DE2516671A1 - Logic for reliable automatic character recognition - can distinguish between printed characters with variable spacing - Google Patents

Abstract

The printed characters pass under a narrow window and produce a waveform via a photoelectric cell and amplifier which is monitored by the logic circuit. The waveform is strobed by a clock to produce a bit at each increase in signal strength after the start of the character recognition interval, but no bit when a decrease or no change is detected. The pattern is then compared with a repertoire of patterns to determine the most likely printed letter. A detector to find the spaces between letters is also required so that the start of each recognition interval can be correctly timed. In the case of touching and even slightly overlapping characters a new recognition interval can be initiated once the first character has been successfully recognized.

Description

List of the reference symbols used

1 character pattern sequence 2 converter means 3 character pattern classification unit 4 Gap indicator 41 White column checker 42 Shift register 43 Black area checker 44 white area tester 5 evaluation circuit 51 storage means 52 iviaximumsohaltung 53 Gate circuit 54 Gate circuit 6 Memory 7 Interval determiner 70 Recognition interval determiner 701 Counter 702 Control element 703 Coincidence element 704 End value memory 705 Line 75 Jump interval determiner 751 Counter 752 Control element 753 Coincidence element 754 End value memory 78 blocking element 8 allocator 81 lines 82 lines 83 lines 84 Line 9 output control unit 10 clock generator S 000 basic cycle S 00 line clock S O column clock S 1 information signals 5 2 class signal S 2 'character pattern classes s 3 signal to end the detection interval s 4 control signal s 5 control signal S 13 comparison value S 13 V buffered comparison value S 13 0 more optimal Comparison value S 22 white area signal s 23 black area signal S 24 control signal S 26 counter end value S 27 counting pulses S 28 signal to terminate the jump interval T1 ... T17 point in time at which no white area occurs T1 '... T17' point in time in which no black area occurs Report on the publications State of the art 1. PS 3,164,806 340 - 146.3 USA 2. PS 1151 140 42m6 9/10 FRG 3rd AS 1257458 42m6 9/04 FRG 4th OS 1524443 42m6 9/16 FRG 5th OS 2064469 42m6 9/02 FRG 6. Hoffmann, R. L .; Mc Cullough, J. W .: Segmentation Method for Recognitionc of Machine - printed characters.

IBM J. Res. Develop., (1971) 3, pp. 153-165 7. PS 3,500,324,340 - 146.3 USA 8. Parks, J. R .; Elliot, J. R., Simultation of an alphanumerio-character -recognition system for unsegmented low-quality print.

IEE conference Publication 42 (1969), pp. 95 ff.

9. Kovalevsky, V. A .: Optimalny algoritm rasposuawanija nekotorych posledowatelnostej isobrazheni. Kibernotika (1967) 4, pp. 75 - 80, Kiev

Claims (21)

