RU2546238C1 - Method for transliteration conversion of information and transmission thereof over communication lines - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: method for transliteration conversion of information and transmission thereof over communication channels includes receiving a structured message and breaking down said method into parts. A first part is broken down into two different data units, to which control information is added to obtain transliteration matrix row and column coordinates, from which a matrix cell corresponding to the first part of the message is selected. A semantic expression is extracted and transmitted, from the selected cell, to a communication channel, the semantic expression being used to determine cells available for converting the second part of the message. The second part is broken down into two different data units with addition of control information to obtain row and column coordinates for selecting a matrix cell from which a semantic expression is extracted, which corresponds to the second part of the message, and said expression is transmitted to a communication channel. The selected semantic expression is used to determine cells which are available for converting the third part of the message, wherein the third and subsequent parts are converted in the same manner as the second part.

EFFECT: high reliability of transmitting structured messages, achieved by validation of transmission of structured units.

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Description

The invention relates to computer technology, in particular to means for ensuring the transmission of information through communication channels.

There is a method of transliteration converting information and transmitting it through communication channels (see RF patent No. 2159507 "Node encoding and / or decoding information, information transmission system with channel multiplexing, information transmission system in a telecommunications network", publ. 20.11.2000), which consists in in receiving information received at the input of the node, converting it using raster coding and control units into formats of external devices and transmitting it to the communication channel. The specified method is the closest in technical essence to the claimed method and is therefore selected as a prototype.

The disadvantage of the prototype is its low reliability, due to the impossibility of verifying the correct transmission of structured blocks over communication channels in the event of their change and the ability of an attacker to filter a graph containing structured messages.

The technical problem to be solved is to create a method for transliterating information conversion and transmitting it through communication channels with increased reliability.

The technical result achieved is the verification of the correctness of the transmission of structured blocks and the inability to filter the traffic containing structured messages through the use of transliteration coding.

In order to achieve a technical result in a method for transliterating information and transmitting it over communication channels, the method comprises receiving a structured message that is converted and transmitted to a communication channel, characterized in that an additional pre-formed transliteration matrix consisting of cells is additionally introduced, each of which corresponds to the semantic expression, the structured message is transformed by breaking it into parts, while the first part is broken and two equal data blocks, to each of which add the corresponding control information fields formed from data blocks to obtain the coordinates of the row and column of the transliteration matrix, from which the cell of the transliteration matrix corresponding to the first part of the structured message is selected, after which it is extracted and carried out from the selected cell transmitting to the communication channel a semantic expression that is used to determine the set of cells that are valid for converting the second part of the structured message similarly to the first part, while the second part is divided into two equal data blocks with the addition of control information fields to obtain the coordinates of the row and column for selecting the transliteration matrix cell, if the selected cell does not match the allowable set, changes are made to the corresponding control information fields to obtain the coordinates of the row and column corresponding to an allowable set of cells, according to the obtained coordinates, select the transliteration matrix cell from which the semantic expression is extracted, respectively etstvuyuschee second portion structured message and transmit it to the communication channel selected semantic expression used for determining a plurality of cells which are allowed to convert a third portion structured messages, thus converting the third and subsequent parts of the message is carried out similarly to the second part of the structured communication.

The indicated set of essential features makes it possible to increase the reliability of the transmission of structured messages through communication channels by forming a logically connected semantic expression indistinguishable from the general information flow and preventing the possibility of filtering messages by their characteristic structure.

The invention is illustrated by the figure, which shows a block diagram of a device for implementing the method using a computer or computing device.

A device for implementing the inventive method comprises a series-connected structured message input unit 1, a conversion unit 2, and a semantic information output unit 3. The second and third outputs of the conversion unit 2 are connected to the first and second inputs of the control information field forming unit 4, the first and second outputs of which are connected with the first and second inputs of the coordinate formation unit 5, the third and fourth inputs of which are connected to the second and third inputs of the transformation unit 2, the second input of which is connected with the first output of the transliteration matrix storage unit 6, the second output, the first and second input of which are connected respectively to the fifth input, the first and second outputs of the coordinate generation unit 5, the input / output of the transliteration matrix storage unit 6 is connected to the input / output of the formation unit of the set of valid values 7.

