RU94037U1 - STAFF TRAINING SYSTEM OF THE FUNCTIONAL CIRCUIT "DAILY ACTIVITY" OF THE STATE AUTOMATED SYSTEM "ELECTIONS" - Google Patents

Abstract

 The personnel training system for the “Everyday Activities” functional contour of the state-run “Vybory” automated system, which contains a module for selecting reference addresses of training tests in the system server database, the information and synchronization inputs of which are the first information and synchronization inputs of the system, respectively, while the first information input of the system is intended to receive user identification codes, and the first synchronizing system input is designed to receive signals transmitting user identification codes to the selection module for the reference addresses of training tests in the system server database, the module for generating signals for selecting records of the database of the system server, one information input of which is connected to the first information output of the module for selecting the reference addresses for training tests in the system server database, the first synchronizing the input of the module for selecting the reference addresses of training tests in the database of the system server is connected to the synchronizing output of the module for selecting the reference addresses of training in the system server database, while the address output of the system server database record selection signal generation module is the system address output, and the system server synchronization output module of the system server database record selection signal generation module is the first system synchronization output for issuing control signals to input of the first channel for interrupting the database server, a module for selecting user responses, the first and second information inputs of which are the second and third

Description

The utility model relates to computer technology, in particular, to the training system for the personnel of the functional contour “Everyday Activities” of the state-owned system “Elections”.

The personnel training system is an autonomous providing component of the GAS “Vybory”, which does not have direct information connection with the functional subsystems of the GAS “Vybory”.

It is intended for the organization and implementation of mass training of personnel of GAS "Vybory", ensuring the operation and use of complexes of automation equipment of GAS "Vybory" during elections and referenda in the Russian Federation, to meet the needs of election commissions in the training and professional development of specialists and users.

The system is used both during the preparation of elections and referenda, and in the inter-election period.

Currently, the GAS “Vybory” personnel training system is used to provide and maintain the required level of qualification of GAS “Vybory” specialists and users by planning training events, developing training courses and manuals, conducting full-time education and training using distance learning technologies.

The peculiarity of the technical task posed is that the training system could provide users with not only training and control tests, but also carry out the solution of tasks of automated information and control systems on real information stored in databases.

Known systems that could be used to solve the problem [1, 2].

The first of the known systems comprises a computing unit connected to functional input and logical processing input units, the outputs of which are connected to a memory unit, a display unit connected to the computing unit and to the decision unit [1].

A significant drawback of this technical solution is its limited functionality, due to the fact that the description of input situations during training and quality control of knowledge is possible only in the space of a limited number of attributes, which leads to low efficiency of its use.

Another system is known that contains student data reception units, the outputs of which are connected to a memory unit and to a data processing unit, a time interval selection unit, the outputs of which are to a student responses evaluation unit, to a memory unit and to a data processing unit, the outputs of which are connected to one the inputs of the switching unit of the data output channels, the other inputs of which are connected to the time interval selection unit, and the outputs are the outputs of the system (2).

The last of the above technical solutions is closest to the described.

Its disadvantage is the low speed of the system, due to the fact that when starting the control test of students, the search for the requested data is carried out throughout the database of the automated information system, which leads to unreasonable loss of time and the inability to implement the training mode for users of the system in real time.

The purpose of the invention is to increase the system performance by eliminating the search for the control test data of trained users of the automated information system throughout the entire database volume of the system server and localizing the search only at the reference addresses of the database corresponding to the specified parameters of the control test.

