RU173829U1 - The biometric system of electronic voting of deputies of the State Duma - Google Patents

Abstract

The utility model relates to computing, in particular to the electronic voting system of State Duma deputies when adopting regulatory legal acts. The technical result is to increase the system’s speed by eliminating the need to search for voting data in the server’s database to identify them. The technical result is achieved by that the system contains a module for receiving input codograms of participants in the legislative process, a module for decrypting the biometric code of the participant the legislative process, a memory module, a module for integrating the answers of participants in the legislative process in the voting mode, a module for receiving addresses for reading data from the participants in the legislative process, a module for counting the number of registered participants in the legislative process, a module for switching operating modes of the system, a module for identifying the answers of participants in the legislative process in the voting mode, a module for recording voting results; a module for receiving data from records of participants in a legislative process from the basics of system data server, issuing confirmations module registered voters. 9 ill.

Description

The utility model relates to computing, in particular to the biometric system of electronic voting of deputies of the State Duma when adopting regulatory legal acts.

The system of electronic voting, when adopting regulatory legal acts, is a toolkit for automating the work of subjects of the right of legislative initiative and improving the rules of work of public authorities in the framework of modernizing state information systems.

In connection with the rapid development of information technologies and telecommunications, the issue of electronic voting has matured and stood on the agenda all over the world. Today there is no doubt about the need to continue working on electronic voting systems. The question is not whether electronic voting is necessary, but how to prepare and optimally put it into practice.

The solution to the problem of electronic voting based on biometric technologies currently seems to be the most promising, since biometric control of the access of participants in the legislative process to the voting procedure allows for personal identification by checking (researching) the unique physiological characteristics of a person.

Physiological features, such as, for example, a papillary finger pattern, palm geometry, or an iris pattern (model), are constant physical characteristics of a person. This type of measurement (verification) is practically unchanged as well as the physiological characteristics themselves. Unlike a password or a personal identification number (PIN), a biometric characteristic cannot be forgotten, lost or stolen.

The advantages of fingerprint access are ease of use, convenience and reliability. The entire identification process takes little time and does not require effort from those who use this access system. Studies have also shown that using a fingerprint to identify a person is the most convenient of all biometric methods.

The main reason for using biometrics is the maximum accuracy of determining a person. It is a person, and not a material identifier associated with her (token, smart card, token), which may be lost or intentionally transferred to another participant in case of absence at the plenary meeting of the State Duma.

Modern scanners also have the function of identifying a fingerprint as a living person, and they cannot be fooled by presenting a fingerprint on paper, gelatin or glass.

In the process of implementing this system, the automation of information processes occurring during the voting and the provision of electronic information for decision-making is carried out, namely:

- automation of procedures for registration of deputies and voting;

- display of voting results on information monitors and workplace screens.

A quantitative vote is the choice of the answer option: “for”, “against” or “abstained”. Counting of votes and presentation of the voting results in absolute and percentage terms are made for each vote.

When conducting an open vote using the electronic vote counting system, a list is formed with the results of the vote, which indicates the names, surnames, patronymics of the deputies of the State Duma, the names of the fractions and the voting results of each deputy of the State Duma. A deputy of the State Duma has the right to receive a list with the results of open voting.

When conducting a secret ballot using the electronic vote counting system, data on the voting results of each deputy of the State Duma shall not be recorded in the memory of the electronic system.

Known systems that could be used to solve the problem (1, 2, 3).

The first known system includes devices for inputting information into a computer for voting, devices for outputting voting results from computers, and computers providing software for calculating the result of voting by counting the number of voters, information input devices for identifying the person who is voting, information input devices for Computers designed to enter at least one additional individual information about each voter, from at least one electronic database, yes GOVERNMENTAL, a computer provided with a program adapted to process input information into it to calculate the coefficients of the competence of each individual voter, the weighting coefficients representing the voting, based on which calculation is performed (1).

A significant drawback of this system is the inability to conduct voting procedures and vote counting in real time.

