SU1084837A1 - Device for reading graphic information - Google Patents

Abstract

.one. A DEVICE FOR READING GRAPHIC INFORMATION containing a tablet, on mutually perpendicular sides of which, linear coordinate microphones are installed, connected to coordinate conversion units, the outputs of which are connected to one of the inputs of the first and second triggers, the first electroacoustic converter acoustically connected to the linear coordinate microphones, the second electroacoustic transducer acoustically connected with the sound receiver and connected to the correction unit whose output is connected not with one of the inputs of the first and second elements And, pulse distributor, the first output of which is connected to the first electroacoustic converter and other inputs of the first and second triggers, the outputs of which are connected to other inputs of the first and second elements And, the outputs of which are connected to the inputs of the counters, the second the output of the pulse distributor is connected to the input of the correction unit and to the second electroacoustic converter, the switch, the first input of which is connected to the outputs of the counters, and the output is first device output, the first register, the output of which is connected to the second input of the switch, the third register, the first input of which and the first input of the second register are connected to the outputs of the counters, the first driver of the signals, the outputs of which are connected respectively to the first input of the second driver and to the inputs of the third and the fourth elements And, the outputs of which are connected to the inputs of the pulse distributor, the output (L of the third element And is connected to the second input of the second signal conditioner, the first and second blocks compare Eni, the third trigger, the fifth and sixth And elements, and a control unit, characterized in that, in order to expand its field of application by selectively comparing 30 points in the bypass mode 4; contour lines, two Eb subtraction blocks, two dividing blocks, a third comparison block, a synchronization block, a shift register and five additional AND elements, the output of the third register is connected to the second input of the second register and to the first input of the first subtractor, the second input is entered which, connected to the first input of the second subtraction unit, is connected to the output of the second register, the second of which is connected to the output of one of the counters, the third inputs of the second and third registers are connected to the output p

Description

- of the AND element, the first input of which is connected to the output of the third trigger and the first input of the shift register, and the second input of the fifth element I, connected to the second input of the shift register, is connected to the first output of the synchronization unit j whose first input is connected to one of the outputs of the first the signal conditioner and the input of the third trigger, the outputs of the conversion units and the third output of the pulse distributor are connected to the inputs of the sixth element And, the output of which is connected to one of the inputs of the seventh and eighth elements And, the other inputs which are connected respectively to the outputs of the third and fourth elements And, the output of the seventh element And connected to the second input of the synchronization unit, the output of the eighth element And connected to the first input of the first register, the output of the shift register connected to one of the inputs of the ninth element And whose output is connected to the second input of the first register, and another input to the first output of the control unit, the second output of which is connected to the second input of the third register, the first input to the output of the second signal conditioner, and the second, third 5 The fourth and fifths of the inputs with the corresponding outputs of the first and second subtraction blocks, the third outputs of which are connected to the first inputs of the first and second division blocks and comparison blocks, the outputs of which are connected to the inputs of the tenth And element whose output is connected to the second inputs of the division blocks, outputs which are connected to the inputs of the third comparator unit, the outputs of which are connected to the sixth and seventh inputs of the control unit j, which is ТТ1-1Й and the fourth outputs of which are connected respectively to the fourth input of the second register and to the first input of the eleventh And element, the output of which is connected to the third inputs of the division blocks, and the corresponding outputs of the snc unit are connected to the inputs of the third register clock, the subtraction blocks of the first and second comparison blocks, the eleventh And element, and the third comparison block.

2. The apparatus of claim 1, wherein the control unit neither contains the OR elements, the delay elements of the decoder, the inputs of which are the second, third, fourth and five inputs of block 5, one of the outputs of the decoder is the fourth output of the block and the other outputs are connected respectively to one of the inputs of the OR elements, the other inputs of which are the first, sixth and seventh inputs of the block, and the outputs are connected to the inputs of the delay elements, the output of one of which is connected to the corresponding input of one of the OR elements, and the output the other OR element, one of the outputs of the decoder j and the outputs of the delay elements are respectively the first, fourth, second and third outputs of the block.

The invention relates to computing, in particular, to semi-automatic devices for reading the coordinates of image elements from a document, the principle of action of which is based on measuring the propagation time of an ultrasonic wave in various media, and can be used to convert complex graphic information

into digital form with its subsequent input into a computer.