This goal is achieved by the fact that in a system containing a module for selecting reference addresses of training tests in the database of the system server, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, respectively, while the first information input of the system is designed to receive user identification codes, and the first synchronizing input of the system is designed to receive signals entering user identification codes into the reference address selection module There are training tests in the system server database, a module for generating signals for selecting records of the database of the system server, one information input of which is connected to the first information output of the module for selecting reference addresses of training tests in the database of the server of the system, the first synchronizing input of the module for selecting reference addresses of training tests in the database the data of the system server is connected to the synchronizing output of the module for selecting the reference addresses of training tests in the database of the server of the system, while the address output of the module signal selection of records of the system server database records is the address output of the system, and the synchronization output of the system server database records selection signal generation module is the first system synchronization output intended for issuing control signals to the input of the first channel of the database server interrupt, user response selection module, the first and second information inputs of which are the second and third information inputs of the system, respectively, the first and second synchronizing the inputs of the user response selection module are the second and third synchronizing inputs of the system, respectively, and the information output of the user response selection module is the first information output of the system, while the second information input of the system is designed to receive a given correct answer from the system server database, the third information input of the system is intended to receive the current response of the user, the second and third synchronizing inputs of the system are designed to receive signals entered of the specified correct answer and the current user response, respectively, to the user response selection module, the user training final results output module, the information output of which is the second information output of the system, intended to provide the final user training results to the database server information input, and the signal output of the issuing module the final results of user training is a signal output of the system designed to issue signals about the end learning cycle, characterized in that the system contains a selection module for the time period of data sampling, the information output of which is connected to the second information input of the signal generation module of the sampling system of database server database records, and the synchronizing output of the selection module of the time period of data sampling is connected to the second synchronizing input of the module generating signals for selecting records of the system server database, module for measuring time periods for submitting control tests, information in the course of which is connected to the second information output of the module for selecting reference addresses of training tests in the database of the system server, the first synchronizing input of the module for measuring time periods for presentation of test tests is connected to the synchronizing output of the module for measuring time periods for presenting test tests connected to the synchronizing output of the module for generating signals of a sample of server database records, connected to the third synchronizing input of the user response selection module, while one output of the module for measuring the time periods for submission of control tests is connected to the third synchronizing input of the module for generating the signals for sampling the records of the database server system, and the other output of the module for measuring time periods for presenting the control tests is the second synchronizing output of the system designed to issue control signals to the input of the second channel of the system database server interrupt, module form evaluation of users, the first and second control inputs of which are connected to the first and second control outputs of the user response selection module, respectively, the first and second counting inputs of the user evaluation module are connected to the first and second synchronization outputs of the user response selection module, respectively, one synchronizing output is connected to the second synchronizing input of the module for measuring the time periods of presentation of control tests, the other synchronizing output can To form an assessment, users are connected to the fourth synchronizing input of the signal generation module of the sample selection of system server database records, and the first and second information outputs of the evaluation module to users are the third and fourth information outputs of the system, respectively, designed to provide the results of user evaluations to the information input of the database server systems, module for identification of reference addresses of control tests in the system server database, information the input of which is the fourth information input of the system intended for receiving control tests, and the synchronizing input of the identification module of reference addresses of control tests in the server database of the system is the fourth synchronizing input of the system intended for receiving signals of entering control tests into the identification module of reference addresses in the server database , while the first and second information outputs of the module identification identification of reference addresses of control tests in the database server system are connected to the first and second information inputs of the selection module of the time period for data sampling, respectively, the third information output of the identification module of reference test addresses identification in the system server database is connected to the information input of the module for issuing the final results of user training, the synchronizing output of which is connected to the fifth synchronizing input of the formation module signals of sampling database records of the server of the system, and the synchronizing output of the identification module of reference addresses control tests in the system server database is connected to the synchronizing input of the selection module of the time period of data sampling, and the identification module of the selected user responses, one information input of which is connected to the fourth information output of the reference test address identification module in the control server database, another information input of the module identification of reference addresses of control tests in the system server database is the fifth information input of the system intended To receive user responses, and the synchronizing input of the identification module for identification of reference addresses of control tests in the server database is the fifth synchronizing input of the system designed to receive signals for entering user responses into the module for identifying selected answers of users, while the first and second outputs of the module for identifying reference addresses of control tests in the server database, the systems are connected to the first and second synchronizing inputs of the module for issuing the final results of user training lei.

The invention is illustrated by drawings, in which Fig. 1 shows a structural diagram of a system, Fig. 2 shows an example of a specific constructive implementation of a module for selecting reference addresses of training tests in a database of a system server, Fig. 3 shows an example of a specific constructive implementation of a module for measuring time periods of presentation of control tests, Fig. 4 shows an example of a specific constructive implementation of a module for generating signals from a sample of records of a system server database, Fig. 5 shows an example of a concre Fig. 6 shows an example of a specific constructive implementation of a module for generating an assessment of users, Fig. 7 shows an example of a specific constructive implementation of a module for identifying reference addresses of control tests in a system server database; Fig. 8 shows an example specific constructive implementation of the selection module of the time period of data sampling, figure 9 shows an example of a specific constructive implementation of the module for identifying selected user responses ers, Figure 10 shows an example of a specific implementation of the structural unit of issue of final testing results.

