SU1092552A2 - Device for checking answers of students - Google Patents

Abstract

1. DEVICE FOR CONTROL. I ANSWERS OF PUPILS on aut. St. No. 930336, characterized in that, in order to increase the accuracy and enhance the didactic capabilities of the device, a block search block is introduced in it, the first inputs and outputs of which are connected respectively to the output and the second input of the first memory block, and the second input and output with the fifth the output and the fourth input of the control unit, respectively, the fourth memory block, the first input of which is connected to the output of the second memory block, and the response generator, the first input and output of which are connected respectively to the output and the second input to the fourth About the memory unit, the second input and output - with the sixth output and the fifth input of the control unit, respectively, and the third input - with the second input of the second memory unit SL.

Description

2 o The device according to p., Characterized in that in it the frame search unit comprises a sequentially connected first pulse distributor, the first OR element, the second pulse distributor, the third pulse distributor, the first register, the first comparison node, the counter and the first And element, the output Which is connected to the input of the first pulse distributor, the second inputs of the first, second and third pulse distributors are the first code of the block, the second input of the first, the comparison node the first input of the block, and the second input of the first elec cient OR and a second output meter - the second input and output unit, respectively,

3c. The device according to claim Ij is that in it the response maker contains the fourth, fifth and sixth distributors of pulses, the second And element, the second register, the comparison node, the first delay element, the trigger, the decoder, and the second element. delay, the output of which is connected to the second input of the trigger, the third element And the first input of which is the synchronization input of the driver, and the second input is connected to the trigger output and the fourth element From the first input of which is connected to the output of the sixth pa the distributor ImBlj the second inputs of the decoder and the second comparison node are the first input of the generator, the input of the fourth pulse distributor and the second inputs of the second and fourth elements And the second input of the generator of the second and third elements of the second and second node of the comparison by the first output of the former, and the outputs of the generator of the second and third elements of the second comparison node And - the second output shaper, and the outputs of the fourth, fifth and sixth distributors of pulses - the third output shapers,

A. The device according to claim 1, -O t is de- stroyed by the fact that in it the polling unit of the control unit contains the second OR element, the seventh pulse distributor, the driver of the trigger signals and the driver of frame control pulses sequentially connected by the eighth pulse distributor and the third element OR, the ninth pulse distributor and the fourth element OR in series, as well as the tenth pulse distributor, the first output of which is connected to the second input is normalized Ate control pulses of frame formation, and the second and third outputs are respectively with the second and third inputs of the trigger signals generator, the fourth input of which is connected to the second output of the eighth pulse distributor, which is 1/1: 1 output of which is connected to the second input of the fourth element OR; the pulse distributor is connected to the second input of the third OR element, and the input is connected to the output of the second OR element connected to the inputs of the seventh and eighth pulse distributors, the fifth input and the second one od shaper triggers are respectively fourth input and a fifth output of the control unit, and the entrance and fourth distributor vkod tenth pulse - respectively fifth gaestym input and output control unit.

one

The invention relates to automation and computing technology, in particular, to interviewing devices for students and preparing data 5 and can be used to conduct opinion polls and work with experts in information services.

in systems of programmed education and ТЛ1.

