SU1336085A2 - Trainer for operators of automated control systems - Google Patents

Abstract

The invention relates to automation and computer technology, in particular to the technical means of professional training of ACS operators (simulators) and is an improvement of the simulator according to ed. St. No. 1203571. The purpose of the invention is to expand the didactic capabilities of the simulator. New in the proposed simulator is the introduction into the main simulator of the counter 38, the number of correctly performed operations, the counter 39, the number of incorrectly performed operations, element AND 35, trigger 36, indicator 37 ("You are not ready for operation), the second element OR 40, summing, counter 34 and their connections to the elements and components of the simulator. This allows you to expand the didactic capabilities of the simulator by eliminating the random selection of operations for the correct execution of the algorithm and providing an opportunity to evaluate the performance of the ACS operator for the performed algorithm. 1 il. "(L so oo O5 O 00 ate fsj

Description

The invention relates to automation and computer technology, in particular to the technical means of professional training of ACS operators (simulators), and is an improvement of the simulator according to the author. St. No. 1203571.

The purpose of the invention is to expand the didactic capabilities of the simulator by eliminating the random selection of operations, the correct execution of the algorithm and the ability of the operator to rate the performed algorithm.

The drawing shows the structure of the simulator operators of automated control systems.

The simulator contains the block 1 input operator response, the element OR 2, information board 3, triggers. 4 and 5, encoder 6, block 7 elements And, delay element 8, node 9 elements And, indicators 10 (“True) and 11 (“ Wrong), element OR 12, register 13, one-shot 14, block 15 elements And, element OR 16, reversible counter 17, element OR 18, delay element 19, delay element 20, element OR 21, decoder 22 (addresses), drive 23, register 24, node AND 25, elements AND 26 and 27, reaction registration node 28 operator. Blocks 1 and 7, the encoder 6, the OR element 12, the one-shot 14 and the delay element 19 represent the operator console 29, the counter 17, the OR element 21, the decoder 22, the drive 23 and the register 24 — a memory block 30, node 25 and the elements 18, 26 and 27 — the comparison unit 31, the elements 2 and 8, the node 9 and the panel 3 — the display unit 32, and the node 28, the triggers 4 and 5, and the indicators 10 and 11 — the registration block 33. In addition, the simulator contains a summing counter 34, element I 35, trigger 36, indicator 37 (“You are not ready for operation), counter 38 the number of correctly executed operations, counter 39 the number of incorrectly executed operations and the second element OR 40.

Block 1 is designed to select the operator’s workflow and perform the sequence of operations required to achieve the goal in this control task. On block 1 are located controls, the specific form of which must strictly correspond to the real equipment under study. The main part of the control unit is 38 that counts the number of correctly executed operations. The counter readings are displayed in binary indication.

Counter 39 counts the number of errors.

45

admitted by the operator when performing a general (or particular) control algorithm. Counter readings are also displayed by binary indication.

The operator simulator of the automated unit 1 is used to perform 50 control systems as follows, the sequence of operations required when working out the general (or particular) control algorithm, and is connected to the input of the encoder 6. The group of buttons of block 1 intended for selecting the number of the particular algo pattern.

In the initial state, the accumulator 23 contains the general control algorithm, presented as a set of particular algorithms. There is a zero memory cell.

the control rhythm is connected to the inputs of the block 55 where the initial state of the common alcal 7 is recorded. In block 1 there is also a button "Input Initial, which is connected to the input of block 7, to the inputs of the elements OR 2 and 16. With this button you can

Litter. Each of the control algorithms is implemented by performing a sequence of operations due to the operator acting on the controls. Operator

0

five

the initial recording of the number of the private control algorithm in binary code from the outputs of block 7 to counter 17, and the initial state of the information board 3 is also highlighted.

By affecting the button “General reset of the console of block 1, before executing any particular algorithm, the initial state of the counter 17, the register 24, the trigger 36, the counters 34, 38 and 39 is set.

Counter 17 with asynchronous setup inputs, performed on the maximum number of control algorithm operations, is designed to sample the stored information of the general (or particular) control algorithm.

The drive 23 is designed to store information of the general control algorithm. For storing the information of each particular control algorithm, parts (zones) of accumulator 23 are allocated. In each memory cell, operation codes and highlights are recorded. The operation code corresponds to the number of the control that the operator needs to influence in this state of the control object being modeled. 5 The code of the illumination corresponds to the state of certain means of indication (transponders, indicators, etc.) of the information board 3, depending on the control authority

The node 25 is designed to detect the operator's impact on the group of controls intended to perform the sequence of operations of the general (or particular) control algorithm.

Node 28 is designed to record the actions of the operator to control the simulated object.

The counter 34 is designed to count the number of possible attempts to guess the correct operation of the algorithm from the possible, and using elements 35, of the trigger 36 0, the maximum possible number of matching operations is recorded.

Counter 38 counts the number of correctly executed operations. The counter readings are displayed in binary indication.

