 (Mar. 13):351–352, 1936.
  7. ^ Pierre Mertz and Frank Gray, "A Theory of Scanning and Its Relation to the Characteristics of the Transmitted Signal in Telephotography and Television," Bell System Technical Journal, Vol. 13, pp. 464-515, July, 1934

[edit] See also