RU174148U1 - TECHNOLOGICAL PLATFORM FOR INTEGRATION OF INFORMATION RESOURCES OF THE SYSTEM OF INTERDEPARTMENTAL ELECTRONIC INTERACTION - Google Patents

Abstract

The utility model relates to computer technology, in particular, to a technological platform for integrating information resources of an interdepartmental electronic interaction system in the performance of state functions in the field of combating illegal financial transactions. The technical result is to increase the reliability of delimiting user access to sections of electronic documents by attaching user identifiers to those sections of documents that are allocated to users for processing. The results are achieved in that the technological platform contains a block for selecting sections of electronic documents of a data processing center, a block for identifying sections of electronic documents, a block for determining time intervals for identification, a block for selecting addresses of sections of electronic documents, a block for generating signals for reading and writing data, a memory block for a data center , an input data switching unit and an output data switching unit. 8 ill.

Description

The utility model relates to computer technology, in particular to a technological platform for the integration of information resources of the system of interagency electronic interaction in the performance of state functions in the field of combating illegal financial transactions.

The system of interdepartmental electronic interaction (hereinafter referred to as “MEVE”) is the federal state information system designed to organize informational interaction between the information systems of SMEV participants in order to provide state and municipal services and perform state and municipal functions in electronic form.

Participants in interagency electronic interaction (SMEV participants) are federal executive bodies, state extra-budgetary funds, executive bodies of state power of the constituent entities of the Russian Federation, local governments, state and municipal institutions, multifunctional centers, other bodies and organizations.

As a result of the studies, it was found that the automation of interagency cooperation is mainly aimed at providing public services to citizens and organizations / representatives of the business community, and the problems of countering illegal financial transactions remained unresolved.

Among the unresolved problems should also be attributed to the lack of a single protected information exchange circuit with an “for official use” access level, the absence of a single access point, a single reporting point, and the lack of a single data access procedure.

To solve these problems, it is necessary to create a unified transport service, taking into account the fullest possible use of the existing infrastructure, providing information and technological interaction of information systems.

The task set requires the elaboration of solutions that would support the principles of consolidating information resources using data marts within the framework of the concept of building a unified state data architecture.

A single transport service should play the role of a single dispatcher and router of unified requests of federal executive authorities to ensure interaction in the framework of countering illegal financial transactions. At the same time, a single transport service should be a single entry point for requests and providing information by sending requests for the required data to the appropriate department to form a unified response based on its database.

Known technical solutions for information interaction systems in the provision of public services (1, 2)

The first known system includes a unit for identifying types of documents, a unit for selecting the address of a document number in a server database, a unit for identifying sections of a document catalog in a server database, a unit for identifying temporary details of documents, a first and a second unit for changing a direction of searching for documents in a server database, a unit selecting the direction of searching for documents of the server database, and block 8 for generating signals for reading documents from the server database (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 known that contains a module for receiving citizens' applications for the provision of public services, a module for selecting addresses of records of units of the Federal Migration Service in the system server database, a module for selecting addresses of entries for applicants in the system server database, a module for generating addresses for writing and reading server database records systems, a module for determining the time cycle of sampling citizen data records, a module for comparing identification data of system objects, a module for identifying case numbers for developers, a module for receiving records of a system server database, a module for receiving codogram-invitations from a system server database, a switching and data output module (2).

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

Its disadvantage is that it cannot provide reliable delimitation of access for users of the system of interdepartmental information interaction to various sections of processed documents, which are sent to the corresponding users of the network for processing.

The purpose of the invention is to increase the reliability of differentiation of access for users of the system of interagency information interaction to sections of electronic documents by assigning user identifiers to those sections of documents that are assigned to them for processing.