A graphic information reading device is known comprising a tablet, an electroacoustic transducer acoustically associated with coordinate microphones, conversion channels, three triggers, a second electroacoustic converter and a sound receiver, a correction unit, a third electroacoustic converter, And elements, four counters, a control unit, an analysis unit, instruction generation unit, request register, switch. control unit of information output The disadvantages of this device are not sufficiently high fast action when the graphic information is read directly and a large amount of information entered into the computer. The closest to the invention in its technical essence is a device for reading graphic information containing a tablet, a first electroacoustic transducer acoustically connected with coordinate microphones connected to conversion channels, the outputs of which are connected to one of the inputs of the first and second triggers, the second electroacoustic converter and the sound receiver connected to the correction unit, the first output of which is connected to one of the inputs of the first, second and third elements And, and the second connected to the input of the third trigger, the output of which is connected to another input of the third element I, connected to the first counter, the third electroacoustic converter located on the movable command input console, the pulse distributor, the first output of which is connected to the first electroacoustic converter, and to the inputs of the first and second trigger, the outputs of which are connected through the first and second elements And to the second and third, first and fourth counters, respectively, and the second with the correction unit, the driver control signals, which are connected to the first and second counters, and the output is connected to the first register and to one input of the command generation unit, the other inputs of which are connected to the first and second counters, and the output is connected to a switch connected to the third and fourth counters, and interface blocks connected to the pedestrian register and the switch, the second and third registers, one inputs of which are connected to the third and fourth counters, respectively, and inputs 74 connected to the switch, the first comparison unit, connected with the second register and with the third counter, the second comparison block connected to the third register and the fourth counter, the first OR element whose inputs are connected to the comparison blocks and the output connected to the other inputs of the second and third registers, the selector connected to the distributor pulses, one-shot connected to the selector, element 2I-OR, whose inputs are connected to the pulse distributor and to the selector, and the output is connected to the inputs of the third trigger and electroacoustic converter, and in series Yuchennye first driver of the signals connected to the one-vibrator, elements AND groups, outputs to which are connected to the pulse distributor, the other inputs of the element 2И-OR and the switch, the second driver of the signals, whose input is connected to the distributor of pulses and the single-vibration, and the output connected to the command generation unit and to the driver of the control signals, the element is NOT, the fourth element is AND, the other input of which is connected to the output of the first element OR, and the second element of OR, the other input of which is connected to the forms Telem control signals, and an output connected to the input of the first register 2J. A disadvantage of the known device is its limited functionality, since it does not provide for the characteristic points of the contour lines in the continuous coordinate reading mode, and therefore, when entering coded information into the computer, a large amount of redundant information is introduced that is not necessary for further processing. This ultimately leads to unnecessary expenditure of machine time. The aim of the invention is to expand the field of application of the device by selectively reading points in the contour line bypass mode. The goal is achieved in that the device containing a tablet, on mutually perpendicular sides of which are installed linear coordinate microphones connected to coordinate conversion units, the outputs of which are connected to one of the inputs of the first and second triggers, is the first electroacoustic converter acoustically connected with linear coordinate microphones, the second electroacoustic transducer is acoustically connected to the sound receiver and connected to a correction unit whose output is connected with one of the inputs of the first and second elements And, pulse distributor, the first output of which is connected to the first electroacoustic converter and other inputs of the first and second triggers, the outputs of which are connected to other inputs of the first and second elements And, the outputs of which are connected to the inputs of counters, the second output the pulse distributor is connected to the input of the correction unit and to the second electroacoustic converter, the switch, the first input of which is connected to the outputs of the counters, and the output is the first output device, the first register, the output of which is connected to the second input of the switch, the third register, the first input of which and the first input of the second register are connected to the outputs of the counters, the first driver of the signals, the outputs of which are connected respectively to the first input of the second shaper and to the inputs of the third and fourth elements And, the outputs of which are connected to the inputs of the pulse distributor, the output of the third element I is connected to the second input of the second signal conditioner, the first and second blocks of comparison, the third tr the second, fifth and sixth And elements and the control unit, two subtractors, Two division blocks, a third comparison block, a synchronization block, a shift register and five additional And elements, the third register output is connected to the second input of the second register and to the first input the first subtraction unit, the second input of which, connected to the first input of the second subtraction unit, is connected to the output of the second register, the second input of which is connected to the output of one