The system (Fig. 1) contains a module 1 for selecting reference addresses of training tests in the system server database, a module 2 for measuring time periods for the presentation of control tests, a module 3 for generating signals for sampling database server system records, a module 4 for selecting user responses, a module 5 for generating estimates to users, module 6 for identifying reference addresses of control tests in the system server database, module 7 for selecting a time period for data sampling, module 8 for identifying selected user responses, and module 9 issuing the final results of the control.

Figure 1 shows the first 10, second 11, third 12, fourth 13, and fifth 14 information inputs of the system, the first 15, second 16, third 17, fourth 18 and fifth 19 synchronizing inputs of the system, as well as address 20 system output, the first 21, second 22, third 23 and fourth 24 information outputs of the system, the first 25 and second 26 synchronizing outputs, and signal 27 system output.

Module 1 (figure 2) selection of reference addresses of training tests in the server database contains a register 40, a memory unit 41, made in the form of read-only memory, a decoder 42, elements 43-45 And, elements 46, 47 delay. The drawing shows the synchronizing 49 and information 50 inputs, as well as the first 51 and second 52 information and synchronizing 53 outputs.

Module 2 (Fig. 3) for measuring time periods for presenting control tests includes a comparator 55, a register 56 and a counter 57. The drawing shows information 58, first 59 and second 60 clock inputs, counting input 61, as well as first 62 and second 63 outputs.

Module 3 (Fig. 4) of generating signals for selecting records of the server database contains a counter 81, a trigger 82, groups 113-114 of AND elements, elements 115-116 AND, elements 83, 84 AND groups, elements 85 OR groups, elements 86-88 OR and delay elements 89, 90. The drawing shows the first 91 and second 92 information inputs, the first 93 and second 94 synchronization inputs, the first 95, second 96 and third 97 counting inputs, as well as information 98 and synchronizing 99 outputs.

Module 4 (figure 5) selection of user responses contains registers 64, 65, comparator 66, trigger 67, elements 68 And group and element 69 delay. The drawing also shows the first 70 and second 71 information inputs, the first 72, second 73 and third 75 synchronization inputs, as well as the information output 76 of the first 77 and second 78 control outputs, the first 79 and second 80 synchronization outputs.

Module 5 (Fig. 6) for generating an assessment for users comprises counters 28, 29 and 30 elements, 31 I. The drawing shows counting 32, 33 and control inputs 34, 35, as well as information 36, 37 and synchronizing 38, 39 outputs.

Module 6 (Fig.7) identification of reference addresses of control tests in the server database contains a memory unit 100, made in the form of read-only memory, registers 101, 102, 103, decoder 104, elements 105-107 And, elements 108-110 delay. The drawing shows information 111 and synchronizing 112 inputs, as well as the first 113, second 114, third 115 and fourth 116 information and synchronizing 117 outputs.

Module 7 (Fig. 8) for selecting a time period for data sampling comprises an adder 120, a memory unit 121 made in the form of read-only memory, a register 122, a decoder 123, elements 124-126 AND, elements 127, 128 of the delay. The drawing also shows synchronizing 129, first 130 and second 131 information inputs, information 132 and synchronizing 133 outputs.

Module 8 (FIG. 9) for identifying selected user responses comprises a register 140, a comparator 141, and a delay element 142. The drawing shows the first 143 and second 144 information and synchronizing 145 inputs, as well as outputs 146, 147 of the block.

Module 9 (figure 10) of the issuance of the final results of the control contains a comparator 151, counters 152, 153, OR element 154, delay element 155. The drawing shows information 156 and the first 157 and second 158 clock inputs, as well as the first 159 and second 160 clock, and information 161 outputs.

Automated user workstations include terminals that have screens for displaying test tasks and a personal computer keyboard [3]. Presentation of test tasks of the automated information system is controlled by the stand database server (not shown in the drawing).

The system operates as follows.

In the process of user training, a user identifier code is received at the information input 10 of the system, which from the information input 11 of the system through the input 50 of module 1 is entered into the register 40 with a clock pulse, which is transmitted to the clock input 49 of the system and then through the input 49 to the clock input of the register 40.

From the output of the register 40 of module 1, the user identifier code enters the information input of the decoder 42, which decrypts the user identifier code and outputs one of its outputs a high potential to the corresponding inputs of elements 43-45 I.

For definiteness, let us assume that element 43 I will be opened with high potential from the first output of decoder 42.

The clock pulse from the input 15 of the stand through the input 49 of the module 1 is delayed by the element 46 for the duration of the operation of the decoder 42, and enters through the element 43 And the input of a fixed cell ROM 41.