This goal is achieved by the fact that in the technological platform, which contains a block for selecting sections of electronic documents of the data center, the information and synchronization inputs of which are the first information and synchronization inputs of the technology platform, respectively, while the first information input of the technology platform is designed to receive user requests, and the first the synchronizing input of the technological platform is designed to receive synchronizing signals users in the selection block of electronic document sections of the data center, and the control outputs of the group of the selection section of electronic documents of the data center are connected to the corresponding control inputs of the input and output data switching blocks, respectively, the data center memory block, the output of which is connected to the information input of the block switching output data, the outputs of which are the information outputs of the technological platform group, a signal generation unit with reading and writing data, the clock input of which is connected to the first synchronizing input of the technological platform, the first synchronizing output of the block for generating signals for reading and writing data is connected to the data control input of the data block of the memory of the data center, the second synchronizing output of the block for generating signals for reading and writing data is connected the synchronizing input of the output data switching unit, and the third synchronizing output of the data read and write signal generating unit connected to the data recording control unit of the data center memory block, while the information inputs of the input data switching unit group are the information inputs of the system group, and the input data switching unit output is connected to the information input of the data center memory unit, an address selection section of electronic documents a data processing center, the information input of which is the second information input of the technological platform, designed to receive the code of the electronic section a document from the user's workstation, the first synchronizing input of the address selection section of the electronic document sections of the data center is connected to the first synchronizing input of the technological platform, the address output of the address selection section of the electronic document sections of the data center is connected to the address input of the data center memory block, and the synchronizing output of the block selection addresses of sections of electronic documents of the data center is connected to the input of the unit for generating signals for reading and writing data, the unit for identifying sections of electronic documents, one information input of which is connected to the information output of the unit for selecting sections of electronic documents of the data center, the other information input of the unit for identifying sections of electronic documents is connected to the information output of the block for selecting addresses of electronic sections data center documents, the first synchronizing input of the electronic dock partition identification block of instruments is connected to the clock output of the electronic document section selection section of the data center, and the clock input of the electronic document section identification block is connected to the clock output of the read and write signal generation block, and the identification time interval determination block, the clock input of which is the second synchronization input of the technology platform designed to receive shear pulses, one clock input of the time interval determination unit in identification, it is connected to the first output of the identification section of the electronic document sections, the other synchronizing input of the identification time interval determination unit is connected to the second output of the identification sections of the electronic document identification section, the first output of the identification time intervals identification block is the signal output of the technology platform, intended for issuing signals about unauthorized attempts access to sections of the document, the second output of the unit for determining time intervals and the identification is connected to the second synchronizing input of the identification section of the electronic document sections, and the third output of the identification time interval determination unit of the identification is connected to the shift control input of the identification section of the electronic document sections, while the third output of the identification section of the document section is connected to the second synchronizing input of the selection section of the address section of electronic documents data center.

The invention is illustrated by drawings, where in FIG. 1 is a structural diagram of a technological platform; FIG. 2 is a block diagram of a section for selecting sections of electronic documents of a data center, FIG. 3 is a block diagram of an identification section of electronic documents; FIG. 4 is a block diagram of an identification time interval determination unit; FIG. 5 is a block diagram of the selection of addresses of sections of electronic documents; FIG. 6 is a structural diagram of a unit for generating read and write data signals; FIG. 7 is a block diagram of an input data switching unit; FIG. 8 is a block diagram of an output data switching unit.

The technological platform (Fig. 1) contains block 1 for selecting sections of electronic documents of the data center, block 2 for identifying sections of electronic documents, block 3 for determining identification time intervals, block 4 for selecting addresses of sections of electronic documents, block 5 for generating signals for reading and writing data, block 6 memory of the data center, block 7 switching input data and block 8 switching output data.

The drawing shows the first 11 and second 12 information inputs of the technological platform, a group of 13-15 information inputs of the system, synchronizing 16 and clocking 17 inputs of the technological platform, as well as a group of 19-21 information outputs of the technological platform, and signal 22 output of the technological platform.

Block 1 (Fig. 2) contains a register 25, a decoder 26, a memory block 27, made in the form of read-only memory, elements 28-30 And, elements 31, 32 delay. The drawing shows information 11, synchronizing 16 inputs, as well as information 34, synchronizing 35 and a group of 36-38 control outputs.

Block 2 (Fig. 3) contains a register 40, a comparator 41, elements 42-43 OR. The drawing also shows the first 45 and second 46 information inputs, the first 47 and second 48 clock inputs, the shift control input 49, the clock input 50, as well as the first 52, second 53 and third 54 outputs.

Block 3 (Fig. 4) contains counters 56, 57, trigger 58, element 59 AND, and element 60 OR. The drawing shows a clock input 17, synchronizing 62 and installation 63 inputs, as well as signal 22, first 65 and second 66 synchronization outputs.

Block 4 (Fig. 5) contains registers 70, 71, a decoder 72, a memory block 73, made in the form of read-only memory, elements 74-76 AND, elements 77, 78 delay. The drawing shows information 12, first 79 and second 80 synchronization inputs, as well as information 81, address 82 and synchronizing 83 outputs.

Block 5 (Fig. 6) contains triggers 85, 86, elements 87-89 AND, elements 90, 91 delay. The drawing shows the timing 93 and timing 94 inputs, as well as timing 95, first 96, second 97 and third 98 timing outputs.

Block 6 (Fig. 1) is made in the form of random access memory of a data center having an address 100 and information 101 inputs, an input 102 for controlling data reading and an input 103 for managing data recording, as well as an information 104 output.

