SU1277132A1 - Device for simulating man-machine systems - Google Patents

Abstract

The invention relates to computing and is intended to simulate queuing systems. The purpose of the invention is to enhance the functionality by reproducing the detection and elimination modes of failures and make decisions about restoring the system. The device contains a sensor of time intervals 1, triggers 2, 3, 9, 15, 18, elements AND 4, 5, 8, 12, 14, counter 7 for wok, counter 21 served for wok, element OR 10, blocks 11, 13 random . time delay, converters 16, 19 time interval - code, adders 17, 20. 1 Il.

Description

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Claims (2)

GS The invention relates to computing and is intended to simulate queuing systems. The purpose of the invention is to enhance the functionality by reproducing the detection and elimination modes of failures and making decisions about restoring the system. The drawing shows a block diagram of the device. The device contains a sensor 1 time intervals, the second trigger 2 ,; the first trigger 3, the first element AND 4 the second element. And 5, the generator 6 of a random stream of pulses, the counter 7 of the wok, the third element AND 8, the third trigger 9, the element OR 10, the first block 11 of the random time delay, the fourth element And 12, the second block 13 random time delay ,, five element And 14, five trigger 15, second converter 16 time interval - code, second adder 17, fourth trigger 18, first converter 19 time interval code, first adder 20, count-kc 21 served for wok The device works as follows. The approximate simulation time is preliminarily collected on the time interval sensor. At the start signal, it begins to count down the time. The same signal p.erebrasy.vaet. trigger 3 is in the zero state, providing the prohibitive signal to the AND 4 element, and trigger 2 - in. a single n-1 state, providing a feed to the And 5 element of the enabling signal. The generator 6 of a random stream of pulses is intended to simulate the flow of orders in the form of serp pulses separated by random time intervals having any desired distribution law. The pulses of the generator 6, through the discoveries of the element I 5, arrive at the counter 7 of pulses which counts the total quantities of the quotation and the pa element of the PS. In the initial state, when the trigger 9 is in the zero state, the resolving potential is applied to the element I B, therefore the first pulse, from the generator 6 PASS. IT element 8, flips the trigger 9 to the single state and. element 8 is given a prohibitive potential. The same impulse, having passed through the EH 10th pulse, triggers the first 12 block of the random time delay. Unit 11 runs to simulate the time of the first service phase of the application by the operator, determining the causes of process disturbances using information display tools. After a random delay time, block 11 generates a pulse, which passes through the open element 12, starts the second block 13 of a random time delay, and also enters the single input of the trigger 15, throwing it into the single state. Unit 13 serves to simulate the time of the second phase of service of the man’s application in the man-machine system, which is related to the troubleshooting by the repair team (or one of its members). Through a random delay time, the block 13 generates a pulse, which arrives at the trigger 15, transferring its E zero state, as well as the OR 10 element and the single input of the fourth trigger 18, transferring it to the single state (in the initial state, the trigger 18 is closed , from its single output, the prohibiting potential is removed to the element I 14, and from zero - the resolving potential to the element 12). As a result, And 12 is closed, And 14 is open for passing the requisition. Time served; ivani second phase for in-. The machine man system, corresponding to the time of the single state of the trigger 15 in the converter 16, is a time interval - the code is converted into a code, then goes to the adder 17. And 14 a pulse from block 13, passed through the element OR 10, restarts block 11 of the random time delay, which in this case imitates the operator’s acceptance of the control panel (with the help of information display tools) about the troubleshooting by the repair team. Through a random delay time, the minus from the output of block 11 goes through the open element I 14 to the counter 21 served applications, to the zero inputs of the flip-flops 9 and 18 and to the element I 4. By this pulse, the trigger 18 is reset, and the trigger 9 issues the resolving potential on the element of And 8, thereby resolving the procuring of the next service. Service cycle one; 3 applications in the man-machine system are finished. As long as the man-machine service in the system is simulated, from the output of trigger 9 to element 8, a forbidding potential is given and all applications coming in this period of time are denied service. The service time of the application corresponding to the time of a single state of trigger 9, in the first converter 19, the time interval - the code is converted into a code, which is then fed to the adder 20. At the end of the simulation time, which is preset on sensor 1, the last one generates a pulse that flips g ger 3 in a single state. As a result, the element 4 from the output of three hera 3 comes in. The resolution signal At this point, the device is all ready to complete the simulation. But the modeling process is terminated only after the end of the service, no application, i.e. only after the impulse from block 11 through elements And 14 and 4 is opened goes to sensors 1 and trigger 2. The sensor stops, fixing the exact simulation time, the trigger 2 is moved to the zero state, as a result of which an inhibitory potential is applied to the AND element. The modeling process is complete. As a result, counter 7 records the total number of incoming K requests, counter 21 shows the number of serviced M requests, sensor 1 contains time slots - simulation time T о oZ, and adder 17 shows the total time for troubleshooting (failures) in the system man machine T, on adder 20 - the total time of the system man-machine during the simulation time Tr. According to the available data, the following indicators of the quality of group activity can be determined: the probability of serving a request by a group of operators is the average service time of an application T l. H M is the workload of a group of operators, s 324 the workload of each of the operators T-T T 1 i.-ilLp H T, H T, c The sign of the characteristics of the input flow of the order and the allowable workload of the operator, determine the required level of training by changing the parameters of blocks of random time delays. A device for simulating human systems — a machine containing a random flow Ienertor pulse, a time interval sensor, a count counter, a served count counter, the first random time delay block, the first time interval converter — the code, the first adder, four triggers, and four elements And, the device start input is connected to the time sensor start input and the first inputs of the first and second triggers, the second input of the first trigger is connected to the output of the time interval sensor And the output of the first flip-flop connected to the first input of the first AND element ,. the output of which is connected to the stop input of the time interval sensor and the second input of the second trigger, the output of which is connected to the first input of the second element I, the second input of which is connected to the output of the random pulse generator, and the output of the second element I connected to the information input of the meter for the wok and the first the input of the third element And, the output of which is connected to the first input of the third trigger, the output of which is connected to the second input of the third element And and. the time interval for the start of the first converter; the code whose output is connected to the input of the first adder, the output of the first random time delay block is connected to the first stroke of the fourth element I, the second stroke of which is connected to the first exit of the fourth trigger, which means that the purpose of enhancing the functionality by reproducing detection modes, eliminating failures and making decisions about the restoration of the system, it additionally contains the OR element, the second adder, the second time transducer oh interval code, the fifth 7rigger, the fifth element And the second block of random time delay, the input of which is connected to the output of the fourth element And and the first input of the fifth trigger, the second input of which is connected to the output of the second block of random time delay, the first input of the fourth trigger and the first input of the OR element, the second input is connected to the output of the third element AND, and the output is connected to the input of the first random time delay block, the output of which connected to the first input of the fifth element I, the output of which is connected to the counting input of the served counter, the second input of the first element I, the second input of the third trigger and the second input of the fourth trigger, the second output of which is connected to the second input of the fifth element I, output The fifth trigger is connected to the start input of the second time converter - the code whose output is connected to the input of the second adder.