Another system is known, comprising a voting unit associated with a central unit and an identification unit, a data input device, an electronic database of subjects of will expression and an electronic card programmer (2).

Its disadvantage lies in the low reliability of the system for identifying voting deputies of the State Duma, due to the fact that during the voting procedure any deputy can vote for absent deputies using their registration cards.

There is also known a technical solution to the problem, which contains a module for selecting addresses of records of participants in the legislative process in the database of the system server, a module for managing the selection of data for records of participants in the legislative process, a module for generating addresses for selecting records of participants in the legislative process, a module for identifying participants in the legislative process, a module for receiving data from records participants in the legislative process from the system server database, module for recording registration results and participants in the legislative process and a module for recording the voting results of participants in the legislative process (3).

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

Its disadvantage lies in the low speed of the system, due to the unproductive expenditure of time on searching for the data of voting participants in the database of the server system for their subsequent identification.

The purpose of the utility model is to increase the speed of the system by eliminating the need to search for data of voting participants in the database of the server system for their identification.

This goal is achieved by the fact that in a known system containing a module for receiving input codograms of participants in the legislative process, the information input of which is the first information input of the system intended for receiving codograms from the workplaces of deputies, the synchronizing input module for receiving input codograms of participants in the legislative process is the first synchronizing input systems intended for entering codograms from workplaces of deputies into the module for receiving input codograms of participants This process, the module for receiving addresses for reading data from participants in the legislative process, the information input of which is connected to the output of the memory module, and the address output of the module for receiving addresses for reading data from participants in the legislative process is the address output of the system designed to provide the addresses for reading data to the address input of the system database server , module for counting the number of registered participants in the legislative process, the information output of which is an information output the house of the system intended for the issuance of data on the number of registered deputies, the module for receiving data from the records of participants in the legislative process from the database of the server of the system, the information input of which is the second information input of the system intended for receiving data from the records of participants in the legislative process, synchronizing the input of the module for receiving data from the records of participants of the legislative process from the system server database is the second synchronizing system input intended for transferring data of records of participants in the legislative process to the module for receiving data from records of participants in the legislative process from the database of the system server, a module for identifying the answers of participants in the legislative process in the voting mode, the information input of which is connected to one information output of the module for receiving input codograms of participants in the legislative process, a module for recording voting results , the counting inputs of the group of which are connected to the corresponding signal outputs of the group of the identifier module answers to the participants of the legislative process in the voting mode, and the information outputs of the group of the module for fixing the voting results are the information outputs of the system of the first group, a module for decrypting the biometric code of the participant in the legislative process is introduced, the information input of which is connected to the first information outputs of the module for receiving input codograms of participants in the legislative process, synchronizing input of the decoding module of the biometric code of the participant in the legislative process It is connected to the first synchronizing input of the system, and the synchronizing outputs of the group of the decryption module of the biometric code of the legislative process participant are connected to the corresponding reading inputs of the group of the memory module, the integration module of the answers of the participants of the legislative process in the voting mode, the control inputs of the group of which are connected to the corresponding control outputs of the group of the biometric decryption module code of the participant in the legislative process, the synchronizing input is connected to the synchronizing the output of the module for decoding the biometric code of the participant in the legislative process, and the output of the module for integrating the answers of the participants in the legislative process in the voting mode is connected to the synchronizing input of the module for identifying the answers of the participants in the legislative process in the voting mode, the module for switching the system operation modes, the first and second control inputs of which are the first and the second control inputs of the system, the installation input of the system switching module is the installation input the house of the system, one synchronizing input of the module for switching the operating modes of the system is connected to the synchronizing output of the module for decoding the biometric code of the participant in the legislative process, another synchronizing input of the module for decoding the biometric code of the participant in the legislative process is connected to the second synchronizing input of the system, connected to the control input of the module for decoding the biometric code of the participant of the legislative process essa, another control output of the system operation mode switching module is connected to the control input of the integration module of the legislative process participants' answers in the voting mode, the first synchronizing output of the system operation switching module is connected to the synchronizing input of the module for receiving data addresses of legislative process participants and to the counting input of the counting module the number of registered participants in the legislative process, and the second synchronizing input of the switching module mode The system operation is the synchronizing output of the system, intended for issuing control signals to the input of the first channel of the system database server interruption, and the module for issuing confirmations to registered voters, whose address input is connected to the address output of the module for receiving data from the legislative process participants from the system server database , the information input of the module for issuing confirmations to registered voting participants is connected to the information output of the reception module these records of participants in the legislative process from the database of the system server, and the synchronizing input of the module for issuing confirmations to registered voters is connected to the third synchronizing output of the module for switching operating modes of the system, while the information outputs of the group of the module for issuing confirmations to registered participants are the group of information outputs of the system issuing confirmations to the workplaces of deputies.