Block 7 (Fig. 7) contains a group of 105-107 AND elements, as well as a group of 108 OR elements. The drawing shows a group of 13-15 information inputs of the block, a group of 110-112 synchronizing inputs of the block, as well as information 113 output.

Block 8 (Fig. 8) contains a group of 115-117 elements I. The drawing shows the information input 120 of the block, the group 121-122 of the control inputs of the block, synchronizing 124 the input of the block, and the group 19-21 of the information outputs of the block.

The technology platform works as follows.

In the system of interagency electronic interaction, a group of users of the relevant departments is working on the creation of various sections of electronic documents that are prepared at the request of the relevant government bodies.

The fundamental requirement for such an organization of work of various departments is strict confidentiality, in which each department should have access only to those sections of the documents for which it is entrusted with preparing the relevant data. At the same time, access to viewing other sections of the same document to users of these departments should be blocked.

For this purpose, during the work of departments, register 25 of block 1 from the information input 11 of the system receives a user identification code from the system input 16 from the input 16 of the system, and the register 70 of block 4 from the information input 12 of the system receives the same synchronization signal from input 16 system through the input 79 of block 4 receives the code section of the document with which the user of this department will have to work. In addition, the synchronizing pulse from the input 16 of the system enters the input 94 of block 5 and then enters both the single input of the trigger 85 and the input of the element 87 I.

Considering the fact that before the arrival of this pulse, trigger 85 was in the initial state, in which a low potential was formed at the unit output, which closes the 87 And element at one input, then the synchronizing pulse from input 94 through the 87 And element will not pass. Thus, under the influence of the first synchronizing pulse, the trigger 85 is set to a single state.

In parallel, from the output of the register 25 of block 1, the user identification code is sent to the information input of the decoder 46, and the synchronizing pulse of the system input 16 is delayed by the delay element 31 for the time the user identification code is entered into the register 25 and the decoder 26 is activated, and then it goes to the inputs of the elements 28-30 I.

The decoder 26 decrypts the incoming code and prepares the signal path from the output of the delay element 31, opening one of the elements 28-30 I. For definiteness, we assume that a high potential is received at one input of the element 30 I. At the same time, the synchronizing pulse from the output of the element 31 block 1 state of the elements 28-30 I.

Considering the fact that only element 30 And will be open at one input, then passing this element And, the clock pulse arrives, firstly, at the read input of a fixed memory cell of read-only memory 27, where a set of consecutive document section numbers are stored, presented in the form binary-decimal codes, access to editing the contents of which is allowed to the user with this identification number.

The code of consecutive numbers of sections of the document, presented in the form of binary decimal codes, access to editing the contents of which is allowed to the user with this identification number, is read from the memory of block 27 and from output 34 goes to the information input 45 of block 2.

Secondly, the same read pulse from the output of element 31 is delayed by element 32 for the duration of reading the contents of a fixed ROM cell, and then from the output 35 of block 2 it goes to the synchronizing input 47 of block 2 and then to the synchronizing input of register 40, entering the serial number code into it sections of the document, presented in the form of binary decimal codes, access to edit the contents of which is allowed to the user with this identification number.

From the output of register 40, the first of the codes represented in the upper digits of the shift register 40 goes to one input of the comparator 41, to the other input 46 of which from the output 81 of block 4 the section code number requested for editing and also presented in binary comes from the output of register 70 decimal code. To synchronize the process of comparing codes in the comparator 41, a pulse is used from the input 47 of block 2, which passes through the OR element 42 to the synchronizing input of the comparator 41. If the codes of the register 70 of the block 4 and the upper bits of the register 40 match, then the signal 53 is generated at the output 53 of the comparator 41 which, firstly, passes to the input 63 of block 3 and then to the installation input of the counter 57, confirming its initial state, and secondly, passes the element 43 OR and from the output 54 of block 2 goes to the input 80 of block 4.

At this point in time, according to the code stored in the register 70 of block 4, the decoder 72 decrypts the code number of the requested section, giving out one of its outputs a high potential. For definiteness, we assume that a high potential is received at one input of element 75 I.

As a result of this, the synchronizing pulse from the input 80 of block 4 passes through the element 75 AND to the reading input of the fixed memory cell of the block 73 and reads its contents into register 71, where the read code is entered by the synchronizing pulse delayed by the element 77 during the reading of the code from the ROM 73.