According to the main author.  St.  1,930,336, a device is known for monitoring student responses, comprising first and second memory blocks and a series-connected response input unit.  block upvyl. nip, third memory block and information presentation block.  It also includes a frame driver, a response code distributor, and a reset signal generator.  The latter is connected to the control unit of the first memory unit and the distributor of response codes, which, in turn, is connected to the second and third memory blocks and the control unit connected to the frame former connected to the first and third memory blocks C I 3 However, in the process of polling the questionnaire for help (and such a device the reepondent cannot return to the previous frame and correct the previously typed Answer, the device does not provide such a possibility, which reduces the reliability of the information collected by this device twa.  The aim of the invention is to improve the accuracy and expand the didactic capabilities of the device.  The goal is achieved by the fact that the block search block is entered into the device, the first inputs ,, and the output of which are connected respectively to the output and the second input of the first memory block and the second input and output are the fifth output and the fourth input of the control block, respectively, the fourth memory block The first input of which is connected to the output of the second memory block and the response formatter, the first input and output of which are connected respectively to the output and the second input of the fourth memory block, the second input and output to the other output and the fifth care of the control unit tim respectively, and the third output - to a second input of the second memory block.  Moreover, the frame search block contains the first impulse distributor in series the first OR element, the second pulse distributor, the third distributor, pulses, the first register, the first comparison node, the counter and the first And element whose output is connected to the input of the first pulse distributor, the second outputs of the first, second and the third pulse distributor is the first output of the block, the second input of the first comparison node is the first input of the block, and the second input of the first OR element and the second counter output are the second in the course and exit of the block, respectively.  The response generator contains serially connected fourth, fifth, and second pulse distributors, the second element is AND, the second register, the second comparison node, the first delay point, trigger, decoder, and second delay element, the output of which is connected to the second trigger input, the third AND element, first the input of which is the synchronization input of the generator unit, and the second input is connected to the trigger output, and the fourth element I, the first input of which is connected to the output of the sixth pulse distributor, the second inputs are the decrypt RATOR and the second comparison node are the first input of the generator, the input of the fourth pulse distributor and the second inputs of the second and fourth elements AND, the second input of the generator, the outputs of the second and third elements AND and the second comparison node, the first output of the generator, and the children of the Fourth element and the fourth element. And the second output of the imaging device, and the outputs of the fourth, fifth and niecToro pulse distributors - the third output of the imaging device, Uz (the polling of the control unit contains sequentially connected second element OR, the seventh pulse distributor, the driver of the trigger signals and the driver of the control of frame formation, sequentially connected the eighth impulse distributor and the third element of the IPI, the sequentially included nine and six impulse distributor and the fourth element OR, and the tenth distribution pulse pulse, the first output of which is connected to the second input of the pulse shaping control generator, and the second and third outputs, respectively, with the second and third inputs of the start signal generator, the fourth input of which is connected to the second output of the eighth pulse distributor, the third output of which is connected to the second the input of the fourth OR element, the second output of the ninth pulse distributor is connected to the second input of the third OR element, and the input to the output of the second OR element connected to the input s Seventh and eighth valves momenta p fifth input and a second shaper of the start signal are input, respectively, the fourth and fifth output audio driving unit, and a fourth input and output of the tenth pulse distributor - respectively the fifth input and a sixth output of the control unit.  Fig 1 shows the structure of the proposed device; in fig.  2 - the same, block search block; in FIG. 3, the same, shaper, responses; FIG. D is the same; Control Unit 5 of FIG. 5 is the same of the polling node.  The device for monitoring student responses (figo) contains blocks 1 and 2 of memory (for storing the questionnaire and for recording responses to any machine medium with the possibility of further entering these answers from the information carrier into a computer). In both blocks, different types of information carriers (magnetic tapes5 disks, etc. P. ).  