RU196455U1 - The system of remote registration of citizens' data at a polling station using a mobile device - Google Patents

Abstract

The utility model relates to computing, in particular, to a system for registering citizen data at a polling station using a mobile device. The system contains a module for receiving citizen requests, a module for searching for personal data of citizens in the system server database, a module for generating addresses for reading citizen data from the system server database, a module for selecting citizens 'data sampling boundaries, a module for identifying citizens' personal data, a module for identifying user request types, a module receiving personal data of citizens from the system server database, a module for receiving transactions from the system server database, a module for issuing transactions to users of the system. The technical result is to increase the speed of the system by eliminating the time spent on preliminary procedures for registering citizens in the system and checking the rights granted to them by electronic voting. 6 ill.

Description

The utility model relates to computing, in particular, to a system for registering citizen data at a polling station using a mobile device.

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. Particularly acute is the solution to the problem of remote registration of citizens' data at polling stations, associated with the need to present and control passport data of citizens at precinct election commissions.

Known technical solutions that could be used to solve the problem (1, 2).

The first known technical solution includes a module for receiving voters 'applications to the election commission, a module for selecting voters' data in the voters server database, a module for generating addresses for writing and reading records of the voters server database, a module for receiving records of the voters server database, citizens identification module in the database server of voters, module for identifying personal identification codes of citizens, module for integrating signals blocking voting procedures, module for identifying cations for repeated voting of citizens, module 9 for receiving a personal identification code of a voter, module for receiving results of a voter selection, module for generating addresses for recording results in a server database (1).

A significant drawback of this technical solution is its low speed, due to the fact that the registration of citizens during the formation of the voters database and the subsequent issuance of ballots is carried out manually by operators, which is time consuming.

Another technical solution is known, which includes a module for receiving SMS messages from voters, a module for identifying SMS messages from voters, a module for generating addresses for writing and reading records in the database of the voters server, a module for generating SMS messages for an election commission, a module for issuing SMS messages for an election commission, a module counting the number of voters who voted, module for identifying the source of SMS messages, module for selecting channels for documenting the results of voting, group of modules for generating the current x addresses of write and read data depersonification database server records documenting channel selection module voting results, module integration output signal (2).

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

Its disadvantage also lies in the low speed of the system, due to the fact that the procedures for checking passport data when registering citizens at polling stations and issuing ballots are still carried out manually.

The purpose of the utility model is to increase the system’s speed by eliminating the time spent on preliminary user registration procedures in the system and checking the rights granted to it by electronic voting.

