SU555413A2 - Graphic reading device - Google Patents

Description

(cf. 2) The three channels of the conversion 16-18 of this condition are identical and consist of amplifiers 22-24, actlitact collectors 25-27, triggers 28-30, logic gates And 31-33, and counters 34-36. The correction unit 19 further comprises an additional electroacoustic converter 37, a correction microphone 38, a correction cycle generator 39, a comparison circuit 40, a fixed memory unit 41, a reversible counter 42, a digital-analog converter 43 and a clock pulse generator 44. Tablet 1 serves as a screen The image of a fingerprint taken on a photo-stitch is projected onto a light source 2, a reflector 3, a condenser 4, mirrors 5-7 and a lens 8 onto the photobug. Tablet 1 is made of glass having a whale surface on its upper side. It is installed in the opening and can be easily replaced by a tablet of any other material, which includes known methods of fastening the graphic information carrier (using buttons, vacuum, magnetic, electrostatic, etc.). This makes it possible to process documents executed on any media of graphic information. The optical system of the device is constructed so that its overhead projector (elements 2-5 and 8) is located to the right of the tablet (see Fig. 1 and 3). Moreover, the operator has free access to the lens for focusing the image and to an interchangeable cassette having an electric drive and the corresponding control circuit of the latter. The code generation unit 9 contains registers for receiving the coordinate codes and codes of the encoder 21, a specialized calculator for calculating the distance between the features of the fingerprint elements by their known coordinates Xj Yj and Xj Y (according to the expression E./(. (YY) and control scheme This composition of block 9 is due to the fact that, as characteristics invariant relative to the transformations of the shift and rotation of the fingerprint fingerprint on the plane of the tablet, the distance between the coordinates of the identification features is taken. It does not center the print. At the input of block 9, codes of names douh of identification signs and a distance code between these signs are formed. Block 10 identifies the requested and desired fingerprints by a set of triple characteristics, the first and second of which are imozani: two identification signs, and a third The numerical value of the distance between these identification features. The block 11 snores the codes of the multiple triple characteristics of the prints and is in fact a card file of fingerprint prints. Electroacoustic transducer 12 generates short-term sound pulses. In the device under consideration, two types of converter are used; the first one is made in the form of a pen with a spark discharge emitter, and allows coordinates to be measured with an accuracy of 0.3-0.5 mm; the second one is made in the form of a magnifying glass with a reticle and allows you to measure coordinates with an accuracy of 0.1 mm. Both products are interchangeable and are connected to the device through a connector. The generator 13 of the coordinate measurement cycle serves to supply electric pulses to the electrodes of the converter 12. It can operate in the mode of generating a single pulse at the moment when the button K located in the converter 12 is pressed, or in the self-oscillating mode with a specified measurement cycle repetition rate. Microphones 14, 15 are designed to convert the received sound wave into electrical pulses. The conversion channels 16, 17 convert the propagation time of the sound wave from the electro-acoustic transducer to the microphone into a digital code. The correction unit 19 makes the coordinate measurement device insensitive to changes in the parameters (temperature, humidity, pressure, gas composition) of the air environment. The keypad 20 and the encoder 21 allow for the name of the identification features. The keyboard 20 is located to the left of the tablet 1 (Fig. 3 and 4), which allows simultaneously with the removal of the coordinates with the right hand to enter the identification sign of the left. The transformation channel 18 is identical to the coordinate transformation channels 16, 17. Microphone amplifiers 22-24 are matched to the input with a high output impedance of condensate microphones and provide at their outputs a signal amplitude necessary for normal operation of amplitude discriminators 25-27. Amplitude discriminators 25-27 serve to | DL eliminate false alarms on small amp.gatuda signals and ensure the formation of meter stop pulses always at the same microphone level (for example, half) relative to its maximum amplitude. Triggers 28-30 form rectangular amplitudes with a duration equal to the time it takes for the sound to travel from the electroacoustic preamplifier to the appropriate microphone. Logic elements And 31-33 are used to transmit clock pulses to the inputs of the corresponding counters 34-36. Electroacoustic transducer 37 emits short sound pulses to probe the reference distance Eet. 5 Microphone 38 is installed at a reference distance of a scientific research institute from an electroacoustic transducer 37 and is intended to record the time it takes for the sound to pass the reference distance. The correction cycle generator 39 operates in the self-oscillatory mode, continuously pulsing the electroacoustic transducer 37 electrodes. This generator is identical to the generator 13 of the coordinate measurement cycle. A counter 34 registers the number of clock pulses placed in the time interval from the moment of emission of the sound pulse to its reception. Circuit 40 compares the contents of counter 34 with the reference code of the fixed memory unit 41 and generates control signals (more, less, equal) for the reversible counter 42, the code of which is converted by means of the digital-to-analog converter 43 to a voltage that controls the frequency of the clock generator 44 Counters 35 and 36, at the end of the measurement cycle, fix the coordinate codes X and U. Tablet 1 is optically connected to the overhead projector (elements 2, 3, 4, 5, 8) through mirrors 6 and 7. The electroacoustic converter 12 (coordinate remover) is connected to general Oru 13 and the first inputs of the channels 16, 17 conversion. It is acoustically connected to the linear microphones, 14, 15, go to the second inputs of the conversion channels 16, 17, the third inputs of which are connected to the correction unit 19, and the outputs to the code generation unit 9. The latter is connected to the keyboard 20 via the encoder 21, and to the identification unit 10 directly and through the code storage unit 11. The electroacoustic transducer 37 is connected to the generator 39 and to the first input of the conversion channel 18, the second input of which is connected to the microphone 38, and the third to the output of the generator 44. The device for transmitting graphic information in the encoding and search mode for fingerprint prints works as follows. A cassette with prints made on a positive photographic film is inserted into the tape mechanism of the overhead projector. Using the automatic drawing, the required frame is installed in the projection channel, its image is focused on the tablet, and using the electro-acoustic converter 12, the coordinates of the identification signs are retrieved, first indicating their names using the keyboard 20. To obtain the coordinate codes, the writing rod or the crosshair of the transducer 12 placed at a point whose coordinates are required by MO to determine; press the button KN on the button (by pressing the writing rod in the converter of the first ipa). In this case, the generator 13 generates a signal arriving at the electrodes of the electroacoustic-j converter 12 and the inputs of the flip-flops 29 and 30. The counters 35, 36 start counting, and the electro-acoustic converter 12 emits a sound pulse. In moments when the sound wave; reaches the plane of sensitive microphones 14, 15, signals are generated at their outputs, stopping the arrival of clock pulses from the generator 44 output to counters 35, 36. The coordinates X and Y are fixed. The independence of the measurement results of coordinates from changes in air parameters is provided as follows. At the moment the device is turned on, it starts operating in a self-oscillating mode, the correction cycle generator 39, which excites the reference; Electroacoustic converter 37. The repetition cycle of the correction cycle is selected longer than the time required for the sound wave to travel 1sh distance from the electroacoustic converter 37 to the microphone 38. At the beginning of each correction cycle, the pulse from the output of the generator 39 enters the converter 37 and the trigger 28, which opens the logical element I 31, the reclose nocryn / reime clock pulses On the counter 34. At the moment the acoustic reaches the mic {) of the 38 (this happens before the next cycle begins), a signal is generated at its output through the amplifier 22, the amplitude discriminator 25 At the trigger input 28, which sounds isholy condition. At the same time, the clock pulse post from the generator 44 to the counter 34 through the logic element AND 31 stops and a certain number appears in it. If for any reason this number (due to a change in TeNmerature, humidity, air composition, etc.) is not equal to the number recorded in the fixed memory unit 41, the comparison circuit 40 issues a more command to the reversing counter 42 or falls asleep in this counter one pulse. The code of the number in the counter 42 is changed and, due to the digital-to-analogue} converter 43, the voltage value at the control input of the generator 39, the frequency of which also changes, changes. This process is repeated every cycle until the frequency of the generator 44 is set to such that the reference distance measured by the counter 34 does not correspond to the code of the number (distance) stored in the memory block 41. In this case, the circuit 40 gives the command equal and in the counter 34 the former {th code remains. Each cycle of checking the correspondence of the measured distance of the standard y continues and with izieneki parameters of the bladder that lead to a change in the speed of sound propagation, respectively, the frequency changes to a certain value at which 35.36 distances, regardless of the parameters of the medium, will be stpkknnymi. Using the keyboard 20, the names of the identification signs and received by the written off way, their coordinates represent the imprint in the form of some set of ternary characteristics Y, A, B, T, where A and B are the coordinates of the identification sign, respectively, O0 of the axis OX and OU, and T is the name of this identity. If the birthmark feature is unknown, then T is assumed to be zero. Block 9 converts such a representation of the calliper into a trail characteristics of the following form: the first two elements of the triple characteristic are the names of two 11 days 4 signs, and the third element is the number of the distance between these two signs. The distance is calculated using the well-known formula for the distance between other points on the plane. The codes of the stamps generated in this way are stored in block 11 and when a request is received, they are identified in block 10 by the following algorithm. Two proidal triple characteristics are considered equal to each other if the first data of one element of one characteristic are equal to the corresponding elements of the other (if equal to zero, at least one element, this condition ignores, c), if the difference of the third elements does not exceed the absolute value of some selected (threshold) value. : The engraved imprint M and the sought-after spellcaster K are considered identified if, if they coincide, the generic features are many, respectively

