RU141774U1 - AUTOMATED SYSTEM OF INFORMATION INTERACTION OF TERRITORIALLY DISTRIBUTED OBJECTS WHEN HOLDING FEDERAL ELECTIONS AND REFERENCES - Google Patents

Abstract

An automated system of information interaction of geographically distributed objects during federal elections and referenda, containing a data center server data receiving module, the information input of which is the first information input of the system designed to receive voters register records from the data center server database, synchronizing the module input receiving data center server data is the first synchronizing input system designed data entry for registering voters from the database of the server of the data center to the data receiving module of the server of the data center, and the first information output of the data receiving module of the server of the data center is the first information output of the system, the module for selecting Internet users in the database of the center server data processing, the information input of which is the second information input of the system, designed to receive codograms of Internet users, synchronizing the input of For the selection of Internet user data in the database of the data center server is the second synchronizing input of the system, intended for entering the input codogram of Internet users into the Internet users data selection module in the database of the data center server, the control input of the Internet users data selection module in the database of the data center server is the first control input of the system designed to start the procedure for reading data records of Internet software

Description

The utility model relates to computer technology, in particular, to an automated system of information interaction of geographically distributed objects during federal elections and referenda, built on the basis of cloud technologies

Cloud technology is a distributed data processing paradigm within which information is stored and processed on the network, and users of this information receive the processing result in the form of an information service.

The term “cloud” is used as a metaphor based on

- historically determined image of global communication channels in the form of a cloud;

- the image of a complex infrastructure, the technical details of which are hidden from users of this infrastructure;

- a symbol of an extremely distributed, maximally dispersed medium.

The concept of cloud computing (Cloud Computing) or cloud services offers the implementation of an information system in the form of modules integrated into one network. The interaction of the system components takes place according to protocols oriented to work in the Internet environment; therefore, cloud services are often associated with the Internet.

But the main difference between cloud computing and “classic” ones is theoretically complete independence from the hardware platform and the service provider. What cloud services are based on has been developed for a long time - this is the virtualization of computing resources, and on-demand computing, and the provision of resources in the form of a service.

The general direction is the creation of a platform-independent architecture, which leads to the ideological decoupling of services from hardware implementation. The concept of cloud services is based on well-known areas of technology development:

- On Demand Computing;

- resource computing (Utility Computing);

infrastructure, platform, software, as a service (* As A Service) - IaaS, PaaS, SaaS, etc.

As a result of the transition to a cloud-based concept of data storage, there is a significant redistribution of costs for the development and maintenance of IT infrastructure.

A number of studies have estimated that only 30% of IT investments are spent on developing and meeting business needs. The remaining 70% is spent on supporting and maintaining the infrastructure. This is the salary of IT personnel, and the purchase, and modernization of equipment, and electricity charges, etc.

Cloud infrastructure allows you to get the opposite picture - when no more than 30% will be spent on services and maintaining a minimum infrastructure, and most of the IT costs will be directed to the development of business tools.

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

The first of the known systems that implements cloud technology belongs to Sony Corporation, which has patented in the Russian Federation as the invention “A method for using a server, a device for managing server redundancy and a means for storing a program” related to devices and methods for using the server to access a processing server that performs the specified processing (1).

A significant drawback of this system is the impossibility of solving the problem of updating the data stored in the system server database at the same time as solving the problem of processing user data in real time.

Another system is also known by the American company Skyris Networks, Inc., which patented the invention “Systems, methods and software for routing and indexing globally addressable objects and related business models related to devices for routing and indexing, searching and retrieving an object in the global computer information network (2).

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

Its disadvantage lies in the limited functionality of the system, due to the fact that in the process of remote voting of Internet users, the system does not provide the possibility of fixing both the total number of voting users and the number of users votes cast for the respective candidates in real time.