This goal is achieved by the fact that in the system of remote registration of citizens 'data at a polling station using a mobile device, containing a module for receiving citizens' requests, the information input of which is the first information input of the system designed to receive digital descriptions of passport data from the output of the mobile device’s camera, synchronizing the input of the module for receiving requests from citizens is the first synchronizing input of the system, designed to receive synchronizing and pulses of entering a digital description of the image of passport data from the output of the mobile device’s camera to the citizen’s request receiving module, the first information output of the citizen’s request receiving module is the information output of the system designed to issue data to the information input of the database server, the module for searching personal data of citizens in the server database system, the information input of which is connected to the second information output of the module for receiving requests from citizens, synchronizing the input of the person search module citizens data in the system server database, the module for generating the address for reading data from the system server database, the first and second information inputs of which are connected to the first and second information outputs of the module for searching personal data of citizens in the system server database, respectively, the first synchronizing input of the formation module the address for reading data from the system server database is connected to the synchronizing output of the module for searching personal data of citizens in the system server database, when The volume output address of the module for generating the address for reading data from the database of the system server is the address output of the system intended for issuing addresses to the address input of the database server, and the synchronizing output for the module for generating the address for reading data from the database of the system server is the first synchronizing output for the system issuing synchronization signals to the input of the first channel of the database server interrupt, a module for receiving personal data of citizens from the database of the system server, the information input of which is the second information input of the system intended for receiving personal data of citizens from the system server database, and the synchronizing input of the module for receiving personal data of citizens from the database of the system server is the second synchronizing input of the system designed to receive synchronizing pulses of entering personal data of citizens into a module for receiving personal data of citizens from the system server database, a module for receiving transactions from the system server database, and the formation input of which is the third information input of the system intended for receiving transactions from the system server database, and the synchronizing input of the transaction receiving module from the system server database is the third synchronizing input of the system intended for receiving synchronizing pulses of entering transactions into the transaction receiving module from the database system server, and a module for issuing transactions to users of the system whose information outputs are information outputs of the system, a module for selecting the boundaries of the selection of citizens 'data was introduced, the first and second information inputs of which are connected to the first and second information outputs of the module for generating the address for reading data from the database of the system server, respectively, while the first synchronizing output of the module for selecting the boundaries of the sample of citizens' data is connected to the second synchronizing input of the module the formation of the address for reading data from the database of the system server, a module for identifying personal data of citizens, one information input of which connected to the third information output of the module for receiving citizens' requests, another information input of the module for identifying personal data of citizens is connected to the information output of the module for receiving personal data of citizens from the database of the server of the system, the synchronizing input of which is connected to the second synchronizing input of the system, while the first clocking output of the identification module personal data of citizens is connected to the synchronizing input of the module for selecting the boundaries of the selection of citizens' data, type identification module a user request, the information input of which is connected to the fourth information output of the module for receiving requests from citizens, the first synchronizing input of the identification module of the type of request for users is connected to the second clocking output of the module of identification of personal data of citizens, the second synchronizing input of the identification module of the type of request for users is connected to the second synchronizing output of the selection module the boundaries of the sample of citizens' data, the first synchronizing output of the identification module of the type of user request It is connected to the third synchronizing input of the module for generating the address for reading data from the database of the server of the system, the second synchronizing output of the module for selecting the boundaries of sampling citizens' data is the second synchronizing output of the system, designed to issue synchronizing signals to the input of the second channel for interrupting the database server, and the third synchronizing output the module for selecting the boundaries of the sample of citizens' data is the third synchronizing output of the system, designed to issue synchronizers signals to the input of the third channel for interrupting the database server, while the address input of the transaction issuing module to the system users is connected to the fifth information output of the citizen request receiving module, the information input of the transaction issuing module to the system users is connected to the information output of the transaction receiving module from the system server database, and the synchronizing input of the transaction issuing module to users of the system is connected to the third synchronizing input of the system.

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 searching personal data of citizens in a database of a system server, FIG. 3 is a structural diagram of a module for generating addresses for reading citizen data from a system server database; FIG. 4 is a structural diagram of a module for identifying personal data of citizens, FIG. 5 is a block diagram of a user request type identification module; FIG. 6 is a block diagram of the addressing module for issuing messages to users of the system.

The system (Fig. 1) contains a module 1 for receiving citizens' requests for updating their data at a polling station, a module 2 for searching for personal data of citizens in the system server database, a module 3 for generating addresses for reading citizen data from the system server database, a module 4 for monitoring the sample boundary data of citizens, module 5 for identifying personal data of citizens, module 6 for identifying the type of user request, module 7 for receiving personal data of citizens from the database of the server system, module 8 for receiving transactions from the database system server, module 9 issuing transactions to system users.

In FIG. 1 also shows the first 10, second 11 and third 12 information inputs of the system, the first 13, second 14 and third 15 synchronizing inputs of the system, as well as information 16 and address 17 outputs of the system, the first 18, second 19 and third 20 synchronizing outputs of the system, and information 21-23 system group outputs.

Module 1 (Fig. 1) of receiving requests from citizens is made in the form of a register having information 10 and synchronizing 13 inputs, as well as the first 25, second 26, third 27, fourth 28 and fifth 29 information outputs of the module.

Module 2 (Fig. 2) of the search for personal data of citizens in the database of the server system contains a read-only memory 65, a decoder 66, elements 67-69 I, elements 70-71 delays. The drawing also shows information 32 and synchronizing 33 inputs, the first 34 and second 35 information, and synchronizing 36 outputs of the module.