The device also contains a shaper of 3 frames, a third block of memory 4, a block 5 of presentation of information, a block 6 of entering answers, a block 7 of control, a distributor 8 of response codes, shaper 9 of reset signals block 10 of searching for a frame, shaper 1I of answers and a fourth block 2 memory The 3-frame imager provides a frame-by-frame reading of a questionnaire stored on a magnetic tape in block I, and the transfer of information (frame) to memory block 4. The information display block 5 provides an indication-. the contents of the frame on your screen.  Block 6 input answers provides the interaction between the device and the respondent.  Block 6 contains at least ten digital keys and a control key.  (Forward, Back, Start, and Reset. As a result of pressing the keys, the control unit 7 forms additional characters on the screen of unit 5, skips the corresponding codes into memory unit 4 and starts the distributor 8 of response codes.  The distributor 8 records the response codes to the magnetic tape in block 2. After the end of the next respondent polls, the former 9, the reset signals, returns to the beginning of the questionnaire.  Block search block 10 provides a search for the beginning of the previous frame on a magnetic tape in block 1.  Response generator 11 provides a search for the start of answers to the question of the previous frame on a magnetic tape in block 2 o Block search block 10 (FIG.  2) contains serially connected first pulse distributor 13 (two-way control), OR element 14, second pulse distributor 15, third pulse distributor 16, register 7, comparison node 8, counter 19s element 20 And, input 2, outputs 22-25 and input 26  In this case, all three distributors 13, 15 and 16 are identical in composition.  Each of them consists of sequentially connected trigger 27, element 28A and delay element 29, the installation input of trigger 27 being the distributor input, the output of element 28A connected to the control output, and the output of element 29 delaying the triggering output and gus the trigger trigger input 27.  The second input element 28 And the input 30 clock pulses.  Shaper P answers (FIG.  H) consists of three serially connected distributors 31-33 pulses (motion control), and the triggering output of the sixth distributor 33 through the element 34 And is connected to the register 35.  Register 35 is serially connected to comparison unit 36 by delay element 37, trigger 38, decoder 39, and delay element 40, the output of which is connected to the damping input of trigger 38.  In addition, the trigger output 38. connected to the element 41 And, and the control output of the distributor 33 - to the element 42 I.  While the valves 31-33 are completely identical to the described scheme of the distributor 15.  The imaging unit 11 has an input 3, outputs 44-48, inputs 49-5, outputs 52-55, input 56 and output 37.  The basis of the control block 7 (FIG. 4) is polling node 58, which provides interaction between the main blocks.  Frame register 59, together with frame decoder 60, is used for storing and decoding the type k; shch for the entire time of the answer to this question.  The feature search node 61, in conjunction with the registers 62 and 63 of the response number and the comparison node 64, provide a search for the answer selected by the respondent, the marker control unit 65 generates the corresponding code in memory block 4 or suppresses this code causing the screen to appear or quench block 5 of the additional character, which marks the answers selected by the respondent.  Marker search node 66 provides a search for answers selected by the respondent for later recording onto a magnetic tape.  Links 67-93 provide connections between the blocks and nodes of the device.  In this case, similarly to the basic invention, the feature search node 61 consists of a code decoder, an address counter, a counter control circuit that generates a signal for the end of a frame scan, and a response number entry control circuit (not shown); the marker control node 65 consists of a marker formation scheme triggered by a signal from pressing the Start key on input 67 (with a second type frame), a marker blanking circuit triggered by a signal from pressing the Reset key on input 67, and a signal forming and quenching scheme by pressing a signal Start keys at input 67, with a frame of the first type not shown, the marker formation scheme is additionally triggered by a signal at input 93 from the driver 11 responses); the marker search node 66 consists of a code decoder, a single marker search scheme, and a viewing end determination scheme (not shown).  Interrogation node 58 (FIG.  5) consists of a trigger generator 94, a framing control pulse generator 95, a pulse distributor 96-98 (recording control), a 99 distributor for them: pulses (generates backward control pulses) and elements 100-1P2 OR.  In order to provide tasks solved by node 58, it contains triggers 103-107, elements 108-110 OR, elements 111121 AND, elements 122 and 123 of delay, pulse shapers 124-127, which consist of triggers 104, elements 114 AND of elements 122 of delay 128-145 provide connections between the polling node 58 and the remaining units and nodes of the device.  The outputs 134 and 137 form the output 74, the inputs 143 and 144 - the input 76, the outputs 130, 133 and 138 - the output 79, and the inputs 1. 