In a fixed cell of the memory unit 41, a codogram is stored, the structure of which has the following form:

the code the code Starting address of the first test task The total number of tasks in this test

The code of the starting address of the first test task is read to the output 51 of module 1, and the code of the total number of tasks in this test is read to the output 52 of module 1.

From the output 51 of module 1, the code of the initial address of the first test task through the input 91 of module 3 is fed to the inputs of the elements And, open at the second input with high potential from the inverse output of the trigger 82, which is in the initial state.

The initial address code of the first test task passes through elements 84 AND groups and elements 85 OR groups to the information input of the counter 81.

In parallel with this process, the synchronizing pulse from the output of the delay element 46 of the module 1, delayed by the element 47 while reading the contents of the fixed cell of the ROM 41, is output from the output 53 of the module 1 to the synchronizing input 93 of the module 3 and then goes to the installation input of the trigger 82, confirming or setting it to its original state.

In addition, the same pulse passes through the OR element 86, is delayed by the element 89 for the duration of the trigger 82 and then arrives at the clock input of the counter 81, writing into it the code of the starting address of the first test task, which must be presented to the user of the automated information system ..

At the same time, the same synchronizing pulse from the output of element 89 goes through element 87 OR, is delayed by element 90 for the time the initial address code is entered into counter 81, and then from output 99 it is output to system output 25, from where it goes to the input of the first server interrupt channel system database.

With the arrival of this impulse, the server switches to the subprogram for interrogating the contents of the memory cell, the address of which is generated at the output 98 of module 3, issued to the address output 20 of the system and issuing the code for the first job of the training test for the user's workstation, and the correct answer code corresponding to the test questions, through the input 70 of module 4, it enters the information input of the register 64, where it is entered by the server clock, coming from the input 16 of the system through the input 72 of the module 4.

The structure of the codogram stored in the server database cell with the starting address of the first task of the training test is as follows:

the code the code The first task of the training test The correct answer to the test learning task

In parallel with the process of issuing the first test task, the code of the total number of tasks in the training test from the output 52 of module 1 is fed through the input 58 of module 7 to the information input of the register 56 of module 7, into which it is entered by the synchronizing pulse from the output 53 of module 6 through the input 59 of module 7 .

In addition, from the output 98 of module 9, the pulse of reading the task of the learning test through the input 61 of module 7 is fed to the counting input of the counter 57, fixing in the counter 57 the fact of issuing the first task of the test to the trained user.

Codes from the outputs of the register 56 and the counter 57 are fed to the information inputs of the comparator 55, which compares the input codes for the signal received at the input 60 of the module 7 from the output 77 of the module 8.

After receiving the first task of the training test at his workstation, the trained user thinks about it and generates and sends a response, the code of which comes through the input 22 of the system to the information input of register 2, where it is entered by the synchronizing pulse from the input 28 of the system.

The response code generated by the trainee, from the output of register 2 through the input 73 of module 8, is sent to one information input of the comparator 66, to the other information input of which the code of the correct answer to this test task is supplied from the output of the register 3 through the input 72 of module 8, which also goes to one inputs of elements 70 And groups.

The synchronizing pulse from the input 28 of the system through the input 74 of module 8 is delayed by the element 71 for the time of entering the learner's response code into register 2, and then goes to the synchronizing input of the comparator 66, which compares the student's response code and the correct answer code. If the response codes match, then an output is generated at the output 170 of the comparator 66, which, firstly, from the output 80 of the module 8 through the input 138 of the module 10 is supplied to the counting input of the counter 140, counting the number of correct answers to the tasks of the training test.

Secondly, the same pulse passes through the element 69 And, open at the second input with high potential from the inverse output of the trigger 67, which is in the initial state, to the output 77 of the module 8 and then through the input 60 of the module 7 to the synchronizing input of the comparator 55 comparing the number tasks in the register learning test 56 with the number of tasks already presented to the student in the counter 57.

Given that only the first task was presented to the student at this point in time, the readings of register 56 will be much larger than the readings of counter 57, and a signal is generated at the output 172 of comparator 55. This signal, through the output 62 of module 7 and the input 95 of module 9, passes through the element 88 OR to the counting input of the counter 81, forming the read address of the next test task, which is issued to the output 99 of the module 9 and then to the address output 32 of the system.