Patent claims 1, method for the automatic recognition of character pattern strings, in which the information signals resulting from the sequence of characters to be recognized a character pattern classification device (3), in which the Pattern of a step-by-step, relatively raised window section along the character pattern sequence is compared with stored comparison patterns of all character pattern classes and one or more best comparison values with associated character pattern class signal are determined for each of the steps mentioned, characterized in that the best comparison values are evaluated in a detection interval so that the most likely Ze character pattern ~ class-signal by looking for an optimal one Comparison value is determined, thereby making a final recognition decision regarding of a Be component of the character pattern sequence takes place and this final recognition decision is forwarded to a successor institution and that the situation and, if applicable also the extension of the next detection interval by the loading and type of the last one final recognition decision we controlled cl. 2. The method according to claim 1, characterized in that the information signals be used to find signal gaps and that in the presence of a signal gap by the end of which the control of the position and, if necessary, the expansion of the next Detection interval takes place. 3. The method according to claim 2, characterized in that the maintenance the signal gaps takes place in evaluation intervals, with the location and, if applicable the extension of the next evaluation interval through the location and type of the last final recognition decision is controlled. 4. The method according to claim 2 or 3, characterized in that the Length of the signal gaps is measured and that when a threshold value is exceeded a space class signal is passed to the successor device. 5. The method according to any one of claims 1 to 4, characterized in that that a rejection class signal is issued to the successor device when one or more best comparison values in the recognition interval differ from the distinguish optimal comparison value and the associated character pattern class signals are not identical to the one belonging to the optimal comparison value. 6. The method according to claim 5, characterized in that a character pattern class-dependent Priority control is provided and only then a rejection class signal is issued if this priority control does not result in a clear recognition decision is done. 7. The method according to any one of claims 1 to 6, characterized in that that in the case of a serial offer, the first comparison values in the recognition interval are the current present comparison value with the one found since the beginning of the detection interval maximum comparison value is compared and that if present a larger current comparison value as well as a control signal for determining the location of the next detection interval is output as well as the current one present character pattern class signal for the final recognition decision with regard to the part of the character pattern sequence examined in the recognition interval is provided and that when the control signal is issued again before the end of the current one Recognition interval, the location of the next recognition interval is redefined and the associated new character pattern class signal is provided. 8. The method according to any one of claims 1 to 7, characterized in that that only those best comparison values are included in the recognition decision which at least reach a predetermined absolute threshold value, and that, if this condition is not met at least once in the detection interval, in the immediately following detection intervals an attempt at a final one Recognition decision is set, and that every time the number of steps a threshold value derived from a nominal following spacing of the character patterns exceeds, without at least one better comparison value until then Absolute threshold has been reached, a rejection class signal to the follower is delivered. 9. The method according to any one of claims 1 to 8, characterized in that that typical sequences of character pattern class signals are assigned a rating is, and that with this evaluation a final recognition decision in the recognition interval is introduced bitter 10. The method according to any one of claims 1 to 7, characterized in that with a known and lifl mean constant character pattern sequence spacing controlling both the location and the extent of the next detection interval by the location and type of the last final recognition decision as well as by Control signals resulting from the difference between the sums of the target-following distances and the actual following distances can be derived in the recognized part of the character pattern sequence. 11. Device for performing the recognition of character pattern sequences, a character pattern classification unit (3) is arranged downstream of the converter means (2) is, in which a preliminary recognition result is specified, characterized in, that the character pattern classification unit (3) has both an evaluation device (5), in which the optimal comparison values are determined, as well as a memory (G) is nachgeordmet, which is connected to the evaluation device (5) by the corresponding control signal (S 4) of the evaluation device (5) the applied character pattern class signal (S 2) takes over that with the same output to the evaluation device (5) a first Input of an interval determiner (7) is coupled, in which the position and the extent of the next detection message interval is determined that with a first output of the interval determiner (7), the evaluation device (5) is connected, and that one Output control unit (9) which sends the final recognition results to a downstream device weiterl-3itet, both with the memory (6) and with a second output of the Interval determiner (7) is coupled. 12. bin device according to claim 11, characterized * that with the first output of the interval determiner (7) also the character pattern classification unit (3) is connected and thereby the activity intervals of the character pattern classification unit (3) can be controlled. 