31, 141 and 142 - entrance 87.  Through inputs 129, 132 and 136, polling node 58 is connected to frame decoder 60, output 128- with frame register 59, output 135 and input I39 - to marker search node 66.  The proposed device works as follows.  When the device is turned on, a starting pulse arrives at the input 145 (from the master oscillator, which is not shown in FIG.  l)  Element 108 OR on output 86 triggers a 3-frame imaging unit that controls memory block 1, ensuring that the first frame is copied and written to memory block 4.  At the same time, the same signal sets trigger 1 103 and 104 to 1.  As a result, a low potential arrives from the inverse output of the trigger 103 through the output 85 into the block 5 for presentation of information, which blocks its operation.  From the potential output of the driver 124, a high potential through the output 128 permits entry of information from the driver 3 at the input 88 into the register 59 of the frame.  As soon as the frame type is entered into the last (digits 0.1 or 2), the signal from the decoder 60 through the input 129 enters element 114 AND, as a result of which the signal from the last through element 110 OR and output 130 blocks the entry of the frame type into memory block 4 ti (for example, decreasing the address of the counter by I, resulting in. The following code is recorded at the same address), and through delay element 122, flip-flop 104 is reset and starts shaper 125, the latter is triggered when a space signal is received at input 131 from shaper 3 separating the frame type from the rest of the frame.  The signal from the control output of the driver 125 through the software element OR also blocks the entry of a space code into the memory block 4.  All the rest of the frame from memory block 1 through shaper 3 is stored in memory block 4, after which shaper 3 generates a frame end signal, which at input 142 through element 112 and resets trigger 103 (to the second input of element 112 and low potential trigger 106, which is in the state O).  After that, on exit 85, the trigger 103 removes the blocking of the information presentation block 5.  As a result of these actions, the respondent sees the contents of the first frame on the screen of block 5.  The operation of the proposed device is completely similar to the operation of the device according to the basic invention.  Further, the operation of the device distinguishes with depending on the type of the questionnaire frame, selected from a magnetic tape.  All questionnaire frames begin at.  a sequence number highlighted by a space and displayed on the screen. A frame of type zero (informational) is a message to the respondent and does not require any response from it.  A frame of the first type is a question to the respondent to which he can choose only one of the answers offered to him.  A frame of the second type represents the request of the respondent, in response to which he may choose not one, but several answers.  The operation of the proposed device in these cases is completely equivalent to the operation of the device for monitoring the responses of the students according to the basic invention.  At the same time, at the input 91 into the register 62 of block 6, the answer number entered by the respondent is entered.  Signals from pressing the Start or Reset keys are received from block 6 at input 67 to the marker control unit 65, which at output 68 enters the marker into memory block 4.  A feature search node 61 by its output 69 and input 70 is connected to memory block 4 and provides a search for a response sign, whose numbers at input 90 are entered into register 63 from Olok 4.  The marker search node 66, by its output 72 and input 71, is associated with memory block 4, searches for the answer selected by the respondent, and on output 73 starts pacnit splitter 8 response codes for recording responses in memory block 2.  When the Forward key is pressed, the signal at input 144 enters polling node 58 and, through element 100 OR, sets trigger 1 103 in the triggering and blocking circuit of shaper 94.  The latter blocks the operation of 1 2 5 information projections, In addition, from the output of element 100 OR, the signal goes to the control circuit for recording valve allocators 96-98, of which only one is triggered (according to the type of frame received from descriptor 60). such as the potential at input 132 enables the operation of element 115 I, the signal from which at output 133 sets the source address and starts the address counter in memory block 4, enters the input of delay element 123 and sets ™ to 1 flip-flop 105.  Potential ial from the last output 80 puts the space code in block 4. After a specified time, element 123 is triggered, which triggers trigger 105 and, at output 134, starts response code allocator 8, which records the space code and end-of-line character in memory 2, which serves as a separator of responses corresponding to one frame from another.  The distributor 8, having finished its work, generates a signal for the end of the record, which is fed to the element 116 I. at input 75  G output of the latter through element I09 OR and element 111 AND (trigger 106 cleared) the signal enters the input of element 108 OR Next, the startup and blocking circuit of shaper 94 operates as in the initial j run: the next questionnaire frame is read and the lock is removed from the information presentation block 5 .  