In addition, the same pulse passes through the OR element 87 to the input of the element 90, where it is delayed by the response time of the counter 81, and then, through the output 98 of the module 9, it is output to the output 38 of the system, from where it again enters the input of the first channel of the server interrupt.

With the arrival of this impulse, the server again switches to the subroutine for polling the contents of the next memory cell, the address of which is generated at the output 99 of the counter 81, issued to the address output 32 of the system and issuing the code for the next training test task to the remote workstation of the trained user, and the correct answer code through input 23 to the information input of register 3, where it is entered by the server synchronizing pulse coming through the input 29 of the system.

If the response codes in registers 2 and 3 did not match, i.e. the student incorrectly answered the task presented to him, the signal will appear on the output 171 of the comparator, which, firstly, through the output 79 of module 8 and the input 137 of module 10 immediately goes to the counting input of the counter 139, fixing the number of incorrect answers to the tasks of the learning test.

Secondly, the same pulse arrives at the second inputs of the elements of the 70 And group and rewrites the correct answer code from the output of the register 3 through the elements 70 And of the group to the output 76 of the module 8 and then through the output 33 of the system to the workstation of the student.

Thirdly, the same pulse is supplied to the single input of trigger 67 and sets it to a single state, in which trigger 67 opens one input of element 68 I one by one, preparing a chain for the pulse to pass from output 170 of the comparator through element 68 AND to output 78 of module 8.

Having received the correct answer code, the student again repeats the entry in register 2 of the correct answer code now, which is entered into register 2 with a synchronizing pulse from system input 28.

The synchronizing pulse from the input 28 of the system through the input 74 of module 8 is delayed by the element 71 for the time of entering the learner's response code into register 2, and then goes to the synchronizing input of the comparator 66, which compares the student's response code and the correct answer code. Since in this case the response codes will necessarily coincide, an impulse is generated at the output 170 of the comparator 66, which, firstly, from the output 80 of the module 8 through the input 138 of the module 10 enters the counting input of the counter 140, which counts the number of correct answers to the tasks of the training test.

Secondly, the same pulse passes through the And element 68, open at the second input with a high potential from the direct output of the trigger 67, which is in a single state, to the output 78 of the module 8 and then through the input 96 of the module 9 and through the element 88 OR to the counting input counter 81, preparing the read address of the next job test learning.

In addition, the same pulse from the output of the OR element 88 passes through the OR element 87 to the input of the element 90, where it is delayed by the response time of the counter 81, and then, through the output 98 of the module 9, it is output to the output 38 of the system, from where it again enters the input of the first interrupt channel server.

With the arrival of this impulse, the server again switches to the subroutine for polling the contents of the next memory cell, the address of which is generated at the output 99 of the counter 81, issued to the address output 32 of the system and issuing the code for the next training test task to the remote workstation of the trained user, and the correct answer code through input 23 to the information input of register 3, where it is entered by the server synchronizing pulse coming through the input 29 of the system.

The described process of training the user of the system will continue until the comparator 55 of module 7 fixes the equality of codes in the register 56 and counter 57, by issuing a signal to the output 173 of the comparator 55 and then through the output 63 of the module 7 to the output 40 of the system.

By this signal, which is input to the second channel of the server interrupt, the server switches to the subroutine for interrogating the readings of the counters 139 and 140 of module 10 from the outputs 34 and 35 of the system, respectively, and determining the degree of readiness of the student to perform the control test.

If the number of incorrect answers exceeds a predetermined threshold, then the described training procedure is repeated until the number of incorrect answers is reduced to the required level, which will indicate the readiness of the student to perform the control test.

In contrast to known systems, the described system implements verification of the degree of user preparedness for work on a real database.

If the execution of the control test on the real database of the population register gives the wrong result, then the training procedure is repeated, starting with the presentation of the training test.

Thus, the introduction of new nodes and blocks and new structural connections has significantly improved system performance by eliminating the search for research data across the entire system server database.