The purpose of the invention is to expand the functionality of the system by counting both the total number of Internet voters who participated in the vote at a given time, and counting the number of votes cast for the relevant candidates at a given time

This goal is achieved by the fact that in an automated system containing a data reception module of a data center server, the information input of which is the first information input of the system designed to receive voters register records from the database of the data center server, synchronizing the input of the data reception module of the data center server data is the first synchronizing input of the system, intended for recording voters register from the database of the server of the processing center data in the data receiving module of the server of the data center, and the first information output of the data receiving module of the server of the data center is the first information output of the system, the data selection module of Internet users in the database of the server of the data center, the information input of which is the second information input of the system intended for receiving codograms of Internet users, synchronizing the input of the Internet users data selection module in the database of the processing center server data is the second synchronizing input of the system, intended for entering the input codogram of Internet users into the Internet users data selection module in the database of the data center server, the control input of the Internet users data selection module in the database of the data center server is the first control input of the system designed to start the process of reading data records of Internet users from the database server of the data center, and the first information the output of the Internet users data selection module in the database of the data center server is the second information output of the system, intended for issuing Internet users data to the information input of the system server, and connected to one information input of the system addressing module to the participants of the electoral process, another information input which is the third information input of the system, intended for receiving codograms - messages to Internet users from the server database the data center, the synchronizing input of the system message addressing module to the participants of the elective process is the third system synchronizing input, intended for entering message codes to Internet users from the database of the data center server in the message addressing system module of the elective process participants, the address input of which is connected to the address the output of the Internet users data selection module in the database of the data center server, while the information outputs of the module message routing of the system to the participants of the electoral process is the information output of the system group, intended for issuing codogram messages to Internet users, a module for selecting Internet user data from a data center server, one information input of which is connected to the second information output of the Internet users data selection module in database of the data center server, another information input of the module for fetching data of Internet users from the server of the data center is given connected to the third information output of the Internet users data selection module in the database of the data center server, the synchronizing input of the Internet users data extraction module from the data center server is connected to the synchronizing output of the Internet users data selection module in the database of the data center server while the address output of the module for fetching data of Internet users from the server of the data center is the address output of the system and is intended to issue and the recording and reading addresses of Internet users to the address input of the database server of the data center of the system, and the synchronizing output of the module for extracting data from Internet users from the server of the data center is the first synchronizing output of the system designed to issue control signals to the inputs of the first interrupt channel a data center database server, characterized in that the system comprises a data processing control mode selection module, a first information input to connected to the third information output of the Internet users data selection module in the data center server database, the second and third information inputs of the data processing control mode selection module are connected to the third and fourth information outputs of the data center server data reception module, respectively, the synchronizing module input the selection of the data processing control mode is connected to the first synchronizing input of the system, the clock output of the control mode selection module a data connection is connected to the counting input of the Internet user data sampler from the data center server, an Internet user data identification module, one information input of which is connected to the second information input of the data center server data reception module, another information input of the Internet data identification module users is connected to the fourth information output of the Internet users data selection module in the data center server database, the first, second, the third synchronization inputs of the Internet user data identification module are connected to the first, second and third synchronization outputs of the data processing control mode selection module, respectively, the fourth synchronization input of the Internet users data identification module is connected to the clock output of the Internet users data sample module from the data center server , and the control input of the data identification module of Internet users is the third control input of the system, while The first synchronizing output of the Internet users data identification module is the second synchronizing output of the system, intended for issuing control signals to the input of the second interrupt channel of the data center server, the second synchronizing output of the Internet users data identification module is the third synchronizing output of the system, intended for issuing control signals to the input of the third channel of the interruption of the data center server, and the signal output of the identification module data of Internet users is the first signal output of the system, and the module for analytical evaluation of the results of the electoral process, the information input of which is connected to the first information output of the module for selecting Internet users in the database of the data center server, the synchronizing input of the module for analytical evaluation of the results of the electoral process is connected to the second control input of the system, and the information outputs of the group of the module for the analytical evaluation of the results of the electoral process are inform the system outputs of the first group, while the signal output of the data processing control mode selection module is the second signal output of the system, intended for issuing control signals to the input of the third channel of the data center server interrupt.

The invention is illustrated by drawings, where in FIG. 1 shows a diagram of the cloud implementation of information interaction of geographically distributed objects on the Internet, FIG. 2 shows a structural diagram of a system, FIG. 3 is a block diagram of a data processing control mode selection module; FIG. 4 is a block diagram of an internet user data identification module; FIG. 5 is a structural diagram of an Internet user data selection module in a database of a data center server; FIG. 6 is a structural diagram of a module for fetching data from Internet users from a data center server; FIG. 7 is a block diagram of a module for analytical evaluation of the results of the electoral process; FIG. 8 is a block diagram of a system addressing module for electoral process participants.

As shown in FIG. 1, any user actions in the system are transformed into information packets that are transported via the Internet to the primary and backup pool of server resources. Packets go to the vSwitch1 virtual switch and, if the packet is correct, are forwarded to the application delivery server. On this server, an application delivery service interacts with client applications.