The valve 97 is activated when the frame of the first type.  The potential at input 136 enables the operation of element 12G I, the signal from whose output triggers control circuit 126 and 4te cut element 101 OR output 138 sets the starting address in memory block 4, and output 137 starts the response code distributor 8, which records the frame number and the space character serving as a separator in block 2; The end signal for the distributor 8 through input 75 enters the control input of the shaper 126, as a result of the last signal from its control output through the OR element 102 and output 135 for OSCAL search marker 66, and the trigger signal to its output triggers generator 27, Node 66 using the search unit 61 detects the characteristic response labeled marker after which the output 73 starts the valve 8 the response code.  The latter records the selected answer number and the End of Line symbol, after which it forms the end of recording signal.  The latter is fed to the control input of the driver 127, which is triggered, and the signal from its control output through the elements 109 IL and 111 And is fed to the input of the element 108 OR, the start circuit for starting and blocking the driver 94.  Finally, the recording control circuit of the allocator 98 is triggered by a frame of the second type.  The potential at the input of 1DP resolves the operation of element 119 I, the signal from whose output sets trigger 1 107, and through element 101 OR sets the starting address in memory block 4 and starts distributor 8.  The latter, after recording the frame number and the space character, generates a signal for the end of the recording, upon arrival of which element 120 AND descends, and element 102 OR starts node 66. This node searches for the selected answer number and records it with the distributor 8 response codes.  The latter again generates a recording end signal, in response to which the dispenser 98 restarts the node 66.  This continues until the counter control scheme in the Search Engine 61 is not generated by the end of viewing signal, which is fed to the Watch End Detection Network in the marker search node 66.  This circuit, in the presence of a second-type frame feature, Lorniques the corresponding impulse, which, at input 139, resets trigger 107 and starts the starting and blocking circuit of driver 94.  If, when reading the next questionnaire frame from the 3-frame imager, the end of the questionnaire is received at input 141, then element 118 AND (trigger 106 is reset) triggers, the output from which is suppressed by trigger 104 in the frame-shaping control generator 95 and starts at output 78 shaper 9 reset signals.  The latter, as in the main invention, provides the return of the questionnaire to the beginning and starts the distributor 8 to record a special signal separating the answers of one respondent from the answers of the other.  After the end of the recording, the driver 9 generates a signal that, at input 77, starts the driver 94, providing the reading of the first frame of the questionnaire.  Pressing the Forward key over and over again, the respondent consistently pops up another frame of the questionnaire on the screen of block 5.  Now let the respondent want to see the previous frame of the questionnaire.  For this purpose, the Back key is pressed.  By pressing this key, the signal at input 143 sets 1 trigger 106 and, through element 100 OR, sets 1 trigger 103 and starts one of the write control circuits of drivers 96, 97 or 98. The operation of the presentation unit 5, the formation is blocked and the response is recorded .  After the end of the recording, the signal from the output of the element 109 OR.  enters the inputs of the elements and 113 AND, but since the trigger 106 is in the state 1, the element 113 AND triggers, the signal from it through the output 82 and the input 21 of the block 10 of the frame search enters the input of the element 14 OR simultaneously sets the counter to O nineteen.  The signal from the output of element 14 OR starts the motion control circuit of the distributor 15.  This signal is fed to the setup input of the trigger 27, the signal from the output of which is fed to the first input of the element 28 And, to the second input of which the input clock 30 receives the clock frequency.  The signal from element 28 And through control output 23 triggers a reverse movement of the magnetic tape located in block 1.  The same signal triggers the delay element 29, the signal from which is fed to the extinguishing input, trigger 27 and, via the triggering output, to the input of the next control circuit of the driver 16.  The time of delays in element 29 is more than the time to consider the information area,. & The clock frequency is quite small.  As a consequence, by the time a signal occurs at the trigger output of the distributor 15, the magnetic tape in memory block 1 has already been rewound in one direction.  Distributor traffic control scheme 16. which works similarly to the previous S signal from its control. vl jupe; its output 24 starts the movement of the magnetic tape forward in block 1 while simultaneously reading the CODES; and also enters the code of the sign of the beginning of the frame in the register | 7, the code from the latter enters the node 18 circuit and is compared with the code received from memory block 1 at input 26 during the whole zone reading time,, If it has a match, then the output signal node 18 enters the counting input of the counter 19, which counts for module two.  