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a structural diagram of a system; FIG. 2 is a structural diagram of a module for decoding a biometric code of a participant in a legislative process; FIG. 3 is a structural diagram of a module for integrating response signals of participants in a legislative process in a voting mode; FIG. 4 is a block diagram of a system mode switching module; FIG. 5 is a structural diagram of a module for identifying responses of participants in a legislative process in a voting mode; FIG. 6 is a structural diagram of a module for fixing voting results; in FIG. 7 is a block diagram of a module for issuing confirmations to registered voters, FIG. 8 shows an example of a fingerprint scanner embedded in the workstations of participants in the legislative process, and FIG. 9 is an example of a specific example of a workstation console with a built-in fingerprint scanner.

The system (Fig. 1) contains module 1 for receiving input codograms of participants in the legislative process, module 2 for decrypting the biometric code of the participant in the legislative process, module 3 for memory, module 4 for integrating the answers of participants in the legislative process in the voting mode, module 5 for receiving addresses for reading data from participants in the legislative process, module 6 for counting the number of registered participants in the legislative process, module 7 for switching the operating modes of the system, module 8 for identifying the answers of participants in the law of the process in the voting mode, module 9 for fixing the voting results, module 10 for receiving data from the records of participants in the legislative process from the database of the server of the system, module 11 for issuing confirmations to registered voters.

In FIG. 1 also shows the first 15 and second 16 information, the first 17 and second 18 synchronizing, the first 19 and second 20 control and installation 21 system inputs, as well as address 25, information 26 and synchronizing 27 system outputs, the first group of 28-31 system information outputs and the second group of 32-34 information outputs of the system.

Module 1 (Fig. 1) of receiving input codograms of participants in the legislative process is made in the form of a register having information 15 and synchronizing 17 inputs, as well as the first 37 and second 38 information outputs.

Module 2 (Fig. 2) of decoding the biometric code of a participant in the legislative process contains a decoder 40, elements 41-43 AND, element 44 of the delay. The drawing also shows information 45, synchronizing 46 and control 47 inputs, as well as a group of 48-50 synchronizing outputs, a group of 51-53 control outputs and a synchronizing 54 output.

The module 3 (Fig. 1) memory, made in the form of a permanent storage device having a group of inputs 120-122 and output 123.

Module 4 (Fig. 3) of the integration of answers of participants in the legislative process in the voting mode contains a group of elements 55-57 AND, element 58 OR. The drawing also shows a group of 59-61 control inputs, synchronizing 62 and controlling 63 inputs, as well as a timing 64 output.

Module 5 (Fig. 1) of receiving data from records of participants in the legislative process from the database of the server system is made in the form of a register having information 124, synchronizing 125 inputs, as well as information 26 output.

Module 6 (Fig. 1) of counting the number of registered participants in the legislative process is made in the form of a counter having a counting input 126 and an information output 29.

The module 7 (Fig. 4) switching the operating modes of the system contains triggers 65, 66, elements 67, 68 And, elements 69-71 delay. The drawing also shows the first 19 and second 20 control, installation 21, first 22 and second 23 clock inputs, as well as the first 72 and second 73 control, and the first 74, second 75 and third 76 clock outputs.

