Character recognition system
First Claim
1. Process of sequentially reading and identifying magnetic characters on a document from a predetermined set of characters having adjacent discrete segments of greater and lesser totality of magnetic flux across the characters in a prescribed path, including the steps of:
- driving an endless idler member by engagement of the surface of said idler member with the surface of a driven second endless member;
generating a timing pulse train which is proportional to the surface speed of said idler member;
directing said document along a prescribed path between said idler member and said driven member so that the surface of said document drives said idler member by engaging the surface of said idler member, whereby the timing pulse train is generated at a rate proportional to the rate of travel of the document along said path;
feeding said timing pulses to a counter;
disposing a transducer adjacent to said prescribed path for generating a waveform having a plurality of signal levels including positive and negative excursions generated by the changes in the magnetic flux of said discrete segments of said characters;
detecting the change in amplitude and polarity of said waveform;
actuating said counter when the first portion of said waveform is generated;
successively storing, in sequence in a first storage zone and shifting according to signals from said counter, first state signals which correspond to the detected changes of said waveform which are positive and of greater amplitude than a selected level and also second state signals which correspond to when no such changes are detected;
successively storing, in sequence in a second storage zone and shifting according to signals from said counter, first state signals which correspond to detected changes of said waveform which are negative and of a greater amplitude than a selected level and also second state signals which correspond to when no such changes are detected;
continuing the storing in said first zone and in said second zone of state signals;
establishing in a decoder a plurality of electrical paths which compare simultaneously the state signals from both of the zones, the electrical paths respectively being representative of said predetermined characters; and
feeding the successive state signals from said zones to said decoder, in accordance with signals from said pulse train, for producing signals from said decoder which are representative of said characters.
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Accused Products
Abstract
A character recognition system such as employed for determining characters formed with magnetically impregnated ink on a check wherein a plurality of sequential pulses are generated for each of a plurality of successive regions along a said character responsive to the movement through the system of the check, and wherein there is included means synchronous with clock pulses at a rate equal to the timing pulse rate divided by the quantity of said plurality for determining the discrete signal areas to be observed and decoded, decoding being only in terms of the presence or absence of discrete signal levels of positive and negative pulses.
53 Citations
14 Claims
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1. Process of sequentially reading and identifying magnetic characters on a document from a predetermined set of characters having adjacent discrete segments of greater and lesser totality of magnetic flux across the characters in a prescribed path, including the steps of:
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driving an endless idler member by engagement of the surface of said idler member with the surface of a driven second endless member; generating a timing pulse train which is proportional to the surface speed of said idler member; directing said document along a prescribed path between said idler member and said driven member so that the surface of said document drives said idler member by engaging the surface of said idler member, whereby the timing pulse train is generated at a rate proportional to the rate of travel of the document along said path; feeding said timing pulses to a counter; disposing a transducer adjacent to said prescribed path for generating a waveform having a plurality of signal levels including positive and negative excursions generated by the changes in the magnetic flux of said discrete segments of said characters; detecting the change in amplitude and polarity of said waveform; actuating said counter when the first portion of said waveform is generated; successively storing, in sequence in a first storage zone and shifting according to signals from said counter, first state signals which correspond to the detected changes of said waveform which are positive and of greater amplitude than a selected level and also second state signals which correspond to when no such changes are detected; successively storing, in sequence in a second storage zone and shifting according to signals from said counter, first state signals which correspond to detected changes of said waveform which are negative and of a greater amplitude than a selected level and also second state signals which correspond to when no such changes are detected; continuing the storing in said first zone and in said second zone of state signals; establishing in a decoder a plurality of electrical paths which compare simultaneously the state signals from both of the zones, the electrical paths respectively being representative of said predetermined characters; and feeding the successive state signals from said zones to said decoder, in accordance with signals from said pulse train, for producing signals from said decoder which are representative of said characters. - View Dependent Claims (2, 3, 4)
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5. A character recognition system for reading characters sequentially appearing on a document comprising:
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first signal means including a transducer and movement means for relatively moving said document continuously with respect to said transducer for providing an electrical waveform from said transducer having a plurality of signal levels including positive and negative excursions responsive to discrete segments of a said character; reference signals means continuously coupled to movement of said document for generating, as a reference signal, a train of pulses continuously synchronized with the movement of said document, at least one of said pulses corresponding in timed relation with the occurrence of a signal from said transducer responsive to each of said segments of a said character; amplitude and polarity discrimination means responsive to said first signal means for providing, separately; a first output which is of a first state in instances when a discrete region of said waveform is positive and is of greater amplitude than a selected positive amplitude level and of a second state when it is not, and a second output which is of a first state in instances when a said discrete region of said waveform is negative and is of a greater amplitude than a said selected negative amplitude level and of a second state when it is not; first storage means responsive to said first output of said amplitude and polarity discrimination means and said reference signal for storing said signal states; second storage means responsive to said second output of said amplitude and polarity discrimination means and to said reference signal for storing said signal states; and decoding means responsive to said storage means, and the combination of said stored states for indicating the identity of a said character. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13)
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14. A character recognition system for reading characters appearing on a document comprising:
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first signal means including a transducer and movement means for relatively moving said document with respect to said transducer for providing an electrical waveform from said transducers having a plurality of signal levels including positive and negative excursions responsive to discrete segments of a said character; reference signal means responsive to said movement means for generating, as a reference signal, a train of pulses, at least one of said pulses corresponding in timed position with each of a plurality of discrete regions along said waveform; amplitude and polarity discrimination means responsive to said first signal means for providing, separately; a first output which is of a first state in instances when a discrete region of said waveform is positive and is of greater amplitude than a selected positive amplitude level and of a second state when it is not, and a second output which is of a first state in instances when a said discrete region of said waveform is negative and is of a greater amplitude than said selected negative amplitude level and of a second state when it is not; first storage means responsive to said first output of said amplitude and polarity discrimination means and said reference signal for storing said signal states; second storage means responsive to said second output of said amplitude and polarity discrimination means and to a reference signal for storing said signal states; decoding means responsive to said storage means, and the combination of said stored states for indicating the identity of said character; said movement means comprises means for moving said document, and said reference signal means includes a rotable member for frictional engagement with said document, whereby movement of said document and said reference signal means are synchronized; means for generating said train of pulses responsive to the rotation of said rotable member, said means for generating said train of pulses, generating repeatedly, a precise and like plurality of said pulses for each instance of relative movement between said document and said transducer equal to the length of a said discrete region of said document measured along the direction of said relative movement; and said reference signal means comprise transducer means for providing at least one pulse-per-unit-of-travel of said rotable member responsive to the length of travel of said document corresponding to the length of a said discrete region, and further comprises signal multiplication means for multiplying said pulse-per-unit-of-travel signal by a selected multiple between 5 and 10 for finally generating said reference signal.
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Specification