In a fixed cell ROM 73 is stored the address code of the section of the document that the user calls for editing. After entering the code of the address of the document section in the register 71, this code from the output 82 of the block 4 is supplied to the address input 100 of the memory block 6, and the pulse from the output of the element 77, delayed by the element 78 while the address code was entered into the register 71, from the output 83 of the block 4 through the input 93 of block 5 passes through element 88 AND, open at the other input with high potential from the inverse output of trigger 86, to the output 96 of block 5 and then goes to the control input for reading data at the address set on the address 100 input of block 6.

From the output 104 of block 6, the read section of the document through the input 120 of block 8 is fed to one of the inputs of the elements And groups 115, 116 and 117, the other inputs of which are connected to the corresponding outputs of the decoder 26 of block 1. Given that in our example, the decoder 26 gave a high potential to Since the first output 36 is connected to the AND element 28, and with the input of 121 AND elements of group 115, the AND elements of 115 group will be open.

In parallel, the synchronizing pulse from the output of element 88 AND block 5 is delayed by element 91 while reading the section of the document from block 6 and then from the output 97 of block 5 through the input 124 of block 8 it enters the third input of the elements AND of group 115, overwriting the contents of the section of the document through output 19 of block 8 to the user's workstation, which proceeds to its processing.

After the editing process of the corresponding section of the document is completed, the user from his workstation again sends the user identification code to the register 25 of block 1, and the code of the processed document section as described above to register 70.

The only difference is that now the synchronizing pulse from input 16 through the input 94 of block 5 immediately passes the element 87 AND, and, firstly, goes to the single input of the trigger 86, setting it to a single state, in which the element 88 And will closed, and element 89 AND open.

At this point in time, the contents of the processed section of the document were also received from the user's workstation through the corresponding information input of the 13-15 group. For definiteness, suppose that such an information input is input 13, and the contents of the processed section of the document through elements 105 AND groups open at the other input with high potential from the output 36 of block 1, enters through the elements 108 OR groups and the output 113 of block 7 to the information input of the block 6 memories.

Secondly, the pulse from the output of element 87 through the output 95 of the block enters the input 50 of block 2, where the OR element 43 passes, and from the output 54 of block 2 it again enters the input 80 of block 4.

At this point in time, according to the code entered in the register 70 of block 4, the decoder 72 decrypts the code number of the processed section, giving out one of its outputs a high potential. In our example, high potential entered one input of element 75 I.

As a result of this, the synchronizing pulse from the input 80 of block 4 passes through the element 75 AND to the read input of a fixed memory cell of the block 73 and reads its contents into register 71, where the read code is entered by the synchronizing pulse delayed by the element 77 during the reading of the code from the ROM 73.

In a fixed cell ROM 73 is stored the address code of the section of the document that the user calls. After entering the code of the address of the document section in the register 71, this code from the output 82 of the block 4 is supplied to the address input 100 of the memory block 6, and the pulse from the output of the element 77, delayed by the element 78 while the address code was entered into the register 71, from the output 83 of the block 4 through the input 93 of block 5 now passes through the 89 And element, opened at the other input by high potential from the direct output of the trigger 86, to the output 98 of block 5 and then goes to the data recording control input from input 101 at the address set on the address 100 of the input of block 6.

In addition, the synchronizing pulse from the output of the 89 And element is delayed by the 90 element during the recording of the processed section of the document in the memory unit 6 and is supplied both to the installation inputs of the triggers 85 and 86, returning them to their original state, and to the installation inputs of the registers and counters of the system. To simplify the drawing, the installation circuits of the registers and system counters are not shown in the drawing (Fig. 1).

If during the comparison by the comparator 41 of block 2, the input codes from the inputs 45 and 46 of block 2 did not match, then the comparator 41 generates a signal at the output 52, which, through the input 62 of block 3, goes to the single input of trigger 58 and sets it to a single state, when in which the high-potential trigger 58 opens the element 59 And, the input of which from the input 17 of the system is constantly supplied with shear pulses.

The shift pulses begin to flow through element 59 And, firstly, to the output 66 of block 3 and then to the input 49 of the shift register 40 of block 2, where the code in the register 40 is bitwise shifted.

Secondly, the shift pulses from the output of the element 59 AND are counted by the counter 56. The bit depth of the counter 56 is selected based on the dimension of the binary-decimal representation of the numbering of document sections so that after counting the specified number of shifts, as a result of which one section number in the upper bits of the register 40 the shift is replaced by the next one in order, an impulse appears at the output of the transfer of the counter 56, fixing the fact of presenting the next section number of the document.

This pulse, firstly, passes through the OR element 60 to the installation input of the trigger 58, returning it to its original state and blocking, thereby, the further passage of shear pulses through the element 59 I. Secondly, the transfer pulse from the output of the counter 56 goes to counter input counter 57, counting the number of presented numbers of sections of the document.