Next, client applications work on the internal network through the vSwitch2 virtual switch. This switch is in no way connected to an external Internet network, which completely eliminates any unauthorized access to applications and data. In the internal network, access control is performed by a domain controller. Any actions on the primary pool in real time are duplicated on the backup pool using Double-Take.

In the event of a complete failure of the primary pool servers, the server switches to the backup pool servers. After the servers of the main pool are restored to operability, the data is reversed and the system returns to its original form.

The system (Fig. 2) comprises a data center server data receiving module 1, a data processing control mode selection module 2, internet user data identification module 3, internet user data selection module 4 in the data center server database, a sampling module 5 data of Internet users from the server of the data center, module 6 for the analytical evaluation of the results of the electoral process, module 7 for addressing system messages to participants in the electoral process.

In FIG. 2 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, the first 16, second 17 and third 18 control inputs of the system, as well as the first 20 and second 21 information outputs of the system, address 22 system output, first 23, second 24, third 25 and fourth 26 synchronizing and signal 27 outputs, the first 28-31 and second 32-34 groups of information outputs of the system.

Module 1 (Fig. 2) of receiving data from the server of the data center is made in the form of a register having information 10 and synchronizing 13 inputs, as well as the first 35, second 36, third 37 and fourth 38 information outputs.

Module 2 (Fig. 3) for selecting a data processing control mode comprises comparators 39, 40, a counter 41, a decoder 42, AND elements 43-45, and delay elements 46-47. The drawing also shows the first 48, second 49 and third 50 information, and clock 51 inputs, as well as clock 52 and first 53, second 54, third 55 clock and signal 56 outputs.

Module 3 (Fig. 4) for identifying data of Internet users contains comparators 60, 61, and OR elements 62, 63. The drawing also shows the control input 64, the first 65 and second 66 information inputs, the first 67, the second 68, the third 69 and the fourth clock inputs, as well as the first 24 and second 26 clock, and the signal 25 outputs.

Module 4 (Fig. 5) of data selection of Internet users in the database of the data center server contains a register 72, a decoder 73, a memory block 74, made in the form of read-only memory, elements 75-77 AND, element 78 OR, elements 79 delay . The drawing also shows information 11, synchronizing 14 and controlling 16 inputs, as well as the first 80, second 81, third 82, fourth 83, fifth 84, and sixth 85 information, and synchronizing 86 outputs.

Module 5 (Fig. 6) of the Internet user data sample from the data center server contains a register 88, a counter 89, a comparator 90, a counter 91, an OR element 92, delay elements 93.94. The drawing also shows the first 95 and second 96 information, synchronizing 97 and counting 98 inputs, as well as outputs address 22, synchronizing 23 and timing 99 outputs.

Module 6 (Fig. 7) of the analytical evaluation of the results of the electoral process comprises a register 101, a decoder 102, counters 103-106, elements 107-109 AND, an element of delay software. The drawing also shows information 111 and synchronizing 112 inputs, as well as a group of 28-31 information outputs.

Module 7 (Fig. 8) of addressing system messages to participants in the electoral process comprises a register 115, a decoder 116, a trigger 117, a group of 118-122 AND elements, a group of 123 OR elements, and a delay element 124. The drawing shows the first 125 and second 126 information and address 127 inputs, synchronizing 128 and installation 129 inputs, as well as a group of 32-34 information outputs of the system.

The system operates as follows.

Before the start of the election campaign, the lists of registered Internet users eligible to vote are checked at the data processing center, and the voters database (register) is formed on the basis of these lists.

The content of the attributes of the records of the register of voters of the database includes the following details: last name, first name, patronymic, gender, residential address, place of birth, type and place of issue of an identity document, citizenship, legal capacity.

Each Internet user who wants to take part in the vote sends to the data processing center of the technological platform an application code (message) in the form of an electronic document in which he indicates his identification data (last name, first name, middle name and passport data), an electronic certificate of open key of the user and announces his desire to vote.

The structure of the electronic document representing the voter application codogram will be as follows:

The code The code The code The code Region Number Internet User Identity Internet user's public key electronic certificate Request for a ballot

The specified codogram is fed to the information input 11 of the system and then to the information input of the register 72 of module 1, and the synchronization pulse from the input 14 of the system to the synchronization input of the register 72, the codes of the codogram are entered in the register 72 (Fig. 5).