Module 3 (Fig. 3) of forming the addresses for reading citizens' data from the system server database contains the first 75 and second 76 counters, register 77, OR elements 78, 79, delay elements 80, 81. The drawing shows the first 42 and second 43 information, and the first 44, second 45 and third 46 clock inputs, address 17 and clock 18 outputs, as well as the first 47 and second 48 information outputs of the module.

Module 4 (Fig. 1) for monitoring the boundaries of the sample of citizens' data is made in the form of a comparator having first 49 and second 50 information and synchronizing 51 inputs, as well as first 58 and second 59 clock outputs.

Module 5 (Fig. 4) for identifying personal data of citizens of the system comprises a comparator 82 and a delay element 83. The drawing shows the first 37 and second 38 information and clock inputs 39, as well as the first 40 and second 41 clock outputs.

Module 6 (Fig. 5) identifying the type of user request contains a decoder 90, elements 91, 92 AND, element 93 delay. The drawing shows address 52 and clock inputs 53, 54, as well as first 55, second 56 and third 57 clock outputs.

Module 7 (Fig. 1) of receiving personal data of citizens from the system server database is made in the form of a register having information 11 and synchronizing 30 inputs, as well as information 84 output.

Module 8 (Fig. 1) of receiving transactions from the system server database is made in the form of a register having informational 12 and synchronizing 31 inputs, as well as informational 85 output.

The module 9 (Fig. 6) for issuing transactions to users of the system contains a decoder 86, elements 87-89 And groups and element 98 delay. The drawing shows the address 60, information 61 and synchronizing 62 inputs, as well as information 21-23 outputs of the module.

The system uses two types of queries:

The corresponding request is generated by the user using an optical camera of a mobile device that reads a digital description of the image of the passport data, which from the information 10 input goes to the information input of module 1 and is entered into it by a synchronizing pulse received at the input 13 of module 1.

In addition, the user uses a mobile device to add request type codes and a user address code to the generated codogram.

The structure of the generated request codeogram will have the following form:

The system starts by checking the availability in the database of the server system of the personal data specified in the user’s request.

The initial letters code of the Last Name, First Name, Patronymic of the user from the output 26 of module 1 enters through the information 32 input of module 2 to the input of the decoder 66, which decrypts the incoming code and opens one of the elements 67-69 AND, for example, element 68 I.

At the other input of the 68 And element, a synchronizing pulse is received from the input 33 of the module 2, delayed by the delay element 70 for the time the codogram is entered into the module 1, which passes the And element 68, and is fed to the input of a fixed cell of the permanent storage device 65, in which the reference address code is recorded section of the database in which the user's personal data is located and the number of such records containing the same capital letters in the surname, name, patronymic is indicated.

From the first 34 information output of module 2, the read reference address of the selected database partition of the system server goes to the information 42 input of the counter 75 of module 3, into which it is entered by the synchronizing pulse supplied to the synchronizing input 44 of module 3 from the output 36 of module 2.

The code of the reference address of the selected database partition from the output of the counter 75 of module 3 is issued to the address output 17 of the system and then to the address input of the database server.

At the same time, the code for the number of such records from the information output 35 of the module 2 through the information input 43 of the module 3 is fed to the information input of the register 77, into which it is entered by the same clock pulse coming from the clock input 44.

In parallel, the synchronizing pulse from the input 44 of module 3 is delayed by the delay element 80 for the response time of the counter 75, the OR element 79 passes, and then, firstly, it enters the counting input of the counter 76, fixing the fact of the first data reading from the system server database and, secondly, from the output of 18 the system enters the input of the first channel for interrupting the database server.

Based on this signal, the database server goes to the data reading routine at the address indicated in counter 75 and provides it through the information 11 system input to the information input of module 7, where they are entered by the synchronizing pulse from system input 14.

The structure of the adopted codegram in module 7 will have the following form:

At this point in time, one information input 37 of module 5 from the output 27 of module 1 will receive a code for digital description of the image of the user's passport data, including his photo, and another information input 38 of module 5 will be given the code of the digital description of the image of the user's passport data, including his photo, from the output 84 of the module 7. By the synchronizing signal from the input 14 of the system to the input 39 of the module 5 and delayed by the delay element 83, the comparator 82 of the module 5 compares these codes.