From the counters, the third inputs of the second and third registers are connected to the output of the fifth element I, the first input of which is connected to the output of the third trigger and the first input of the shift register, and the second input of the fifth element And connected to the second input of the shift register is connected to the first output of the synchronization unit, the first input of which is connected to one of the outputs of the first signal conditioner and the input of the third trigger, the outputs of the conversion units and the third output of the pulse distributor are connected to the inputs of the sixth And element, the output cat The first is connected to one of the inputs of the seventh and eighth elements And, the other modes of which are connected respectively to the outputs of the third and fourth elements And, the output of the seventh element And connected to the second input of the synchronization unit, the output of the eighth element And connected to the first input of the first register, the output of the shift register connected to one of the inputs of the ninth element I, whose output is connected to the second input of the first register, and to the other input to the first output of the control unit, the second output of which is connected to the second input of the third register country, the first input — with the output of the second signal conditioner, and the second, third, fourth, and fifth inputs — with the corresponding outputs of the first and second subtraction units, the third outputs of which are connected to the first inputs of the first and second division blocks and the comparison blocks whose outputs are connected with the inputs of the tenth element I, the output of which is connected to the second inputs of the division units, the outputs of which are connected to the inputs of the third comparison unit, whose inputs are connected to the sixth and seventh inputs of the control unit, the third and fourth outputs Which are connected respectively to the fourth input of the second register and to the first input of the eleventh element I, the output of which is connected to the third inputs of the dividing units, and the corresponding outputs of the synchronization unit are connected to the inputs of the sync pulses of the third register, the subtraction units of the first and second comparison units, the eleventh element And the third unit of comparison.

In addition, the control unit contains OR elements, delay elements and a decoder whose inputs are the second, third, fourth and fifth inputs of the block, one of the decoder outputs is the fourth output of the block, and the other outputs are connected to one of the inputs of the OR elements, respectively whose other inputs are the first, sixth and seventh inputs of the block, and the outputs are connected to the inputs of the delay elements, the output of one of which is connected to the corresponding input of one of the OR elements, and the output of the other OR element, one of you odov decoder and outputs of the delay elements are respectively Yaervym, fourth, second and third output units.

FIG. 1 is a functional diagram of a device for reading graphic information; in fig. 2 is a functional block diagram of the control unit J in FIG. 3 is a plot of the curve.

The graphic information reading device comprises a tablet 1, mutually perpendicular, the sides of which are equipped with linear coordinate microphones 2 and 3 connected to coordinate conversion units 4 and 5, the outputs of which are connected to one of the trigger inputs 6 and 7, the first electroacoustic converter 8, acoustically coupled to linear microphones 2 and 3, a second electroacoustic transducer 9 acoustically coupled to a sound receiver 10 and connected to a correction unit 11, the output of which is n with one of the inputs of the elements 12 and 13, the distributor 14 pulses, the first output of which is connected to the electro-acoustic transducer 8 and other inputs of the trigger 6 and 7, the outputs of which are connected to other inputs of the elements 12 and 13, the outputs of which are connected to the inputs of counters 15 and 16, the second output of the pulse distributor 14 is connected to the input of the correction unit 11 and to the second electroacoustic converter 9, the switch 17, the first input of which is connected to the outputs of the counters 15 and 16, and the output is the first output

device, the register 18, the output of which is connected to the second input of the switch 17, the register 19, the first input of which and the first input of the register 20 are connected to the outputs of the counters 15 and 16, the driver 21 signals, the outputs of which are connected respectively to the first input of the driver 22 signals and to the inputs

0 elements And 23 and 24, the outputs of which are connected to the inputs of the distributor 14 pulses, the output of the element And 23 is connected to the second input of the driver 22 signals, blocks 25 and 26 compare, trigger 27, elements 28 and 29, block 30 controls, blocks 31 and 32 subtractions, division blocks 33 and 34, comparison block 35, synchronization block 36, shift register 37,

0 elements 38-42, the output of register 20 is connected to the second input of register 19 and to the first input of subtracting unit 31, the second input of which is connected to the first input of unit 32

5 subtracting is connected to the output of register 19, the third inputs of registers 19 and 20 are connected to the output of element I 28, the first input of which is connected to the output of trigger 27 and the first input 0. the house of the shift register 37, and the second input of the And 28 element, connected to the second input of the shift register 37, is connected to the first output of the synchronization unit 36, the first input of which is connected to one of the outputs of the formed signal bodies 21 and the trigger input 27, the outputs of blocks 4 and 5 conversion and the third output of the distributor 14 pulses connected to the inputs