Module 8 (Fig. 5) for identifying the answers of participants in the legislative process in the voting mode contains a decoder 80, elements 81-83 AND, element 84 OR. The drawing also shows information 85 and synchronizing 86 inputs, as well as a group of 87-90 signal outputs.

Module 9 (Fig. 6) recording the voting results contains a group of 91-94 counters. The drawing shows a group of 95-98 counting inputs of the module and a group of 28-31 information outputs of the module.

Module 10 (Fig. 1) for receiving data from records of participants in the legislative process from the system server database is made in the form of a register having informational 16 and synchronizing 18 inputs, as well as the first 101 and second 102 information outputs.

The module 11 (Fig. 7) for issuing confirmations to registered voters contains a decoder 105 and groups 106-108 of elements 112-114 I. The drawing shows information 109, address 110 and synchronizing 111 inputs, as well as a group 32-34 of information outputs of the system.

At each workplace of a participant in the legislative process, a liquid crystal panel with a control panel (not shown) is used to display the system's operating modes and informational support for the meeting.

The system operates in two modes: the registration mode of deputies of the State Duma and the voting mode on agenda items.

The deputies registration mode is activated by supplying a control signal to input 19 of module 7, from where it enters the direct input of trigger 65 and sets it to a single state, in which elements 67 and 68 will be open at one input with a high potential from the direct output of trigger 65.

At the same time, the high potential from the direct output of the trigger 65 through the output 72 of the module 7 is fed to the input 47 of the module 2, and then it is fed to one of the inputs of the elements 41-43 AND, opening them at one input, respectively.

In registration mode, each of the participants in the legislative process on the control panel of his workplace generates a fingerprint code, simply leaning his finger on the desktop fingerprint scanner (Fig. 9) As a result, a codeogram will be formed, having the following form:

The specified codogram is fed to the information input 15 of the system and then to the information input 35 of register 1, and the synchronization pulse from the input 17 of the system to the synchronization input 36 of register 1, the codogram code is entered into register 1, and then from the output 37 of register 1 it goes to the information 45 input module 2.

The decoder 40 of module 2 decodes the fingerprint code, giving out one of its outputs high potential. For definiteness, we assume that the high potential from the output 130 of the decoder 40 was received at one input of the element 41 I.

In parallel with this, the clock pulse from the input 17 of the system enters the input 46 of module 2, is delayed by the delay element 44 for the response time of register 1, and is fed to one of the inputs of elements 41-43 AND, interrogating the states of these elements.

Considering the fact that only the AND element 41 will be open at the third input, then, passing this element, the synchronizing pulse from the output 48 of the module 2 through the input 120 of the module 3 is fed to the read input of a fixed memory cell of a permanent storage device in which the address of the memory cell is recorded a database server with data on the participant in the legislative process having this biometric code.

At the same time, the synchronizing pulse from the input 47 of module 2 passes to the output 54 of module 2 and then goes to the input 22 of module 7, where the open element 67 And passes, then it is delayed by the delay element 69 for the time it takes to read data from module 3 and goes to the synchronizing 125 input register 5 and to the counting input of module 6.

The contents of a fixed memory cell from the output 123 of the module 3 is read into the information 124 input of the module 5 and entered into it by a synchronizing pulse from the input 125.

As a result of this, module 6 will record the fact of registration of the first participant in the legislative process, and module 5 will issue to the address 25 output of the system the address of the memory cell in which the identification data of the registered participant in the legislative process is stored.

The same synchronization pulse from the output of the delay element 69 of the module 7 is delayed by the delay element 70 for the response time of the module 5 and then from the output 75 of the module 7 it is output to the output 27 of the system, from where it goes to the first interrupt channel of the database server.

By this signal, the server goes to the subroutine for issuing confirmation of registration of the deputy at his workplace, for which the data of the registered participant of the legislative process is read from the database of the server of the system and transferred to the information input 16 of module 10, into which they are entered by the synchronizing pulse of the database server entering 18.

