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1,024,743. Automatic character reading. CHARACTER RECOGNITION CORPORATION. Oct. 17, 1962 [Oct. 17, 1961], No. 39372/62. Heading G4R. In a character recognition apparatus the characters are scanned along parallel lines by a row of photo-cells, the outputs being sampled in turn repeatedly to obtain a...
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| Zusammenfassung: | 1,024,743. Automatic character reading. CHARACTER RECOGNITION CORPORATION. Oct. 17, 1962 [Oct. 17, 1961], No. 39372/62. Heading G4R. In a character recognition apparatus the characters are scanned along parallel lines by a row of photo-cells, the outputs being sampled in turn repeatedly to obtain a succession of series of binary signals representing the character. The character, Fig. 4 is scanned in eight lines X 1 -X 8 and each is sampled ten times by AND gates 21-28, Fig. 2 (not shown) enabled in turn by distributed timing pulses from ring counter 12. The outputs are applied through OR gate 29 to terminal 40. A flip-flop 14 is set and reset in alternate cycles of the counter and gates 21-28 are opened only on the even numbered cycles so that the first, third and other odd cycles are ignored. Ignoring the first column prevents errors arising from ragged edges of the leading parts of the character. The counter is started by the first black to appear in any photo-cell and is automatically reset at the end of a character by the detection of two or three blank cycles. The signal at terminal 40 consists of a series of serial pulse trains which are applied through direct and inverting amplifiers 221, 222, Fig. 3 (not shown), for comparison with stored patterns, one of each possible character. These consist of a matrix of gates each consisting of three diodes, one in a section relating to the photo-cell X 1- X 8, Fig. 4, one in a section relating to the sampling cycle Y 1 -Y 12 and one being enabled or not according to whether the corresponding point is black or white. The X and Y terminals are selected by ring counters 210, 216 which between them select the points on the character in turn. The diodes are arranged so that a non-match gives an output, i.e. a white signal in an area which should be black and vice-versa. The cross-hatched areas of the character, Fig. 4, are indefinite and have no connections. A string of pulses are produced, one for each non- match between the signal train and the pattern set up. These pulses are counted in a condenser or digital counter and the least is representative of the best match to identify the character. The counters start at the first black in the second cycle so that the signal pattern is registered with the gating array irrespective of the vertical registry of the character. In another form the pulse trains representing alternate characters are read alternately into two shift registers. While the second is being read in |
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