Since the latter is previously reset to that state of its outputs does not change, and 1 is fed to the first input of element 20 I.  After reading this zone, a signal is generated at the trigger output of the distributor 16, which resets the register 7 and enters the second input of element 20 I.  For simplicity, we assume that on a magnetic tape in block 1, the questionnaire is recorded in such a way5 that each frame takes up an integer number of zones.   The signal from element 20A starts distributor 13, the signal of directional si; ero of output 22 of which starts backward movement of the magnetic tape in block 1, and the signal from the triggering output through element 14 OR again dispenses distributor 15, then the block search block 10 works similarly, this continues until the next reading of the zone in counter 19 does not turn out 2, then the signal from counter 19 through output 25 and input 83 enters the starting and blocking circuit of shaper 94 in control unit 7, which on output 86 starts form a 3-frame rover and a framing control pulse generator 95, thereby ensuring that the previous frame is entered After the frame reader has finished reading.  3 generates a signal of the end of the frame, which is fed to the inputs 142 to the inputs of elements 112 and 117, and.  Since the trigger 106 is nahbdits in state 1, a signal is formed at the output of the element P7 I, This signal, through the output 84, goes to the trigger input 43 of the motion control circuit in the response generator 11.  In the following: element 20 And in block 10 it does not work out, since O receives its first input from the inverse output of counter 19.  Thus, as a result of operation of block 10, the previous frame was found on the magnetic tape in block 1, after which this frame was entered into block 4, the magnetic tape in the block as a result stops at the end of the previous frame, the motion control circuits in the former 1 1 in a way.  For simplicity, we assume that the answer to the questions of one frame on a magnetic sheet takes one zone.  Therefore, the distributor 31 to the control output 44 provides for rewinding the magnetic tape in block 2 of the memory one zone back.  Further, the distributor 32 to the control output 5 provides for rewinding the tape one more zone back.  After the tape in memory block 2 is rewound back into two. the zone, the distributor 33 on the control output 46 starts the forward movement of the magnetic tape with simultaneous reading of the zone and writing information into the memory block 12.  The signal from the triggering output of the distributor 33 enters the elements 34 and 42, and as a result, in the memory block 12, a response to the previous frame of the questionnaire is provided.  Further, the operation of the block depends on the type of frame.  When the frame is of the zero type, the high potential from the decoder 60 at output 89 and input 50 enters element 42, the latter triggers, and the signal at output 48 and input 81 enters node 58, this signal sets O into triggers 103 and 106s , the interrogation node 59 ceases to operate and is blocked.  ka indication on the bus 85, since the zero frame type does not require a response, B case of the frame of the first or second type high potential from the decoder 60 frame on input 49 enters element 34 I.  At output 47 of the latter, a signal appears that sets the address counter in O in memory block 12 and starts it.  As a result, block 12 begins sequentially issuing codes stored therein.  The same signal puts the space code in the register 35 from the output of which this code goes to the comparison node 36.  The other input of node 36 receives the code from block 12 on the mi on input 51. If this code coincides with the code of the space, node 36 outputs a signal on output 57, which stops the address counter in memory block 12 and simultaneously arrives at delay element 37.  The delay time is small and the signal from the output of the element 37 resets the register 35, and also puts I in the trigger 38.  Sipnal from the output of the latter arrives at the first input of the element 41 I, to the second input of which, at the input 56, clock pulses arrive.  At the same time, the frequency of these pulses is small and sufficient for the control unit 7 to have time to work out. The signal from element 41 and on output 55 enters the address counter of block 12, increasing its content by 1.  Codes from block 12 to the input 51 are received in the decoder 39.  At this time, the high potential of the flip-flop 38 enters the enable input of the decoder 39.  From the output of the decoder 39, the signals go to control block 7: output 52 and input 92 to number register 62, if a digit code is received from memory block 12, output code 53 and 53 input to a marker control node 65, or from memory block 12 These are the space code (corresponds to the Start key) and output 54 and input 81 to the polling node 58, if the final response code has arrived from block 12.  In addition, in the latter case, the signal through the delay element 40 is supplied to the extinguishing input of the trigger 38.  