13. Device according to claim 11 or 12, characterized in that that the converter means (2) is followed by a gap indicator (4) which both White area signals as well as black area signals are generated on to a second or third input of the downstream interval determiner (7) forwards. 14th Device according to one of Claims 11 to 13, characterized in that between an allocator (8) is connected to the memory (6) and the interval determiner (7), the signals for controlling the position are, if necessary, the extent of the next Recognition interval depending on the type of the last final recognition decision supplies to a fourth input of the interval determiner (7). 15. Device according to one of claims -11 to 14, characterized in that that the evaluation device (5) is designed so that a first gate circuit (53) is preceded by a maximum circuit (52) and with one input of a second Gate circuit (54) is connected that the output of the maximum circuit (52) with the second gate circuit (54) is coupled, which is connected upstream of a maximum value memory (51) is, which in turn is connected to a second input of the maximum circuit (52) is that the maximum value memory (51) from the interval determiner (7) a reset pulse is supplied with the initiation of each new detection interval is, whereby the setting of the maximum value memory (51) to a predetermined value takes place, and that the first gate circuit (53) has a signal input to the character pattern classification unit (3) and via a control input with the interval determiner (7) and the output the maximum circuit (52) is connected to the first Z input of the interval determiner (7) are. 16. Device according to one of claims 13 to 15, characterized in that that the gap indicator (4) from a white gap tester (41), a downstream Shift register (42) and black area checker connected to its outputs (43) and white area tester (44), the white gap tester (41) with the Converter means (2) is connected and both the white area tester (44) and the black area checker (43) deliver output signals to the interval determiner (7). 17. Device according to one of claims 11 to 16, characterized in that that the interval determiner (7) has a recognition interval determiner (70) and a with this associated hop interval determiner (75), wherein the detection interval determiner (70) an output signal to the evaluation circuit (5) or the character pattern classification unit (3) to control corresponding activity intervals supplies and the jump interval determiner (75) is coupled to the output of the evaluation circuit (5). 18. Device according to one of claims 13, 15, 16, 17, characterized in that that the jump interval determiner (75) from a counter (751) with an upstream Control element (752) consists that this control element (752) with its output signal determines the timing of the supply of counting pulses to the counter (751), that the counter (751) is reset by the output signal of the evaluation unit (5) and when its final value is reached, a control signal is sent to a control element (702) emits, whereby the beginning of the detection interval is set in a first way is that by coupling the outputs of the gap indicator (4) with the control (702) the start of the detection interval is determined in a second way that furthermore the recognition interval determiner (70) from a counter (701) with the upstream Control element (702) consists that the control element (702) with its first output signal the timing of the supply of counting pulses to the counter (701) is determined and the control of the evaluation circuit (5) causes and a second output signal the counter (701) resets to its basic position, and that the counter (701) at When reaching its final value, a control signal to terminate the detection interval both to the control element (702) and to the output control unit (9). 19. Device according to one of claims 13 to 17, characterized in that that the jump interval determiner (70) and the recognition interval determiner (75) are designed in such a way that counters (751; 701), control elements (752; 702) hold in advance are that final value memories (754; 704) are coupled to the allocator (8) and between the counters (751; 701) and the final value stores (754; 704) coincidence elements (753; 703), whereby the Coincidence term (753) if the values are equal supplies a signal at the beginning of the detection interval and the coincidence element (703) if the values are equal, emits a signal to terminate the detection interval that the resetting of the counter (751) and the transfer of a final value into the final value memory (754) by the output signal of the evaluation circuit (5) and that the reset of the counter (701) and the transfer of a final value into the final value memory (704) by the output signal of the evaluation circuit (5) and that the resetting of the Counter (701) and the transfer of an end value into the end value memory (704) a second output signal of the oteuerelementes (702) takes place, and that inputs of the Control element (702) tn with the output of the coincidence element (703), the outputs the gap indicator (4) and the output of the iXprungintervallbestilnmergs (75) and that inputs of the oteuer-element (752) with the output of the evaluation circuit (5) and an output of the gap indicator (4) are coupled. 20. Device according to claim 1 @, characterized in that at A blocking element in the memorized evaluation range of the signal gaps in the interval @estimmer (7) (78) is provided, the inputs of which with the coincidence glide (153) and the gap indicator (4) are lost and its output with the control elements (702; 752) and the Allocator (8) is connected. 21. Device according to one of claims 17 to 2D, characterized in that that a counting block for the delivery of signals that relate to a predetermined allow medium following distance, it is provided that with the one; Lusang's Counter module and with it the output of the jump interval determiner (75) a first Logic circuit connected by an output signal the beginning of Detection interval and that with the other output of the counter module and with an output of the detection interval determiner (70) a second logic circuit which defines the end of the detection interval.