If the codes for the digital description of the images of the user's passport data, including his photo, were not equal, then a signal is generated at the output 40 of module 5, which, through the input 51 of the module 4, is fed to the synchronizing input of the comparator of module 4. On one 49 is the information input of the comparator 4 from output 47 module 3 receives the code of the number of system server database records to be read, and to another 50 the information input of the comparator 4 from the output 48 of module 3, the code of the number of read system database database records recorded by the counter 76 module 3.

Given the fact that at this point the counter 76 is much less than the register 77, because if only one record of the system server database is read, then the output of comparator 4 generates a pulse, which is fed to the input 45 of module 3 for reading the next database record.

For this, the synchronizing pulse from the input 45 of the module 3 passes through the element 78 OR to the counting input of the counter 75, setting the next read address at the output 17 of the module 3.

In parallel with this, the same clock pulse from the input 45 of module 3 is delayed by the delay element 81 for the response time of the counter 75, the OR element 79 passes, and again through the synchronization output 18 of the system it enters the input of the first channel of the database server interrupt.

Based on this signal, the database server goes to the data reading routine at the address indicated in counter 75 and provides it through the information 11 system input to the information input of module 7, where they are entered by the synchronizing pulse from system input 14.

After checking the absence in the requested section of the database of personal user data at the output 59 of the module 4, a signal is generated, which from the output 59 of the module 4 is fed to the input 54 of the module 6.

At this point in time, the output 95 of the decoder 90 will have a high potential, opening the AND element 91 through one input, through which the pulse from the input 54 of the module 6 passes to the output 55, and then the element 78 OR passes through the input 46 of the module 3 to the counting input of the counter 75, setting the address of the user registration data record.

In addition, the synchronizing pulse from the output of the element 91 AND is delayed by the delay element 93 for the response time of the counter 75 of module 3 and is output through the output 57 to the input of the third channel of the database server interrupt.

By this signal, the database server goes to the user’s codogram recording routine from the information output 16 of the system at the address set on the address 17 of the system output, generating a transaction with registration notification and issuing it through the information 12 of the system to the information input of register 8, into which it is entered by a synchronizing pulse arriving at the synchronizing 31 input of the register 8 from the synchronizing 15 input of the system.

From the output 85 of register 8, the transaction with notification of data registration is sent to the information input 61 of module 9, to the address 60 of which from the address output 29 of module 1, the address code of the user who sent the request for data registration is sent.

The decoder 86 of module 9 decrypts the user address code and opens one input of one of the groups of AND elements, for example, elements 89 AND groups, the other inputs of which receive a transaction with notification of data registration.

The synchronizing pulse from input 15 through input 62 of module 9 is delayed by the delay element 98 for the time the transaction code is entered in register 8, and then issues a transaction with notification of data registration.

If, in the request codogram, the request code of the second type is indicated, which comes from the output 28 of module 1 through the input 52 of module 6 to the input of the decoder 90, then the decoder 90 of the module 6 with high potential from the output 94 opens the 92 I element at the other input. As a result, the synchronizing pulse from the input 53 of module 6 it passes through element 92 AND to the system output synchronizing 19, from where this pulse arrives at the input of the second channel for interrupting the database server.

By this signal, the database server goes to the subroutine for generating an electronic absentee ballot for this user and issuing it through the information 12 system input to the information input of register 8, into which it is entered by the synchronizing pulse received at the synchronizing 31 input of register 8 from the synchronizing 15 system input.

From the output 85 of register 8, the electronic absentee ballot is sent to the information input 61 of module 9, to the address 60 of which from the output output 29 of module 1, the address code of the user who sent the request for the absentee ballot is sent.

The decoder 86 of module 9 decrypts the user address code and opens one input of one of the groups of AND elements, for example, elements 88 AND groups, the other inputs of which receive the codogram of the electronic absentee ballot.

The synchronizing pulse from input 15 through input 62 of module 9 is delayed by the delay element 98 for the time the electronic absentee ballot code is entered into register 8, and then issues the transaction in the form of an electronic absentee ballot to the user.