Counter 39 counts the number of errors.

five

five

admitted by the operator when performing a general (or particular) control algorithm. Counter readings are also displayed by binary indication.

The simulator of operators of automated control systems works as follows.

in a way.

In the initial state, the accumulator 23 contains the general control algorithm, presented as a set of particular algorithms. There is a zero memory cell.

where the initial state of the general algorithm is written. Each of the control algorithms is implemented by performing a sequence of operations due to the operator acting on the controls. Operator

ten

20

25

in the process of learning, he can choose a self-general or any of the private algorithms and carry out the process of training only on this part of the general algorithm. In connection with the complexity of the general control algorithm, this makes it possible to reduce the total training time and to conduct it purposefully, taking into account the refinement of particular algorithms.

Before starting the execution of any control algorithm, the operator by pressing the button General reset, located in block 1, sets the reversible counter 17, register 24, trigger 36 and counters 34, 38, 39 to the zero state. It happens as follows. When one-5 rator influences the button “General reset, the generated signal is fed to the input“ Setting zero of the reversible counter 17, through element 21 - to the reset input of the register 24, to the zero input of the trigger 36, through element 40 - to the installation input of the counter 34 and installation inputs counters 38 and 39.

The operator performs the dialing of the common (or private) control algorithm being studied by acting on the corresponding group of buttons of block 1. The signal in the form of a binary code enters the inputs of block 7. Then the operator acts on the Enter-Original button, the signal from which to the input of block 7, thereby carrying out the initial recording of the typed information through asynchronous setup inputs to the counter 17. Simultaneously from the output of block 1, the signal goes through element 2 to element 8 and to the input of the display 3, all containing and formation with which it resets. Simultaneously, from the output of block 1, the signal goes through element 26 to the input of element 20. The signal delayed by element 20 for the time required to record the new information on the summing input of counter 17 goes to input 40 of decider 22, allowing selection of information from the corresponding cell of drive 23. The operation code through one output, and the light code through the other outputs of register 24 are fed to the inputs of nodes 25 and 9, respectively. The signal delayed by element 8 for the time required for switching the corresponding elements is resolving m for otsvetki initial state on the display 3, the operator proceeds to for required sequence of operations to achieve this goal in the control task.

When acting on the corresponding control unit of block 1, the signal from its output through the tuner 6 is written to the register

thirty

35

45

50

a pulse is applied to the inputs of element 19, block 15 and element 16.

The binary code from register 13 through block 15 enters the inputs of nodes 25 and 28. where the performed operator action is recorded. Simultaneously with the arrival of the signal to the input of the one-shot 44, the output signal of the element 12 is fed to the zero inputs of the flip-flops 4 and 5, the drive indicators 10 and 11 ("True and" False) to the initial state. The signal from the output of element 12 enters the input of element 21 and the summing input of counter 17. The output of element 21, which enters the input of register 24, is zeroed. A reversible counter 17 is set to a state whose binary code corresponds to the number of the next memory cell of the accumulator 23. The signal from the output of the element 20 enters the input of the decoder 22, allowing the selection of information from the specified memory cell. The operation code through one outputs, and the light code through the other outputs of register 24 are received respectively at the inputs of nodes 25 and 9. The interrogation signal delayed by element 19 for the time required for bitwise comparison of binary codes received at the inputs of node 25 is fed to the inputs elements 26 and 27. Depending on the result of the comparison, a signal is generated or a logical "O or logical" 1 and is fed to the inputs of elements 27 and 26, respectively. When the operator performs the output correctly, the output signal "Properly applied to the inputs of the node 28, igger 4, element 18, counter 38, element 40 and element 2, from the output of which the signal resets the content information on the board 3.

The signal from element 8, delayed by the time of resetting the previous information, allows the next information to be displayed on panel 3. Signal "Right, arriving at the input of trigger 4, puts it in a single state, thereby illuminating the indicator 10 (Right) . The signal "Correctly, arriving at the input of element 40 from its output, is fed to the input of counter 34 and sets it to its initial state if an error was made by the operator during the previous operation. At the same time, the signal "Correctly, received at the input of the counter 38, transfers it to the next state. In addition, the signal "Correctly, arriving at the input of the element 18 from its output, is fed to the input of the register 13 (reset input). The operator is allowed to perform the following operation. In the presence of the signal "Incorrectly, at the output of element 27, a trigger 13 is triggered in the form of a binary code corresponding to 55ger 5, the output of which carried out to the selected control. Simultaneously, the illumination of the indicator 11 (“Wrong), sigmenno with the outputs of the encoder 6 through the elective operator to the operator about the wrong execution 12, the signal arrives at a one-shot operation. The signal from the output element 27

the torus 14, from the output of which the unit im-arrives simultaneously to the input of the node 28 and

ten

0

five

five

0

0

five

five

0

a pulse is applied to the inputs of element 19, block 15 and element 16.