The structure of the codogram of the data record of the registered participant of the legislative process, received in module 10, has the following form:

The code of the address of the workplace of a participant in the legislative process from the output 102 of module 10 through the input 110 of module 11 is fed to the input of the decoder 105, which decodes the address code and opens one of the groups of 106-108 elements And, for example, the group of 108 elements I. To the other inputs of groups 106 -108 And from input 109, the identity of the participant in the legislative process is received.

At the same time, the synchronization signal from the input 18 of the system through the input 23 of the module 7 passes through the open element 68 And is delayed by the delay element 71 for the time the code is entered in the register 10 and from the output 76 of the module 7 is transmitted to the synchronization input 111 of the module 11, rewriting the identification data with exit 34 to the workplace of a registered participant in the legislative process.

After the end of the registration mode, the system is switched to the voting mode by supplying a control signal to the input 20 of module 7, by which the trigger 65 returns to its original state, and the trigger 66 is set to a single state, in which a high potential is output through the input 63 of the module from the output 73 of the module 7 4 to one of the inputs of the elements 55-57 AND, opening them at one entrance.

In the voting mode, each of the participants in the legislative process on the control panel of his workplace must first select an answer code: “for”, “against”, “abstained,” and then generate a fingerprint code by simply resting his finger on the desktop fingerprint scanner. As a result, a codogram will be formed, having the following form:

The specified codogram is fed to the information input 15 of the system and then to the information input 35 of register 1, and with a synchronization pulse from the system input 17 to the synchronization input 36 of register 1, the codogram code is entered into register 1 and then from the output 37 of register 1 it goes to information 45 module input 2.

The decoder 40 of module 2 decodes the fingerprint code, giving out one of its outputs high potential. For definiteness, we assume that the high potential from the output 130 of the decoder 40 entered both the single input of the And element 41 and the output 51 of the module 2 directly.

By low potential from input 47 of module 2 coming from output 72 of module 7, all elements 41-43 AND will be blocked in voting mode. As a result of this, a high potential from the output 51 of the module 2 through the input 59 goes to one input of the element 55 AND of the module 4, opening it to one input. At the other input of the element 55 And through the input 63 a high potential enters from the output 73 of the module 7, opening it at the second input. And, finally, the third input 62 of the 55 And element receives a synchronizing pulse from the output 54 of module 2, which passes the And 55 element, and through the element 58 OR is issued to the output 64 of the module 4, then fed to the synchronizing 86 input of the module 8, to the information 85 whose input is the code of the selected answer of the participant in the legislative process.

Thus, in the voting mode, the code of the selected answer from the output 38 of module 1 is supplied to the information input 85 of module 8, and the synchronizing pulse of identification of a participant in the legislative process from the output 64 of module 4 is sent to the synchronizing input 86 of module 8.

The decoder 80 of module 8 decodes the code of the selected response and generates a signal at one of the three outputs. For definiteness, we will assume that the first output of the decoder 80 corresponds to the answer “FOR”, the second output of the decoder 80 corresponds to the answer “AGAINST”, and the third output of the decoder corresponds to the answer “ABSTAINED”.

Then, if the code of the selected answer corresponds to the answer “FOR”, then the decoder 80 with high potential from the first output will open the element 81 And one input, the other input of which receives a synchronizing pulse from input 86. This synchronizing pulse from the output 87 of module 8 is received, -first, to the counter 95, the input of the counter 91 of the module 9, counting the number of answers “FOR”.

Secondly, the same pulse passes through the OR element 84 and from the output 90 of the module 8 it enters the counting 98 input of the counter 94 of the module 9, fixing the total number of responses received from the number of registered participants in the legislative process.

Similarly, the counters 92 and 93 of module 9 record the number of responses corresponding to the answers “AGAINST” and “ABSTAINED”. The outputs of all the counters of module 9 are connected to the corresponding scoreboards, which display the results of voting of participants in the legislative process in real time.

Thus, the introduction of new modules and new constructive connections made it possible to significantly increase the system’s speed by eliminating the need to search for voting data in the system server database for their identification.