Thus, the introduction of new modules made it possible to significantly increase the system’s speed by eliminating the need for users to spend time on personal visits to polling stations for registration in voter lists.

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

1. RF patent No. 94740, 2010

2. RF patent No. 2421813, 2010 (prototype).

Claims (1)

A system for remote registration of citizens' data at a polling station using a mobile device, containing a module for receiving citizens' requests, the information input of which is the first information input of the system designed to receive a digital description of the image of passport data from the output of the camera of a mobile device, the synchronizing input of the module for receiving citizens' requests is the first system synchronization input, intended for receiving synchronization pulses of entering a digital description from presentation of passport data from the output of the mobile device’s camera to the citizen’s request receiving module, the first information output of the citizen’s request receiving module is the information output of the system, intended for issuing data to the information input of the database server, the module for searching personal data of citizens in the system server database, information input which is connected to the second information output of the module for receiving citizens' requests, synchronizing the input of the module for searching for personal data of citizens in the server database system ra, a module for generating an address for reading data from a database of a system server, the first and second information inputs of which are connected to the first and second information outputs for a module for searching personal data of citizens in a database of a system server, respectively, the first synchronizing input for a module for generating a address for reading data from a database the server of the system is connected to the synchronizing output of the module for searching for personal data of citizens in the database of the server of the system, while the address output of the module of forming a The address of reading data from the system server database is the address output of the system, intended for issuing addresses to the address input of the database server, and the synchronizing output of the module for generating the address of reading data from the database of the system server is the first synchronizing output of the system, designed to issue synchronizing signals to the input the first channel for interrupting the database server, the module for receiving personal data of citizens from the database of the system server, the information input of which is T The other information input of the system intended for receiving personal data of citizens from the database of the server of the system, and the synchronizing input of the module for receiving personal data of citizens from the database of the system server is the second synchronizing input of the system intended for receiving synchronizing pulses of entering personal data of citizens into the module for receiving personal data citizens from the system server database, a module for receiving transactions from the system server database, the information input of which is a the fifth information input of the system, intended for receiving transactions from the system server database, and the synchronizing input of the transaction receiving module from the system server database is the third synchronizing input of the system, intended for receiving synchronizing pulses of entering transactions into the transaction receiving module from the system server database, and a module for issuing transactions to users of the system, the information outputs of which are information outputs of the system, characterized in that the system contains a bar of selection of citizens data sampling boundaries, the first and second information inputs of which are connected to the first and second information outputs of the module for generating data read addresses from the system server database, respectively, while the first synchronizing output of the module for selecting citizens data sampling boundaries is connected to the second synchronizing input of the module addresses for reading data from the database of the server of the system, a module for identifying personal data of citizens, one information input of which is connected with the third information output of the module for receiving citizens' requests, another information input of the module for identifying personal data of citizens is connected to the information output of the module for receiving personal data of citizens from the database of the system server, the synchronizing input of which is connected to the second synchronizing input of the system, while the first clocking output of the personal identification module data of citizens is connected to the synchronizing input of the module for selecting the boundaries of the selection of data of citizens, the identification module of the type of request users, the information input of which is connected to the fourth information output of the module for receiving requests from citizens, the first synchronizing input of the identification module of the type of request of users is connected to the second clocking output of the module of identification of personal data of citizens, the second synchronizing input of the identification module of the type of request for users is connected to the second synchronizing output of the border selection module sampling data of citizens, the first synchronizing output of the identification module of the type of user request It is connected to the third synchronizing input of the module for generating the address for reading data from the system server database, the second synchronizing output of the module for selecting citizens' data selection boundaries is the second synchronizing output of the system, designed to issue synchronizing signals to the input of the second channel of the database server interrupt, and the third synchronizing output of the module selection of the boundaries of the sample of citizens' data is the third synchronizing output of the system, designed to issue synchronizing signals The input to the third channel of interruption of the database server is in this case, the address input of the transaction issuing module to users of the system is connected to the fifth information output of the citizen requests receiving module, the information input of the transaction issuing module to users of the system is connected to the information output of the transaction receiving module from the system server database, and the synchronization input of the module for issuing transactions to users of the system is connected to the third synchronizing input of the system.

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