The binary code from register 13 through block 15 enters the inputs of nodes 25 and 28. where the performed operator action is recorded. Simultaneously with the arrival of the signal to the input of the one-shot 44, the output signal of the element 12 is fed to the zero inputs of the flip-flops 4 and 5, the drive indicators 10 and 11 ("True and" False) to the initial state. The signal from the output of element 12 enters the input of element 21 and the summing input of counter 17. The output of element 21, which enters the input of register 24, is zeroed. A reversible counter 17 is set to a state whose binary code corresponds to the number of the next memory cell of the accumulator 23. The signal from the output of the element 20 enters the input of the decoder 22, allowing the selection of information from the specified memory cell. The operation code through one output and the light code through the other outputs of register 24 are received respectively at the inputs of nodes 25 and 9. The interrogation signal delayed by element 19 for the time required for bitwise comparison of binary codes received at the inputs of node 25 is fed to the inputs of elements 26 and 27. Depending on the result of the comparison, a signal is generated either a logical "O or a logical" 1 and is fed to the inputs of elements 27 and 26, respectively. When the operator performs the output correctly, the output signal "Properly applied to the inputs of node 28, tr igger 4, element 18, counter 38, element 40 and element 2, from the output of which the signal resets the content information on the board 3.

The signal from element 8, delayed by the time of resetting the previous information, allows the next information to be displayed on panel 3. Signal "Right, arriving at the input of trigger 4, puts it in a single state, thereby illuminating the indicator 10 (Right) . The signal "Correctly, arriving at the input of element 40 from its output, is fed to the input of counter 34 and sets it to its initial state if an error was made by the operator during the previous operation. At the same time, the signal "Correctly, received at the input of the counter 38, transfers it to the next state. In addition, the signal "Correctly, arriving at the input of the element 18 from its output, is fed to the input of the register 13 (reset input). The operator is allowed to perform the following operation. In the presence of the signal "Incorrectly, the output of element 27 triggers trigger 5, the output of which is effected. The specified gradation is set as an example for some algorithm. Depending on the complexity of the algorithm and its importance, the gradation may vary.

The invention allows to expand the didactic capabilities of the simulator by eliminating the random selection of operations to properly execute the algorithm, as well as to evaluate the performance of the ACS operator for the algorithm, which increases the efficiency of the input element 18, the output signal of which is fed to the reset input of the register 13. it also enters the inputs of counters 34 and 39, transferring them to the next states. In addition, the output signal of the element 27 is fed to the subtracting input of the counter 17, excluding the recorded unit, i.e., the code of the incorrectly executed control operation.

Counter 17 is set to

corresponding to the start of the execution is the error of training, barreled operation, i.e. the operator is given the opportunity to correct an incorrectly executed control operation. Information board 3 in the case of an incorrectly executed operation does not change the illumination. With the operator performing the next operation, the cycle of the simulator is repeated. Element 35 is triggered when the number of possible attempts to guess the correct operation of the algorithm is possible, i.e., according to the formula of the invention

15

Simulator operators automated control systems for auth. St. No. 1203571, which differs by that, in order to expand the didactic capabilities of the simulator, a counter of the number of operations, an AND element, a trigger, an indicator, counters of the number of correctly and incorrectly performed opelepii signals on the corresponding 20 direct radios and a second OR element, per- and inverse outputs of counter 34. The output output of the second element OR and the information input of the counter of the number of correctly performed operations are connected to the first output of the comparator unit, the second output of which is connected to the information inputs of the counter and the number of incorrectly executed operations, and the counter of the number of operations, the outputs of which are connected to the corresponding signal from element 35, received at the input of trigger 36, puts it into a single state, thereby drying up, the illumination of the indicator 37 is detected ("You are not ready for operation) . The obtained data in the counters 38 and 39, depending on the complexity of the algorithm being processed, allows us to estimate the performance of the ACS operator by the percentage of the number of incorrectly executed operations.

the inputs of the element And, and the installation input with the output of the second element OR,

control algorithm to the total number of the AO whose second input, the R input of the trigger and the successful operation of the control algorithm.

Ratios of grades: 90-100% - rating "Excellent, 70-90 ° / o - rating" Good, 50-70% - rating "Satisfactory and up to 50% - rating" Unsatisfactory.

The specified gradation is set as an example for some algorithm. Depending on the complexity of the algorithm and its importance, the gradation may vary.

The invention allows to expand the didactic capabilities of the simulator by eliminating the random selection of operations for the correct implementation of the algorithm, as well as to evaluate the performance of the ACS operator for the performed algorithm, which increases the efficiency of training,

l training

Claims (1)

Invention Formula the inputs of the element And, and the installation input with the output of the second element OR, The setting inputs of the counters of the number of correctly and incorrectly performed operations are connected to the second output of the operator's console, the S-input of the trigger is connected to the output of the I element, and the direct output to the input of the indicator.