The received codogram is displayed on the administrator’s monitor, which from the keyboard of the control panel of the workstation (not shown in the drawing) gives a command to check the rights of the Internet user to participate in this vote by pressing the "Check user rights" key, the signal from which is input to system 16 .

The code of the first three initial letters of the user's last name, first name, middle name from the output 141 of the register 72 goes to the input of the decoder 73. The decoder 73 decodes the code of this letter combination, giving out one of its outputs high potential. For definiteness, we assume that a high potential is received at one input of element 75 I.

In parallel with this, the clock pulse from the input 16 of the system is supplied to one of the inputs of elements 75-77 AND, interrogating the states of these elements. Considering the fact that only the element And 75 will be open at the second input, then, after passing through this element, the clock pulse arrives, firstly, at the read input of a fixed memory cell of a read-only memory device (ROM) 74, where the base address of the server’s memory zone is recorded, which stores all records about users having the same code combination of the initial letters of the last name, first name and patronymic, and the number of such records.

The structure of the record in the ROM memory cell is as follows:

THE CODE THE CODE the base address of the memory zone server of the data center, where all user records with a given code combination of the initial letters of the Last Name, First Name, Patronymic are stored the number of user records that have the same code combination of the initial letters of the Last Name, First Name, Patronymic

The contents of the fixed memory cell ROM 74 are read at the outputs 81 and 82, respectively. Secondly, the same clock pulse passes through the OR element 78 and is delayed by the delay element 79 for the duration of reading the contents of the fixed ROM cell and then goes to the output 86. The base address codes from the output 81 of the module 4 through the input 95 of the module 5 are fed to the information input of the counter 91, and the code of the number of records with the specified combination of the initial letters of the surname, name, patronymic from the output 82 of module 4 is supplied through the input 96 of module 5 to the information input of the register 88.

The clock pulse from the output 86 of the module 4, arriving at the synchronizing input 97 of the module 5, the codes of the base address of the code combination and the number of such entries in the server database are entered into the counter 91 and the register 88 of the module 5, respectively. As a result of this operation, the first record address of that memory zone of the database server will be set, from which records of user identities with a given code combination of the initial letters of the last name, first name, and middle name begin. The same synchronization pulse from input 97 passes through the OR element 92, is delayed by the element 94 for the duration of the counter 91 response and then is issued to the output 23 of the system, from where it arrives at the first server interrupt channel. By this signal, the server switches to the subroutine for reading user data records from the system server database and issuing it to the information input 10 of module 1.

The structure of the codogram of the record of user data received in module 1 has the following form:

The code The code The code User Identity Electronic digital signature of the user from the databank of electronic certificates of public keys Voting Mark

From the output 37 of module 1, the user identification data from the record read from the database of the data center server is fed to the information input 49 of module 2 and then fed to input 49 of the comparator 40, the other 48 information input from output 83 of module 4 is supplied with identification data of the voting participant whose details must be found in the database of the server of the data center of the technological platform. At the same time, the synchronizing pulse from the input 13 of the system goes to the input 51 of module 2, is delayed by the delay element 46 for the time the code is entered in the register of module 1, and then it goes to the synchronizing input of the comparator 40.

If the user identification data at the inputs 48 and 49 of the comparator 40 does not match, then the comparator 40 generates a signal at the output 52. From the output 52 of the comparator 40, the signal is fed to the input 98 of the module 5 and then to the counting input of the counter 89, which records the fact of reading the first record from database system server data center. The readings of the counter 89 go to one input of the comparator 90, the other input of which receives the total number of entries in the server database with a given alphabetic combination. The pulse from the input 98, delayed by the element 93 at the time of operation of the counter 89, the comparator 90 compares the readings of the counter 89 and the register 88.

Given that at this point in time the readings of the counter 89 are much less than the readings of the register 88, then the comparator 90 generates a signal at the first output, from where it is fed to the counting input of the counter 91, setting the read address of the next record of user data. In addition, the same synchronizing pulse passes through the OR element 92, then it is delayed by the element 94 for the duration of the operation of the counter 91, and from the output 22 of the module 5 it is issued again, it is output to the input of the first channel of the database server interrupt. By this signal, the server again switches to the subroutine for reading the contents of the next memory cell, the address of which is issued to the address output 22 of the system and writing its contents to module 1 from the information input of the system 10 by a synchronizing pulse received at the input 13 of the technology platform.

