SU951366A1 - Radio telegraph operator simulator - Google Patents

Description

(54) RADIOTELEGRAPHIST SIMULATOR

Claims (4)

The invention relates to automation and computing, in particular to simulators, and can be used for professional selection and training of radio telegraph operators. A simulator is known that includes a control unit, a Walsh function generator, a multiplexer, a sound stimulus, a correct response selection block, a counter, a display unit, and a response console tl. The disadvantage of the known simulator is the low reliability of the assessment of professional suitability. Most of all is a simulator containing a block of redundancy, connected to a block of correct answers and multiplexers, the other inputs of which are connected to the generator of Walsh functions, and the outputs to sound radios, the answer (test) is connected to the block of correct answers, and a counter connected to the display (display) panel t2. However, this simulator has high precision, since the evaluation of professional suitability does not take into account the complexity of the sound images of Walsh functions identified by the subject. The purpose of the invention is to improve the accuracy of assessing the professional suitability of radio telegraphists by taking into account the complexity (weight) of sound samples of Walsh functions identified by the subject. This goal is achieved in that the simulator containing the first generator, which through the first multiplexer is connected to the input of the first electroacoustic converter and through the second multiplexer - to the input of the second electroacoustic converter, is connected in series, the operator’s console and the correct response selection unit, in series the first counter and information board and control unit, the first output of which is connected to the second inputs of the first and second multiplexers and the second output - with the third input of the first multiplexer, the third and fourth outputs - with the third AND fourth inputs of the block select eBi correct answers, the next output - with the fourth input of the first multiplexer AND the third input of the second. Mux, and the input of the control unit is connected .to the output of the operator’s console, a weight extraction unit is inserted, the buckle, the second and third inputs of which are connected respectively to the fifth and seventh outputs of the control unit and to the output of the selection block of correct answers, and the allocation of weight characteristics contains sequentially included register, second counter and key node, first and second register inputs are the first and second blocks, respectively, second input and S output of the key node are the third input and output of the block, respectively, the control unit contains successively included second generator, first. Delie: tel frequency; the second frequency divider, the counter counter, the first decoder, the fourth counter, the second decoder, and the nejv group of AND elements, the second inputs of which are connected to the first output of the first decoder, the second output of which is connected to the second input of the third counter, and the third output is the first 1 output the block, the outputs of the elements of the first group are the second output of the block, the output of the second decoder is the third output of the block, the first output of the first decoder blurs the fourth output of the block, the outputs of the first frequency divider of the second The generator and the fourth counter and the third input of the third counter are respectively the fifth, sixth and seventh outputs and the input of the block, and the block of correct signals contains sequentially included second group of elements AND, element OR, element And trigger, whose output and the second input is the output and the fourth input of the second block, respectively, the input of the And element and the first and second inputs of the And elements of the second group are the first, second and third inputs of the block, respectively. Fig, 1 shows a block diagram of the device; in fig. 2 is a control block diagram; in fig. 3 is a diagram of the first multi-selector; in fig. 4 - block diagram of the allocation of correct answers; in fig. 5 scheme of the second multiplexer; in fig. 6 is a time chart illustrating the operation of the device. The device for professional selection of radio telegraphs includes a control unit 1, a generator 2 (Walsh functions), a multiplexer 3 (with double gating), an additional multiplexer 4, electroacoustic transducers 5 and 6, a block 7 for selecting correct answers, an operator console 8, a block 9 for allocating weights characteristics (coefficients), counter 10 weights, information board 11. Block 9 allocation of weights consists of serially connected registers 12, counter 13 and node 14 of the keys. Control unit 1 contains a series-connected generator 15 time intervals, a divider 16 frequencies into four, a divider 17 frequencies into two, a counter 18 and a decoder 19, elements AND 2O, a counter 21, a decoder 22. Multiplexer 3 contains groups of elements AND 23 -k 24, the OR 25, 26, and OR 27 w and 28 elements. The right answer selection block 7 contains the AND 29 element group, the OR 30 element, the AND 31 element and the trigger 32. Multiplexer 4 contains the AND 33 