0 element And 29, the output of which is connected to one of the inputs of elements And 38 and 39, the other inputs of which are connected respectively to the outputs of elements And 23 and 24, the output element

5 and 38 is connected to the second input of the unit. 36 synchronization, the output of the element 39 is connected to the first input of the register 18, the output of the shift register 37 is connected to one of the inputs of the element 40, the output of which is connected to the second input of the register 18, and the other input to the first output of the control unit 30, the second output which is connected to the second register input 20, the first input - with the output of the driver 22 signals, and the second, third, fourth and fifth inputs with the corresponding outputs of the subtracting blocks 31 and 32, the third outputs of which are connected to the first inputs of blocks 33 and FOR the division and blocks 25 and 26 compare, you the strokes of which are connected to the inputs of the element 41, the output of which is connected to the second inputs of the division blocks 33 and 34, the outputs of which are connected to the inputs of the comparison unit 35, the outputs of which are connected to the sixth and seventh inputs of the control unit 30, the third and fourth outputs of which connected to the fourth input of the register 19 and the first input of the element 42, the output of which is connected to the third inputs of the division blocks 33 and 34, respectively, and the corresponding outputs of the synchronization unit 36 are connected to the inputs of the clock pulses of the register 20, blocks 31 and 32 of the subtraction , Blocks 25 and 26 of comparison, element 42 and block 35 of comparison. Control unit 30 contains OR elements 43 and 44, delay elements 45 and 46, and a decoder 47, the inputs of which are the second, third, fourth and fifth inputs of the block, one of the outputs of the decoder 47 is the fourth output of the block, and the other outputs connected respectively to one of the inputs of the OR elements 43. and 44, the other inputs of which are the first, sixth and seventh inputs of the block, and the outputs are connected to the inputs of the delay elements 45 and 46, the output of the delay element 45 is connected to the input of the OR element 44, and you move the element OR 43, one of the inputs is decrypted and output elements 47 and 45 and delay 46 are respectively the first, fourth, second and third block outputs. The graphic information reader operates in the following manner. The device implements two modes of operation - discrete and continuous. the operation of the device is set by the controls conventionally shown in FIG. 1 buttons Kn 1 and Kn 2 at the input of the driver 21 signals. The discrete mode of operation of the device is carried out by switching on Kn 1, while Kn 2 is turned off. In continuous mode, both buttons are on. Consider the operation of the device in discrete mode. Electroacoustic transducer 8 (coordinate remover) is placed on the working field of the tablet 1, and press KN 1, while from the imaging unit 21 into the distributor 14 and the element And 39 enters through the element 24 and the signal about the device in discrete mode and forms clocks of operation of the device. In the first cycle, the signal from the second output of the pulse distributor 14 is started — the electroacoustic converter 9 and the auto-tuning of the clock frequency generator of the correction unit 11 is enabled. After the sound signal emitted by the electro-acoustic transducer 9 reaches the sound receiver 10, a signal appears at the output of the latter that adjusts the clock frequency generator of block 11, then the correction clock ends and the generator frequency corresponds to the current climatic conditions. In the second clock the distributor 14 starts (by the signal from the first output) the electroacoustic converter 8 and the triggers 6 and 7 are set to one, which allows the flow of clock pulses from block 11 to counters 15 and 16 through elements 12 and 13. At the moment when the sound signal emitted by the electro-acoustic converter 8 reaches a certain microphone 2 (3), a signal appears at its output that passed 4 blocks ( 5) conversion, sets the triggers 6 (7) to the zero state and thereby stops the flow of clock pulses through the element 12 (13) to the input of the counter 15 (16). The contents of counters 15 and 16 correspond to the coordinates of the read point. Simultaneously with the arrival of signals from blocks 4 and 5 of the conversion and the signal from the third output of the distributor 14, the signal that passed the AND 39 element appears at the output of the element 29 and the register 18 allows information to be transmitted to the computer through the switch 17. With the end of the second cycle, the device passes to the initial state and is ready to take the coordinates of the next point of the image.