The process of sampling the user credentials and comparing them with the comparator 40 of module 2 will continue until the comparator 40 detects the coincidence of the input codes by generating a pulse at its other output, from which the pulse goes to the counting input of the counter 41, fixing the fact of the presence of data of the Internet voting participant in the system server database.

If such a coincidence does not occur after viewing all the database records with a given code combination of the last name, first name and patronymic, then the output 99 of module 5 generates a signal recording the fact that this user is not registered in the data center. This signal from the output 99 of module 5 is fed to the input 69 of module 3, where the OR element 63 passes, and then it is output to output 25, signaling the termination of the voting procedure of this user. The readings of the counter 41, which recorded the fact of the presence of the user in the system database, are fed to the input of the decoder 42, which decrypts the readings of the counter 41 and opens the element 45 And with one potential at its first output. At the other input of the element 45 And a pulse is received from the output of the delay element 47, which delays the pulse of the comparator 40 for the duration of the counter 41 operation.

From the output of element 45 And the pulse arrives at the synchronizing input of the comparator 39, on one input 50 of which a mark code is received indicating that this user has already participated in the current vote. The mark code can take two values: 0 - the user did not participate in the current vote, 1 - the user participated in the vote. At the other input of the comparator 39 receives a zero potential corresponding to the code - 0.

If the user makes an attempt to re-participate in the voting, then at the inputs of the comparator 39 there will be different potentials, and the signal will appear at output 56, recording the fact of the attempt to re-vote. This signal is fed through the input 70 of module 3 to the input of the OR element 63, and then to output 25, signaling the termination of the voting procedure of this user.

If the user has not yet participated in the current voting, then at both inputs of the comparator 39 there will be the same potential corresponding to the code - 0, and at output 55 a signal will be generated coming from output 27 to the input of the third channel of the database server interrupt.

At this signal, the database server of the data center goes to the subroutine for preparing the ballot for voting, attesting it with an electronic digital signature of the administrator of the data center and issuing it to the user who has sent his request for participation in the election process.

The structure of this codogram is as follows:

The code The code The code The code The code Region Number Internet User Identity Voting ballot. Time of issue. EDS of the data center administrator Time interval for voting

This codogram from the output of the database server of the data center is fed through the information 12 of the system to the input 126 of the module 7 and then to the input of the register 115, into which it is entered by the synchronizing pulse of the database server, coming from the input 15 of the system to the synchronizing input 128 of the module 7, address 127 input which receives the user's electronic address from the output of 85 module 1.

From the output of register 115, this codogram passes through elements 119 AND groups that are open at the second input with high potential from the inverse output of trigger 117, which is in the initial state, then passes elements 123 OR groups and goes to the inputs of elements 120-122 OR groups. The decoder 116 decodes the user address code, and opens the group of elements 120-122 AND, which corresponds to the user address.

The signal from the database server coming from input 15 to input 128 of module 7, and delayed by element 124 while the codogram is being entered into module 7, the codogram of the newsletter is sent to the user.

In addition, the system administrator enters into the account, located in the register of module 1, information that the user is provided with a voting ballot and the time interval during which he must realize his will, and by pressing the key to save the record in the user database, generates a recording signal. This signal from the input 18 of the system enters the input 64 of module 3, passes the element 62 OR, and then through the output 24 of module 3 is issued to the input of the second channel of the interruption of the database server.

By this signal, the database server switches to the subroutine for entering the user account from the output 20 of module 1 at the same address of the database server at which it was found and read.

The user, having received the electronic ballot for voting, fills it out within a specified time interval, signs it using his electronic digital signature (EDS) and sends the voting ballot to the data processing center in the form of an electronic document having the following structure:

The code The code The code The code Region Number Internet User Identity Voting ballot. Filling time Electronic digital signature of Internet user

After receiving the codogram of the voting bulletin filled out by the user, the digital signature on the voting bulletin is verified in the data processing center using the electronic public key certificate stored in the user data record in the system server database. For this purpose, the recording of user data from the system server database to module 1 is again called as described above.

The difference between this stage and the previous one is only that after the repeated call of the user data record from the system server database, the counter 41 of module 2 will record the fact of the second call of the user data record. The decoder 42 according to the new reading of the counter 41 will open another element 44 And, through which the pulse from the output of the delay element 47 passes to the output 54 of the module 2.