And finally, thirdly, the transfer pulse from the output of the counter 56 enters through the output 66 of block 3 to the input 48 of block 2, where the OR element 42 passes, and is again fed to the synchronizing input of the comparator 41, which compares the code from the input 45 of block 2 with the next code is the section number of the document from input 46.

If the compared codes coincided, then an output appears at the output 53 of the comparator 41 of block 2, and the process of the system is repeated as described above.

If the code of the document section number from the input 45 of block 2 and the next code in the upper bits of the register 70 from the input 46 of block 2 did not coincide again, then the pulse 52 appears again at the output 52 of block 2, which again sets the trigger 58 to unit 58 through the input 62 of block 3 the state in which the trigger 58 opens the element 59 And, and allows the passage of shear pulses from the input 17 to the output 66 and the counter 56. As a result, the described process of comparing codes from the inputs 45 and 46 is repeated.

If the section of the document requested by the user is not among the sections to which he is admitted, then after the comparison of all the codes that were in the shift register 40 is completed, the counter 57, which counts the number of presented permitted sections of the document, will record the fact that the codes do not match by issuing a transfer pulse at its exit. This pulse, firstly, through the output 22 of the system is issued as a signal of an attempt to unauthorized access to the corresponding section of a text document.

Secondly, through the OR element 60, it enters the installation input of the trigger 58, returning it to its original state and blocking, thereby, the passage of shear pulses through the element 59 I.

Thus, unlike well-known technical solutions, this technology platform provides reliable delimitation of user access to processed sections within the same electronic document.

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

1. RF patent No. 91640 (10.11.2009).

2. RF patent No. 108170 (09/10/2011) (prototype).

Claims (1)

A technological platform for the integration of information resources of an interdepartmental electronic interaction system, comprising a section for selecting sections of electronic documents of a data processing center, the information and synchronizing inputs of which are the first information and synchronizing inputs of the technology platform, respectively, while the first information input of the technology platform is designed to receive user requests, and the first technological platform synchronization input is intended for receiving synchronization signals of entering user requests into the selection block of electronic document sections of the data center, and the control outputs of the group of the selection section of electronic documents of the data center are connected to the corresponding control inputs of the input and output data switching blocks, respectively, the data center memory block, the output of which connected to the information input of the output data switching unit, the outputs of which are the information outputs of the technology group urological platform, a unit for generating signals for reading and writing data, the clock input of which is connected to the first synchronizing input of the technological platform, the first synchronizing output for the unit for generating signals for reading and writing data is connected to the input for controlling the reading of data in the memory block of the data center, and a second synchronizing output for the unit for generating signals reading and writing data is connected to the synchronizing input of the output data switching unit, and the third synchronizing output is and the formation of read and write data signals is connected to the data recording control input block of the data center memory block, while the information inputs of the input data switching unit group are the information inputs of the system group, and the input data switching unit output is connected to the information input of the data center memory unit, characterized in that the technological platform comprises a block for selecting addresses of sections of electronic documents of a data processing center, the information input of which is the second information input of the technological platform, designed to receive the section code of an electronic document from the user's workstation, the first synchronizing input of the address selection section of the electronic document sections of the data center is connected to the first synchronizing input of the technological platform, the address output of the address selection section of the electronic document sections of the data center connected to the address input of the data center memory block, and the synchronizing output d the selection block of the addresses of the sections of electronic documents of the data center is connected to the synchronizing input of the block for generating signals for reading and writing data, the identification block of the sections of electronic documents, one information input of which is connected to the information output of the block of the selection of sections of electronic documents of the data center, the other information input of the identification block sections of electronic documents is connected to the information output of the block of selection of addresses of sections of electronic documents in the data center, the first synchronizing input of the electronic document section identification block is connected to the synchronizing output of the electronic document section selection section of the data center, and the clock input of the electronic document section identification block is connected to the clock output of the read and write signal generation block, and the time determination unit identification intervals, the clock input of which is the second synchronizing input of the technological platform, To receive shear pulses, one clock input of the identification time interval determination unit is connected to the first output of the electronic document section identification unit, another synchronization input of the identification time interval determination unit is connected to the second output of the electronic document section identification unit, the first output of the identification time interval determination unit is the signal output of the technology platform, designed to provide signals of attempts to carry access to the sections of the electronic document, the second output of the identification time interval determination unit is connected to the second synchronizing input of the identification section of the electronic document sections, and the third output of the identification time interval determination unit is connected to the shift control input of the identification section of electronic documents, the third output of the identification unit sections of electronic documents is connected to the second synchronizing input of the block for selecting addresses of electronic sections electronic documents of the data center.

Images