In the continuous mode of operation of the device, the operator places the electroacoustic converter 8 on the working field of the tablet 1 at the point of the image contour and presses Kn 1 and Kn 2. When Kn 1 and Kn 2 are on, the imaging unit 21 generates a signal on the device operation in continuous mode, which is supplied through the element And 23 in the distributor 14, the shaper 22 signals and the input element And 38. Simultaneously, the signal generated by pressing K 1, with the shaper 21 is fed to the input of the trigger 27 and to the input of the installation block 36 synchronization. The trigger 27 is fixed at the zero state, and the signal from the zero output of the trigger 27 is supplied to the element 28 and to the information input of the shift register 37. In the continuous mode of operation of the device, the electro-acoustic transducer 8 emits ultrasonic waves continuously with a certain frequency. The distributor 14 pulses organizes the following cycles of operation of the device.

The first cycle of operation is similar to the above.

In the second cycle, the valve 14 starts the electroacoustic converter 8 and the triggers 6 and 7 are set to one, which allows the flow of clock pulses from block 11 to counters 15 and 16 through elements 12 and 13. At the moment when the sound signal emitted by the electro-acoustic converter 8, reaches a certain microphone 2 (3) ,. at its output, a signal appears which, having passed the conversion blocks 4 (5), sets the triggers 6 (7) to the zero state and thereby stops the flow of clock pulses through the AND 12 (13) element to the input of the counters 15 (16). The contents of the counters 15 and 16 Corresponds to the coordinate of the read point. Simultaneously with the arrival of signals from the conversion units 4 and 5 and the signal from the third output of the distributor 14, the output of the element 29 appears, the signal which, having passed through the element 38, goes to the second input of the synchronization unit 36. At the same time, control clock pulses are alternately generated at the outputs of synchronization unit 36, which provide processing of the read information in continuous mode. The essence of the method of information processing in continuous mode, embedded in the proposed device for reading graphic information, is to determine the ratio

l

 for each point of the curve, compared to X

The scientific research institutes of this relation with the corresponding relation for the previous point with a given accuracy, i.e. for the i-th point, the ratio is determined

&

- and compared with the ratio

& L (

 obtained for (1-1) th

& X ,, points

  y, - | - CSS, ay, i y,

about

/ (- 1 -1 0 D 0

and Хр, УО, ,, У., -. ,,,,, У. - coordinates for the initial (or informative), (i-l) -l and i-th point, respectively.

The device implements with specified accuracy the selection criterion in accordance with the expression

WY; &Y; -

d.kh

At the same time, the accuracy (or error) of the comparison is set by the operator of the length of the discharge grid of the compared ratio & -one

yH;

To reduce the dpina of the discharge grid, the device compares

at d w., - u ,, u y; -,

lh; yh .. or

W

lH;

with at l At U х-, Д., iX ,,

about

When comparing tangents from O to. ..o / ayo

tb (GG) and cotangents from 45 to 90

wlh h

h-to-; the operation is performed on numbers from 0.00 to -1.00 inclusive. This eliminates the need to operate with large numbers.