element group, the 35 element. The simulator is working in the following way . The subject's task is to identify, from the sound images presented to him, against the background of the noise of the sound images, the functions in the Walsh-Adamar system, the function previously presented to him in the Walsh-Paley system. Preventing sound images of functions for memorizing and identifying is carried out with the help of a main sound stimulus. The background noise is generated by an additional sound stimulus. Qualitative assessment of the responses of the subject is based on the weight of each correct answer. The basis for determining the weights is based on the relationship between the formation rules of the Walsh functions T / i and the complexity of the perception of their sound images. A system of 2 n Rademacher functions. Thus, for example, the Walsh-Paley system for analytically expressed is as follows: P е e (p, wk-p1 r (c) p is the number of the poiP function (p, 6) i having a binary representation. The more Rademacher functions are involved in education the Wopsch function, the harder it is for perceiving, and the greater must be the weight of the correct answer, since the P number of each function has binary IP (Pt, Pa) -Pm-Pn) compression. , m :: 1, 0; 1, and Pm is the number of the Rademacher functions involved in the formation of this Walsh function, uniquely determined by the number of units in the corresponding: - binary bits. The total score of the subject is formed by summing all the units of the binary code combinations of the numbers of correctly recognized sound samples of the functions. When the power is turned on, the counters 10, 13, 18, and 21 are reset. The generator 2 and the generator 15 of the control unit 1 are started, which, with their frequency of pulses, sets the time for the Walsh function and the clock frequency of the allocation unit 9 of the weight coefficients. The pulses from the output of the generator 15 (Fig. 6c) are fed to the input of the counter 18. Every eighth pulse from the output of the generator 15 records another unit in the counter 18. The contents of counter 18 are converted by the decoder 19 to the decimal positional code. The signal from the first output of the decoder 19 is fed to the input of counter 21 and to the control inputs of the AND elements 20, opening the latter for the duration of the pulse duration (Fig. 61), and sets the trigger 3 blocks 7 in the initial state. Since one unit is recorded in the counter 21, the first output of the decoder 22 receives a signal which, through the first open element 20, enters the input of the multiplexer 3. In the multiplexer 3, the first element 23 opens, through which signals c the first output of the generator 2 is fed to the input of the element OR 25 and from its output through the elements OR 27 and the open element AND 28 to the input of the sound stimulus transducer 5. The subject is presented the sound, image of the first Walsh-Walsh-Paley function, which he must remember ( fi 65) Elements And 28 (as well as And 35) are opened by pulses from the start of the divider 16 {Fig. 6 & ), providing the formation of pauses between the Walsh functions, when the effect of the pulse is terminated. The signal from the first output of the decoder 22 also arrives at the first input of the block 7 for selecting the correct answers and opens the corresponding element 29 there, thus preparing the circuit necessary for assessing the correctness of the test person’s response. At the same time, the Walsh function code is read into the counter 1 3 units by pulses from the generator 15 output (time intervals) from the register 12. The next sludge pulse from the output of divider 17 (Fig. 66) counter 18 changes its state. In this case, the signal appears at the second output of the decoder 19. Since the first output of the decoder 19 is provided, all AND 20 elements are closed, and the counter 21, in which the sequence number of the function in the Walsh-Paley system is recorded, remains unchanged. The signal from the second output of the decoder 19 is fed to the control input of the corresponding element AND 24 of the multiplexer 3 and ... on one of the genes AND 33 of the additional multiplexer 4, which connects one of the outputs of the generator 2 to the sound stimulus-converter 6, through the elements OR 34 and And 35, creating a background noise (Fig. B). At the same time, a signal comes from the output of the generator 2, connected to the information input, element 24, through the connected stimuli 5. The subject is presented with a sound image of the next function in the Walsh-Hadamard system (Fig. 6e). He must determine its adequacy earlier . presented function to memorize. If the experience considers that the functions are different, it does not take any action. The next impulse from the output of the divider 17 (fig. B) counter 18 changes its state, the signal appears at the third output of the decoder 19. In this case, similarly to the above, the test person is presented with a sound image of the next function in the Walsh-Hadamard system to recognize . In a similar way, the device works until the test decides that the presented function is adequate to the previously stored one, and presses the test button on the front panel of the test 8. In this case, the element AND 31 opens in this cjiy, if the functions