As a result, the codes corresponding to the frame number are not received in control block 7, and all other codes corresponding to previously pressed keys arrive in block 7 and call the corresponding marks in memory block 4 and on the screen of block 5.  When a signal arrives at input 81, node 58 unlocks the indication on bus 86, and the proposed device is ready to respond to the next keystrokes. At this time, the previous frame is displayed on the screen of block 5, with the previously selected response numbers marked with a +.  If necessary (for example, when an error is detected or a change in opinion) the respondent can correct the previously selected answer number.  To do this, it is enough to cancel the mark (+ sign) of the previously selected answer number, use the Reset key, then dial the new answer number and press Start button.  When you press the Forward key on the tape in block 2, the new answer number is recorded.  Thus, the newly introduced blocks, nodes and links provide the respondent with the opportunity to return to the previous frame and correct the previously typed answer to the question posed in the questionnaire.  This significantly increases the reliability of the resulting information and extends the functionality of the device.  The present invention is used in an electronic information logger intended for collecting socio-economic data.   -G L J L, 50 JTT L

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Claims (4)

1. DEVICE FOR CONTROL OF RESPONSES OF STUDENTS by ed. St. No. 930336, characterized in that, in order to increase the accuracy and expand the didactic capabilities of the device, a block search block is introduced into it, the first input and output of which are connected respectively to the output and second input of the first memory block, and the second input and output with the fifth the output and the fourth input of the control unit, respectively, the fourth memory unit, the first input of which is connected to the output of the second memory unit, and the response driver, the first input and output of which are connected respectively to the output and second input of the fourth unit and the memory, the second input and output, with the sixth output and the fifth input of the control unit, respectively, and the third you, the move, with the second input of the second • memory unit. ..... t l., 1 -5 p 1st e - J 3___h 2 о The device according to π, 1, characterized in that the block search unit contains a first pulse distributor, a first OR element, a second pulse distributor, a third pulse distributor, a first register, a first comparison node, a counter and a first AND element, output which is connected to the input of the first pulse distributor, the second inputs of the first, second and third pulse distributors are the first output of the block, the second input of the first, comparison node is the first input of the block, and the second input of the first element and OR output of the counter and a second - the second input and output unit, respectively, 3, The device according to claim 1, characterized in that the response driver comprises a fourth, fifth, and sixth pulse distributor, a second AND element, a second register, a second comparison node, a first delay element, a trigger, a decoder, and a second a delay element, the output of which is connected to the second input of the trigger, the third element And, the first input of which is the synchronization input of the driver, and the second input is connected to the output of the trigger, and the fourth element And, the first input of which is connected to the output of the sixth pulse distributor, the second inputs of the decoder and the second comparison node are the first input of the shaper, the input of the fourth pulse distributor and the second inputs of the second and fourth elements And the second input of the shaper, the outputs of the second and third elements And and the second comparison node, the first output of the shaper, the outputs of the decoder and the fourth element And - the second output of the shaper, and the outputs of the fourth, fifth and sixth pulse distributors - the third output of the shaper. 4. The device according to claim 1, wherein the interrogation unit of the control unit comprises a second OR element, a seventh pulse distributor, a driver shaper and a driver for forming pulses, a series of eight pulse distributor and a third element OR, the ninth pulse distributor and the fourth OR element in series, as well as the tenth pulse distributor, the first output of which is connected to the second input of the importer control the formation of frames, and the second and third outputs, respectively, with the second and third inputs of the driver of the trigger signals, the fourth input of which is connected to the second output of the eighth pulse distributor, the third output of which is connected to the second input of the fourth element OR, the second output of the ninth pulse distributor is connected to the second input of the third OR element, and the input to the output of the second OR element connected to the inputs of the seventh and eighth pulse distributors, the fifth input and the second output form Dividing the trigger signals is the fourth input and fifth output of the control unit, respectively, and the input and fourth output of the tenth pulse distributor are the fifth input and sixth output of the control unit, respectively.