The characteristic points of the digitized contour lines are determined in real time during the analysis of the current coordinates. Here, the vy are the linear portions of the curve. The points of transition from the curvilinear section to the straight line and vice versa are considered to be characteristic points (informative) of this curve. During such processing, the coordinates of the characteristic points are fed to the output of the device for input into the computer, and the coordinates of the points lying on the straight sections of the input curve, the output of the device are not received and the computer is not entered. To analyze the shape of the input curve, the device determines the increments coordinates, each point relative to the previous characteristic point, for which the coordinates of the first point (A) are recorded in register 19, BTopo i (AQ ;,) -B register 20, and the coordinates of the third point (Ao2) correspond to counters 15 and 16. Pr This at block 31 of the subtraction receives data from registers 19 and 20, and at block 32 of the subtraction from register 19 and counters 15 and 16. In blocks 31 and 32, the differences D x ;, Oi AOO 1 are determined. ftoi Aoo xX, Xft, LU2 Udo2- Udooo respectively. The values of lH are supplied to division units and to the comparison unit 25, and the values of & X2, is fed to a divider 34 and to a comparator 26. Moreover, depending on the results of the comparison, in blocks 25 and 26, at output 33 and 34, the divisions are often X - with jAX uY & X, 6X2 & 5 xX2 with, uX, uY2 The resulting quotients are tangents (tangents) the elementary segments of the straight lines by the elementary derivatives of the input curve taken at the points AQ. and Agg. The comparison between the values of & Y, & Y2, & X X & y. and - (or - and -), one can determine whether the points AQ, Ad2 are on the same line or not. The comparison is performed in block 35. If these values are not equal, permission is given to transfer the coordinates of the AO point to the computer. At the same time, the coordinate of the AOI point is overwritten in the register 19, and in the register 20 the coordinates of the point AQ G1, equality is only permitted by 71 overwriting the coordinates of the point AQ in the register 20, while the coordinates of the point AO are erased. When a straight line segment is detected (AddA ,, segments, 40 60W — the coordinates of each subsequent point on this straight line are compared with the coordinates of the initial point of the segment, which ensures high accuracy of the analysis and eliminates an erroneous representation of curvilinear sections with a large curvature radius of linear ones. the curvilinear part (segment, AjjjA Q,) the coordinates of each subsequent point on this curve correspond with the coordinates of each previous point, and if the condition of inequality is fulfilled, the coordinates of the previous points are transmitted to the computer in this case, and the number of transmitted points per unit length of the curve section depends on the curvature of the section and the magnitude of the received error.When a section is detected, a straight line parallel to the coordinate axis (cut A jjAgQ, AggAgg), i.e. when iX or iY are zero, the operation of division blocks 33 and 34 is prohibited and in control block 30 a signal is generated similar to the equality signal of comparison block 35, which also allows only the rewriting of coordinates from counters 15 and 16 to register 20, while the coordinates in register 20 erased, i.e. The device works similarly to that discussed earlier in the analysis of the engineered section, however, without using blocks 33 and 34 of the division and block 35 of comparison. The signal from the first output of the synchronization unit 36 permits the recording of the X, Y coordinates of the AQQ point to registers 19 and 20. The same signal records the first digit of the unit shift register 37. Headers 19 and 20 are constructed in such a way that, with new information, the previous information is erased. Further, when the signal from the second output of the synchronization block 36 arrives at the trigger input 27, it is set to one and blocks the input of coordinates X and Y to registers 19 and 20, and also stops the flow of a single signal to the information input of shift register 37. At the same time, the signal from the second output of the synchronization unit 36 (signal a) gives permission to enter the contents of register 19 (coordinates X, Y) into blocks 31 and 32, and also the contents of counters 15 and 16 in block 32, and register 20. The same signal in blocks 31 and 32 of the subtraction determines the difference of the numbers received from registers 19 and 20 and counters 15 and 16. In this case, & X - & X5-AY: uY2 O, since the registers 20 and 19 and the counters 15 and 16 are the coordinates of the starting point AQQ. In this case, the first and second outputs of blocks 31 and 32 generate signals that are fed to the input of the decoder 47. On the decoder 47, the state of the first and second outputs of the blocks 31 and 32 is analyzed and, depending on their state, the appropriate decision is made. For example, in this case, the inputs of the decoder 47 are present, code 1111, in which the output 15 of the decoder 47 presents a single signal that through the OR 44 element and the delay element 46 enters the control input of the register 20, which is allowed by overwriting the contents of the counters 15 and 16 into the register 20a by the zero signal from the output O of the decoder 47 through the element 42 blocks the operation of the blocks 33 and 34 divisions. This ends the processing of the starting point of the information array (Fig. 3). The signal from the AND 38 element, corresponding to the next coordinate of the point, is fed to the synchronization unit 36, which again generates the control clock pulses. At the same time, according to the signal from the first output of the synchronization unit 36, the unit recorded in the first digit of the register 