actually coincided, t, e. on one of the elements And 29 there are signals at two inputs, then through the element OR AOR, which acts as an expander, the signal arrives at the other input of element And 31. The trigger 32 goes into a breakdown and the signal comes from its output to the input of the keys of node 14, which open and soda The counter count of 13 units in a parallel code is written to the counter 1 of the weighting factors. At the same time, when the button on the remote control 8 is pressed, the counter 18 is set to the zero state. In the case of the correct response of the first edge of the first pulse from the decoder 19 trigger 32 is also set to the zero position. If the test person’s answer is incorrect, then the keys of node 14 remain closed and the state of the counter, U, does not change. However, only the counter 18 is set to the zero state. If the subject was unable to answer in general, after the presentation to identify all N, where the functions of the signal from the N +1 output of the decoder 1 9, the counter 1 8 is also set to the zero position. Now, the next eighth pulse from the output of the generator 15 again writes the unit to the counter 18 and the signal appears again at the first output of the decoder 19. At the same time, the regenerating signal goes to the control moves of the AND elements 20 and the next unit is recorded in the counter 21. The subject is presented with a wukow image for memorization: the functions of the Walsh-Paley system and the work is carried out similarly to the above described one. At the end of the work cycle, the scoreboard 11 will record a —Tough assessment of the subject, which takes into account the weighting coefficients of complexity of correctly recognized Walsh functions. The use of the proposed invention in the professional selection and training of radio telegraphists allows improving the quality of selection by taking into account the complexity (weight) of the presented sound images and increasing the accuracy of determining the abilities of the subject to receive t & hearing impaired signals, increases the operability and reduces the time of training. The invention The radiotelegraph simulator containing the first generator, the output of which through the first multiplexer is connected to the input of the first electroacoustic converter and the second multiplexer - to the input of the second electroacoustic converter, serially connected operator panel and the selection of correct answers, sequentially included the first counter and information board and control unit , the first output of which is connected to the second inputs of the first and second multiplexers and the allocation unit p the second output, with the third input of the first multiplexer, the third and fourth outputs with the third and fourth inputs of the correct response selection block, the fifth output with the fourth input of the First multiplexer and the third input of the second multiplexer, and the input of the control unit is connected to the output operator’s station, which differs from the fact that, in order to improve the accuracy of the estimate, a weight extraction unit was inserted into it, the first, second and third inputs of which are connected respectively to the fifth and seventh outputs of the control unit and tim in a yield of correct answers isolation unit. 2. The simulator of claim 1 is distinguished by the fact that in it the weight characteristics extracting unit contains serially connected registers, a second counter and a key node, the first to the second inputs of the register are the first and second inputs of the block, the second input and the output of the key assembly is the third input and the output of the block, respectively. 3. The simulator according to claim 1, distinguished by the fact that in it the control unit contains serially connected secondary ones. a swarm generator, the first frequency divider, the second frequency divider, the third counter, the first decoder, the fourth counter, the second decoder and the first group of elements AND, the second inputs of which are connected to the first output of the first decoder, the second output of which is connected to the second input of the third counter, and the three & t output is the first output of the block, the outputs of the elements And the first group are with the second output of the block, the output of the second decoder is the third output of the block, the first output of the first decoder is the fourth output of the block, yhoay first frequency divider, a second generator and a fourth counter, and a third input of the third counter are respectively fifth, sixth and seventh input and output unit. 4. The simulator according to claim 1, that is, that it contains the block for selecting the correct answers and contains the second group of elements AND, the element OR and the trigger, the second and the second input are the output and the fourth block input, respectively, the second input of the And element and the first and second inputs of the AND elements of the second group are the first, second and third inputs of the block, respectively. Sources of information taken into account in the examination 1. USSR author's certificate No. 2693О87 / 18-12, cl. Q O9 B 19/26. 1978 2. USSR author's certificate No. 2822472 / 18-12, cl. G 09 B 19/26, 1979, Riga 5