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

1. RF patent No. 2 413 999 (11/27/2006).

2. RF patent No. 2 368 010 (11.29.2004).

3. RF patent No. 157 987 (11/25/2014) (prototype).

Claims (1)

The biometric system of electronic voting of deputies of the State Duma, containing a module for receiving input codograms of participants in the legislative process, the information input of which is the first information input of the system intended for receiving codograms from workplaces of deputies, the synchronizing input module for receiving input codograms of participants in the legislative process is the first synchronizing input of the system, intended for entering codograms from the workplaces of deputies into the module for receiving input diagrams of participants in the legislative process, the module for receiving addresses for reading data from participants in the legislative process, the information input of which is connected to the output of the memory module, and the address output of the module for receiving addresses for reading data from participants in the legislative process is the address output of the system designed to provide the addresses for reading data to the address input of the base server system data, a module for calculating the number of registered participants in the legislative process, the information output of which is with an information output of the system intended for issuing data on the number of registered deputies, a module for receiving data from records of participants in the legislative process from the database of the server of the system, the information input of which is the second information input of the system designed for receiving data from records of participants in the legislative process, synchronizing the input of the data receiving module records of participants in the legislative process from the system server database is the second synchronizing input of the system, p intended for entering data of records of participants in the legislative process into the module for receiving data from records of participants in the legislative process from the database of the system server, a module for identifying the answers of participants in the legislative process in the voting mode, the information input of which is connected to one information output of the module for receiving input codograms of participants in the legislative process, fixing module voting results, the counting inputs of the group of which are connected to the corresponding signal outputs groups of the module for identifying the answers of participants in the legislative process in the voting mode, and the information outputs of the group of the module for fixing the voting results are information outputs of the system of the first group, characterized in that the system contains a module for decrypting the biometric code of the participant in the legislative process, the information input of which is connected to the first information outputs of the reception module input codograms of participants in the legislative process, synchronizing the input of the biometric decryption module of the code of the participant in the legislative process is connected to the first synchronizing input of the system, and the synchronizing outputs of the group for decoding the biometric code of the participant in the legislative process are connected to the corresponding reading inputs of the group of the memory module, the module for integrating the answers of the participants of the legislative process in the voting mode, the control inputs of which are connected to the corresponding control the outputs of the group of the module for decoding the biometric code of the participant of the legislative process The CCA, the synchronizing input is connected to the synchronizing output of the module for decoding the biometric code of the legislative process participant, and the output of the module for integrating the answers of the legislative process participants in the voting mode is connected to the synchronizing input of the module for identifying the answers of the legislative process participants in the voting mode, the system mode switching module, the first and second the control inputs of which are the first and second control inputs of the system, the installation input of the switching module The system operation mode is the installation input of the system, one synchronizing input of the system operation mode switching module is connected to the synchronizing output of the biometric code participant of the legislative process decryption module, another synchronizing input of the biometric code decryption module of the legislative process participant is connected to the second synchronizing input of the system, while one control the output of the system mode switching module is connected to the control input of the decryption module of the isometric code of the participant in the legislative process, another control output of the module for switching the operating modes of the system is connected to the control input of the module for integrating the answers of the participants of the legislative process in the voting mode, the first synchronizing output of the module for switching the modes of operation of the system is connected to the synchronizing input of the module for receiving data addresses of the participants of the legislative process and with the counting input of the module for counting the number of registered participants in the legislative process, and in The second synchronizing input of the system mode switching module is the system synchronizing output intended for issuing control signals to the input of the first interrupt channel of the system database server, and a confirmation module for registered voting participants whose address input is connected to the address output of the module for receiving data from the records of legislative process participants from the system server database, information input of the module for issuing confirmations to registered participants of votes The connection is connected to the information output of the module for receiving data of records of participants in the legislative process from the system server database, and the synchronizing input of the module for issuing confirmations to registered voters is connected to the third synchronizing output of the module for switching operating modes of the system, while the information outputs of the group of the module for issuing confirmations for registered voters are a group of information outputs of the system designed to issue confirmations to workmen hundred deputies.

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