37 is shifted (rewritten) to the second discharge, the zero signal from the KOT output is fed to the input of the AND 40 element. By the signal q from the second output of the synchronization block 36 in the 31 and 32 subtractions, the differences in the coordinates of the recorded points are determined, and in block 32 the difference AO, A.QO is determined, and in block 31, the difference AQQ-AQQ. At the same time, single signals are formed on the first and second outputs of block 31, the corresponding values are O, and the first and second outputs of block 32 are absent, as the remote control OUCH2 0. In this case, code 1100 is present at the input of the decoder 47, in which at output 12 of the decoder 47, a signal (one) appears, which: through the ELS 43 element arrives at the second input of the AND 40 element (the signal does not pass further, since it is blocked by the zero signal from the second bit of the shift register 37), through the OR element 43 and delay element 45 - to the control input of register 19, those thus allow writing into it the contents of register 20; through the elements OR 43 and 44, the elements 45 and 46 of the delay to the control input of the register 20, thereby allowing the contents of the counters 15 and 16 to be written to it. This ends the processing of the second point of the reduced curve (Fig. 3). When reading the coordinates of the next one, the points of the synchronization unit 36 again form control clock pulses. As before, the signal from the first output of the synchronization unit 36 to the second bit of the shift register 37 rewrites zero, i.e. register 37 is reset, and AND 40 is opened. On signal O | From the second output of the synchronization block 36, in blocks 31 and 32 of the subtraction, the difference in coordinates of the points of the points A. is determined, 01 00 and in block 32 the difference is determined oo block 31 - the difference AQJ-AQQ (table and Fig. 3). Since both results are different from zero, i.e. X O, 0,, lu2t0, there are no signals at the first and second outputs of blocks 31 and 32 of the subtraction. In this case, a code 0000 is present at the input of the decoder 47, at which a single signal appears at the output O of the decoder, which arrives at the input of the element 42, through which the first control inputs of the division blocks 33 and 34 receive the signal b from the fourth block output .a 36 sync. 17 Signal 5 from the third output of synchronization block 36 in blocks 25 and 26 is used to make comparisons of iiXf with% and uXjC. At Dx d V and at lHl i outputs of blocks 25 and 26 of comparison, single Signals appear that through element 41 arrive at the second control inputs of blocks 33 and 34 divisions. The signal L in the blocks 33 and 34 division results in determining the values (for & X LU) and iX LUd) or (for L X. c U Y) and (when), respectively. The values of these relationships from blocks 33 and 34 divisions are supplied to a comparison block 35, where they are compared by signal g. In this case, the result of the comparison is an equality signal and at the first output of block 35 a signal appears which, through input A of control unit 30, the OR 44 element and the delay element 46 allow overwriting the coordinates of the AQJ point from counters 15 and 16 to register 20 The coordinates of the point AQ in register 20 are then erased. As can be seen from the table, similar operations are performed until the coordinates of point A, which does not belong to direct, are received. In this case, the values of the ratios i.4 / hX, lX iX are not equal to each other, and the result of the comparison block 35 is an inequality signal KOT01I.Y through the input of the control unit 30 is the input of the element OR 43. The signal from the output of the element OR 43 through the element 40 and arrives in the register 18, which is permitted through the x 1 switch 17 coordinates of the point AJJQ. Further, this signal passes through delay element 45, allows rewriting of the contents of register 20 to register 19 and arrives at the 1 soda of element OR 44, the output signal of which, passed delay element 46, permits rewriting of the contents of counters 15 and 16 to register 20. At the next point A, 7, the processes are repeated, and the coordinates of point A are displayed on the computer. The process is repeated until the coordinates of the point are received. In this case, the values of the "uY & Y ,." bV, are equal, i.e. 6X, lx / - - lu, iYa LH A21 Aif UDhhh ,, Xd, UZ UA20 Thus, the rectilinear portion is again detected. In this case, only the coordinates of the point from the counters 15 and 16 are rewritten into the register 20. Similarly, the coordinates of the points lying on the segments 60 are analyzed and the table and FIG. 3). And when analyzing the points lying on the segments and AgoAg2, the operation of blocks 33 and 34 divisions is prohibited, since in these cases the codes 1010 (for the segment) and 0101 (for the segment) are present at the input of the decoder 47. In this case, the pulses from output 5 (or output 10) of the decoder 47, having passed through the OR 44 element and the delay element 46, only rewrite the contents of the counters 15 and 16 into the register 20 (table). The fixing of the AfQ point is performed only when the code combination 1000 is present at the input of the decoder. The fixing of the penultimate and last points (in this case Ago and Ag2) is performed as follows. After analyzing the points Ag, in the register 19 and 20 are the coordinates of the points AID and Ag2, respectively. At the end of the data input, Kn 1 is turned off, while the falling edge of the signal from the first output of the shaper 21 of the shaper 22 forms a signal at the end of the input, which consists of two consecutive pulses that go to the input U of the control unit 30. Moreover, these pulses, having passed through the elements IL 43 and 44 and the elements 45 and 46 of the delay, produce the following actions: on the first pulse, the contents of register 19 outputs 19