From the output 54 of module 2, the signal passes to the synchronizing input 67 of the comparator 60 of module 3, to one information input 66 of which the user EDS code is output from the output 84 of module 4, and the code of the electronic certificate of the public key from the output 36 of module 1 is fed to the other information input 65. If the codes of the electronic digital signatures did not match, then a signal is generated at the output of the comparator 60 of module 3, fixing the fact of the mismatch of the signatures, which is sent through the OR element 63 to the signal output 25 of the system.

If the codes of electronic digital signatures coincide, then a signal is generated at the output of the comparator 60 of module 3, confirming the authenticity of the user's signature. This signal, firstly, passes through OR element 62 and is issued from output 24 to the input of the second interrupt channel of the database server of the data center of the system. With the arrival of this signal, the server switches to a subroutine for recording the voting result sent by the user to the user data record address set on the address output 22 of the system.

Secondly, the signal from the output of the comparator 60 through the output 26 of the system is input to the fourth channel of the interruption of the database server. With the arrival of this signal, a program for generating and assigning a unique personal identifier to the voted user is launched.

The result of the program in the form of a unique personal identifier is issued to the workstation of the system administrator, and the system administrator enters it from the keyboard into the register 72 of module 1, forming a codogram - receipt in the form of an electronic document having the following structure:

The code The code The code The code The code The code Region Number Internet User Identity UPI assigned to an Internet user Voting result Administrator EDS The time interval during which a receipt must be provided

By supplying a control signal to the input 17 of the system, input to the input 129 of module 7, the system administrator sets the trigger 117 to a single state, in which elements 118 And groups of one input will be open from a single output, the other inputs of which receive the generated code-receipt with output 80 of module 4 through input 125 of module 7.

Codes of the codogram-receipt pass through elements 118 AND groups, elements 123 OR groups, and then are fed to the inputs of elements 120-122 OR groups. However, only one of them, corresponding to the user's electronic address, will be open by the decoder 116. The signal for issuing the codogram-receipt is received from the input 15 of the system through the input 128 of the module to the third inputs of elements 120-122 AND, providing the issuance of an electronic document to the user.

Having received a codogram-receipt, the user verifies the authenticity of the electronic digital signature on the receipt using the electronic data bank of electronic certificates of electronic digital signature keys, and the correctness of the information provided in the receipt, and, if there are no errors in the text of the receipt, sends it to the data processing center within a specified time interval electronic document - a receipt signed with the help of his electronic digital signature, in which he confirms his participation in the vote and the result of the vote, without indicating how he voted, and also confirms the correctness of the information contained in the receipt.

The structure of the electronic document - voter receipts is as follows:

The code The code The code The code Region Number Internet User Identity I CONFIRM my participation in the vote and the result of the vote EDS of the Internet user

After the data center receives the codogram-receipt, which enters through the information input 11 to the input of the register 72 of module 4, the user records the voting data from the system server database again and checks the correctness of its digital signature using module 3. To the information input, 65 comparators 60 , 61 of module 3, the EDS code is received from the output 36 of module 1, the code of the electronic certificate of the public key of the EDS from the output 84 of module 4 is received at the other information input 66 of module 3, and a pulse is received from the synchronizing input 67 output 53 of module 2.

If the digital signature is authentic, a signal is generated at the output of the comparator 60, which passes the OR element 62 and is output from the system output 24 to the input of the second channel of the database server interrupt. With the arrival of this signal, the server switches to the routine for recording the codogram-receipt sent by the user to the address of the user data record installed on the address output 22 of the system.

In parallel with the described process, module 6 of the system captures the voting results of Internet users according to the data received at the information input 111 of module 6 from the information output 80 of module 4. The result of the user selection in the form of a code corresponding to the selected candidate is input from module 111 of input 6 to the input register 101, where it is recorded by the synchronizing signal supplied to input 112.

Decoder 102 decrypts the incoming code, and opens one input corresponding to the selected candidate element 107-109 I. The synchronizing pulse from input 112 is delayed by the response time of register 101 and decoder 102 by element 110 and then enters through the corresponding element 107-109 to the counting input of the corresponding counter 103-105, counting the number of votes cast for the respective candidate. In addition, each synchronizing pulse from the output of the delay element 110 is supplied to the counting input of the counter 106, which counts the total number of participants in Internet voting.

At the end of the vote, two lists are published based on the database records of the server of the system’s data center system: one list with the results of electronic voting indicating unique personal identifiers, and the other list with the last names, first names and patronymics of the users who participated in the vote.