Claims (2)

Phy & 1, corresponding to fingerprint M, is contained in the set corresponding to fingerprint K. If it turns out that several of the desired fingerprints satisfy the second level, the result is the one with the mean, the arithmetic deviation will be minimal. The latter is the ratio of the sum of the differences of the tertiary elements in absolute value to the number: 4 & elements of the set corresponding to the requested fingerprint. Testing the prototype of the device for monitoring and scanning fingerprinting prints showed that the model’s accessibility was good even when selecting a small number of points in a zapravshaemoy print of high (Ms., and the search speed can Gun up to 30 prints per hour. Invention formula 1. U. Filing a graphics card in format 525976, characterized in that, with the goal of expanding the functionality of the ycipoAciBa, the ovo contains a code storage unit, an ideal unit, a code generation unit, and one way out to the outputs of the pilot channel 1 razovaii and serially connected fushstsionalnuyu i elementals daktilockOIShchedkvx otshchapsov keyboard and encoder connected to form a block codes under a yuzhshshm ideshifikaschga neposredstvenliicyi to block codes through the storage unit. 2. The device according to claim 1, characterized in that: it contains an optical - exclusion separation, and the tablet surface is made in the form of a mat. Mat combined with a plane: a projection (a classical projection system. WITH Fig.Z Fi & .1 eight