The second through the switch 17 in the computer and the contents of the register 20 (coordinates of the point Agj) are rewritten to the register 19, and on the second pulse the contents of the register 19 are again output through the switch 17 to the computer.

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108483720

The reading of the coordinates of the curve points ends there.

The table shows the process of analyzing the input curve (Fig. 3), as well as the results of recording, rewriting, subtracting and comparing the coordinates of points.

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four

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42

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It is established that the amount of information entered into the computer, compared with the amount of information entered

50

the known device is reduced by an average of 5 times for engineering drawings, graphs and other graphic information of average complexity, for complex graphic information (for example, topographic maps, X-ray images) by an average of 2-3 times.

As a result of the reduction in the amount of information entered into the computer, the cost of computer time for entering this information and its subsequent processing is reduced. In addition, the amount of memory required for processing this information and subsequent long-term storage of magnetic information in magnetic and other media is reduced.

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Claims (2)

.1. DEVICE FOR READING GRAPHIC INFORMATION, containing a tablet, on the mutually perpendicular sides of which linear coordinate microphones are installed, connected to coordinate transformation units, the outputs of which are connected to one of the inputs of the first and second triggers, the first electro-acoustic transducer, acoustically connected to the linear coordinate microphones, the second electro-acoustic a transducer acoustically connected to the sound receiver and connected to the correction unit, the output of which is connected to one of the inputs of the first and second elements And, a pulse distributor, the first output of which is connected to the first electro-acoustic transducer and other inputs of the first and second triggers, the outputs of which are connected to other inputs of the first and second elements And, the outputs of which are connected to the inputs of the counters, the second output of the distributor pulses connected to the input of the correction unit and the second electro-acoustic transducer, a switch, the first input of which is connected to the outputs of the counters, and the output is the first output of the device The first register, the output of which is connected to the second input of the switch, the third register, the first input of which and the first input of the second register are connected to the outputs of the counters, the first signal shaper, the outputs of which are connected respectively to the first input of the second signal shaper and to the inputs of the third and the fourth element And, the outputs of which are connected to the inputs of the pulse distributor, the output of the third element And is connected to the second input of the second signal conditioner, the first and second comparison blocks, the third trigger, heels and the sixth element And and a control unit, characterized in that, in order to expand the scope of its application due to the selective reading of points in the contour line bypass mode, two subtraction units, two division units, a third comparison unit, a synchronization unit, a shift register, and five additional elements And, the output of the third register is connected to the second eo (ib X with the m input of the second register and to the first input of the first subtraction unit, the second input of which, connected to the first input of the second subtraction unit, is connected to the output of the second a histra, the second input ^ of which is connected to the output of one of the counters, the third inputs of the second and third registers are connected to the output of pin 1084837 of that element And, the first input of which is connected to the output of the third trigger and the first input of the shift register, and the second input of the fifth element is And, connected to the second input of the shift register, connected to the first output of the synchronization unit, the first input of which is connected to one of the outputs of the first signal conditioner and the input of the third trigger, the outputs of the conversion units and the third output of the distributor and pulses are connected to the inputs of the sixth element And, the output of which is connected to one of the inputs of the seventh and eighth elements of Y, the other inputs of which are connected respectively to the outputs of the third and fourth elements And, the output of the seventh element And is connected to the second input of the synchronization unit, the output of the eighth element And is connected to the first input of the first register, the output of the shift register is connected to one of the inputs of the ninth AND element, the output of which is connected to the second input of the first register, and the other input to the first output of the control unit, the second the output of which is connected to the second input of the third register, the first input - with the output of the second signal conditioner, and the second, third, fourth and fifth inputs with the corresponding outputs of the first and second subtraction blocks, the third outputs of which are connected to the first inputs of the first and second division blocks and blocks comparisons, the outputs of which are connected to the inputs of the tenth element And, the output of which is connected to the second inputs of the division blocks, the outputs of which are connected to the inputs of the third comparison unit, the outputs of which are connected to the sixth and seventh strokes of the control unit, the third and fourth outputs of which are connected respectively to the fourth input of the second register and to the first input of the eleventh element And, the output of which is connected to the third inputs of the division blocks, and the corresponding outputs of the synchronization block * are connected to the inputs of the third register clock, blocks subtracting the first and second comparison blocks, the eleventh AND element and the third comparison block. 2. The device according to claim 1, characterized in that the control unit contains OR elements, delay elements and a decoder, the inputs of which are the second, third, fourth and fifth inputs of the block, one of the outputs of the decoder is the fourth output of the block, and the other outputs are connected respectively, to one of the inputs of the OR elements, the other inputs of which are the first, sixth and seventh inputs of the block, and the outputs are connected to the inputs of the delay elements, the output of one of which is connected to the corresponding input of one of the OR elements, the output being different of the OR element is one of the outputs of the decoder, and the outputs of the delay elements are the first, fourth, second and third outputs of the block, respectively.