Sources of information taken into account when drawing up the description of the application:

1. Patent WO 02/019213 (02/07/2002)

2. Patent WO 03/021438 (02/07/2002) (prototype).

3. Development of the state automated system of the Russian Federation “Elections” until 2012. Explanatory note to the technical project. Part 12. Subsystem of personnel training. IRTSV. 42 5100 5.001.P2-12

4. Kline P. Reference design test. Kiev: PAN-LTD, 1994.

Claims (1)

The personnel training system for the “Everyday Activities” functional contour of the state-run Vybory automated system, which contains a module for selecting reference addresses of training tests in the database of the system server, the information and synchronization inputs of which are the first information and synchronization inputs of the system, respectively, while the first information input of the system is intended for receiving user identification codes, and the first synchronizing system input is designed to receive signals transmitting user identification codes to the selection module for the reference addresses of training tests in the system server database, the module for generating signals for selecting records of the database of the system server, one information input of which is connected to the first information output of the module for selecting the reference addresses for training tests in the system server database, the first synchronizing the input of the module for selecting the reference addresses of training tests in the database of the server of the system is connected to the synchronizing output of the module for selecting the reference addresses of training in the system server database, while the address output of the system server database record selection signal generation module is the system address output, and the system server synchronization output module of the system server database record selection signal generation module is the first system synchronization output for issuing control signals to the input of the first channel for interrupting the database server, a module for selecting user responses, the first and second information inputs of which are the second and third information inputs of the system, respectively, the first and second synchronizing inputs of the user response selection module are the second and third synchronizing inputs of the system, respectively, and the information output of the user response selection module is the first information output of the system, while the second information input of the system is designed to receive a given correct answer from the database system server data, the third information input of the system is designed to receive the current user response, WTO the second and third synchronizing inputs of the system are designed to receive signals for entering the given correct answer and the current user response, respectively, into the user response selection module, the module for issuing the final results of user training, the information output of which is the second information output of the system, intended for issuing the final results of user training to the information the input of the database server, and the signal output of the module for issuing the final results of user training is a signal output of the system designed to give signals about the end of the training cycle, characterized in that the system contains a selection module for a time period of data sampling, the information output of which is connected to the second information input of the signal generation module of the sampling records of the system server database records, and the synchronization output of the selection module of the time period of data sampling is connected to the second synchronizing input of the module for generating signals for sampling database records of the system server’s mod ul measuring time periods for submitting control tests, the information input of which is connected to the second information output of the module for selecting reference addresses of training tests in the system server database, the first synchronizing input of the module for measuring time periods for presenting control tests is connected to the synchronizing output of the module for measuring time periods for presenting control tests, the counting input of the module for measuring the time periods for the presentation of control tests is connected to the synchronizing output one of the server database records selection signal generation module connected to the third synchronizing input of the user response selection module, one output of the test periods presentation time measurement module is connected to the third synchronizing input of the system server database database records selection signal generation module, and another module output measurement of time periods for presentation of control tests is the second synchronizing output of the system, designed to issue signals from board to the input of the second channel of interruption of the database server of the system, the user evaluation module, the first and second control inputs of which are connected to the first and second control outputs of the user response selection module, respectively, the first and second counting inputs of the user evaluation module are connected to the first and second synchronizing outputs of the user response selection module, respectively, one clock output is connected to the second clock input of the BP measurement module of varying periods for submitting control tests, the other synchronizing output of the evaluation module to users is connected to the fourth synchronizing input of the signal generation module of the system server database record records, and the first and second information outputs of the evaluation module to users are the third and fourth information outputs of the system, respectively, intended for issuing user evaluation results for the information input of the system database server, identification module and reference addresses of control tests in the database of the system server, the information input of which is the fourth information input of the system, intended for receiving control tests, and the synchronizing input of the identification module of reference addresses of control tests in the database of the system server is the fourth synchronizing input of the system, intended for receiving signals entering control tests into the reference address identification module in the server database, while the first and second information outputs of the mod To identify reference addresses of control tests in the system server database, they are connected to the first and second information inputs of the selection module for the time period of data sampling, respectively, the third information output of the identification of reference addresses of control tests in the database of the system server is connected to the information input of the module for issuing the final results of user training , the synchronizing output of which is connected to the fifth synchronizing input of the module for generating signals for sampling the base records yes system server, and the synchronizing output of the reference test address identification module in the database of the system server is connected to the synchronization input of the selection module of the time period for data sampling, and the user response identification module, one information input of which is connected to the fourth information output of the reference control address identification module tests in the database of the system server, another information input of the module for identifying reference addresses of control tests in the database is given The system’s server is the fifth information input of the system intended for receiving user responses, and the synchronizing input of the identification module of the reference addresses of control tests in the server database is the fifth synchronizing input of the system intended for receiving signals from entering user responses into the identification module of the selected user responses, the first and second outputs of the reference test address identification module in the system server database are connected to the first and second clock input module issuing the final user training results.