Thus, the introduction of new modules made it possible to significantly expand the functionality of the technological platform by counting both the total number of Internet voters who took part in voting at a given time and counting the number of votes cast for the respective candidates at a given time.

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

1. RF patent 2276400 (08.29.2001)

2. RF patent 2321885 (09/18/2003) (prototype).

Claims (1)

An automated system of information interaction of geographically distributed objects during federal elections and referenda, containing a data center server data receiving module, the information input of which is the first information input of the system designed to receive voters register records from the data center server database, synchronizing the module input receiving data center server data is the first synchronizing input system designed data entry for registering voters from the database of the server of the data center to the data receiving module of the server of the data center, and the first information output of the data receiving module of the server of the data center is the first information output of the system, the module for selecting Internet users in the database of the center server data processing, the information input of which is the second information input of the system, designed to receive codograms of Internet users, synchronizing the input of For the selection of Internet user data in the database of the data center server is the second synchronizing input of the system, intended for entering the input codogram of Internet users into the Internet users data selection module in the database of the data center server, the control input of the Internet users data selection module in the database of the data center server is the first control input of the system designed to start the procedure for reading data records of Internet software users from the base data of the data center server, and the first information output of the Internet users data selection module in the database of the data center server is the second information output of the system, intended for issuing Internet users data to the information input of the system server, and connected to one information input of the addressing module system messages to participants in the electoral process, the other information input of which is the third information input of the system, intended to receive a code gram - messages to Internet users from the database of the data center server, the synchronizing input of the addressing module of the system messages to the participants of the elective process is the third synchronizing input of the system, intended for entering codograms - messages to Internet users from the database of the server of the data center in the message addressing system participants of the electoral process, whose address input is connected to the address output of the Internet users data selection module in the server database and the data center, while the information outputs of the system addressing module to the participants of the electoral process are the system group information outputs intended for issuing codograms - messages to Internet users, the Internet users data sampling module from the data center server, one information input of which is connected to the second information output of the Internet users data selection module in the database of the data center server, the other information input of the module is selected The data of Internet users data from the data center server is connected to the third information output of the Internet users data selection module in the data center server database, the synchronizing input of the Internet users data extraction module from the data center server is connected to the synchronizing output of the Internet data selection module users in the database of the server of the data center, while the address output of the module for fetching data of Internet users from the server of the data center data is the address output of the system and is designed to provide write and read addresses of Internet users to the address input of the database server of the data center of the system, and the synchronizing output of the module for extracting data from Internet users from the server of the data center is the first synchronizing output of the system issuing control signals to the inputs of the first interrupt channel of the data center database server, characterized in that the system comprises a selection module data processing control mode, the first information input of which is connected to the third information output of the Internet users data selection module in the data center server database, the second and third information inputs of the data processing control mode selection module are connected to the third and fourth information outputs of the server data reception module of the data center, respectively, the synchronizing input of the data processing control mode selection module is connected to the first synchronizing input ohms of the system, the clock output of the data processing control mode selection module is connected to the counting input of the Internet users data sample module from the data center server, the Internet users data identification module, one of which information input connected to the second information input of the data center server data receiving module, another information input of the Internet users data identification module is connected to the fourth information output of the Internet users data selection module in the data center server database, the first, second, third synchronizing inputs of the identification module data of Internet users are connected to the first, second and third synchronizing outputs of the data processing control mode selection module Clearly, the fourth clock input of the Internet user data identification module is connected to the clock output of the Internet user data sample module from the data center server, and the control input of the Internet user data identification module is the third control input of the system, while the first clock output of the data identification module Internet users is the second synchronizing system output designed to issue control signals to the input of the second interrupt channel of the data center server, the second synchronizing output of the Internet user data identification module is the third synchronizing output of the system, intended for issuing control signals to the input of the third channel of the data center server interrupt, and the signal output of the Internet user data identification module is the first signal output of the system , and an analytical evaluation module for the results of the electoral process, the information input of which is connected to the first information output m modulus selection of Internet user data in the data center server data clock input module analytical assessment of the electoral process results connected to the second the control input of the system, and the information outputs of the group of the module for analytical evaluation of the results of the elective process are the information outputs of the system of the first group, while the signal output of the module for selecting the data processing control mode is the second signal output of the system designed to provide control signals to the input of the third channel of the interruption of the processing center server data.

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