According to the proposed method, the device operates as follows. Using block 1 (an alphanumeric information input device, such as that described in Klingman E. Designing Specialized Microprocessor Systems. - M .: Mir, 1985), a structured message is input into the device, which is fed to the input of conversion block 2 ( Zagner G. Electronic Systems. Theory and Application. - M .: Mir, 1980), which divides the structured message into parts and dividing the first part into two equal data blocks, which, using the first and second outputs of conversion block 2, are input into the block of formation coordinates 5 (Klingman E. Designing specialized microprocessor systems. - M .: Mir, 1985) and a block for generating control information field 4 (Klingman E. Designing specialized microprocessor systems. - M.: Mir, 1985), which using one of the schemes receiving the checksum (CRC32, GOST R34.11-1991, etc.), forms the first and second values of the control information fields for the corresponding blocks from the first and second data blocks, the first data block and the first value of the control information field are combined in the block 5 anija coordinates in the first coordinate and the second data block and a second value of the control information field - in a second coordinate obtained by the coordinate matrix address of the cell storage unit transliteration 6 (Klingman E. Design specialized microprocessor systems. - M .: Mir, 1985), from which the semantic expression corresponding to the first part of the structured message is extracted, and transmitted to conversion unit 2 to generate output information. The coordinates of the addressed cell are transferred to the block for generating the set of valid values 7 to ensure the conversion of the second part of the structured message, the conversion of which occurs in the same way, with the only difference that if the coordinates generated using the second part of the structured message do not fall into the set of valid values defined by the block the formation of the set of permissible values 7, there is a change of coordinates and re-addressing of the storage unit of the transliteration matrix 6. These actions occur many times as necessary to obtain the desired result. After processing all parts of the structured message in the conversion unit 2, a complete semantic expression is generated corresponding to the input structured message, which is transmitted to the output unit of semantic information 3 for its subsequent transmission to the communication channel.

The implementation of this method improves the reliability of the transmission of structured messages through communication channels due to the formation of a logically connected semantic expression, indistinguishable from the general information flow, and by not making it impossible to filter messages according to their characteristic structure, while the control algorithm can be flexibly configured depending on the composition and lengths of structured messages.

Thus, the method provides increased reliability by forming a logically related semantic expression, indistinguishable from the general information flow and not allowing the possibility of filtering messages by their characteristic structure.

A laboratory mock-up of a device is implemented that implements this method of transliteration converting information and transmitting it through communication channels, tests of which confirmed the feasibility and practical value of the proposed method.

Claims (1)

A method for transliterating information and transmitting it over communication channels, the method comprising receiving a structured message, which is converted and transmitted to a communication channel, characterized in that it additionally introduces a pre-formed transliteration matrix consisting of cells, each of which corresponds to a semantic expression , the structured message is transformed by splitting it into parts, while the first part is divided into two equal data blocks, to each of the cats they add the corresponding control information fields formed from data blocks to obtain the coordinates of the row and column of the transliteration matrix, from which the cell of the transliteration matrix corresponding to the first part of the structured message is selected, after which the semantic expression is extracted from the selected cell and used to determine the set of cells acceptable for converting the second part of the structured message similarly to the first part, while the second part They are divided into two equal data blocks with the addition of control information fields to obtain the row and column coordinates for selecting the transliteration matrix cell; if the selected cell does not match the allowable set, changes are made to the corresponding control information fields to obtain the row and column coordinates corresponding to the allowable set of cells, based on the obtained coordinates, select the transliteration matrix cell, from which the semantic expression corresponding to the second part is structured a message and transmit it to the communication channel selected semantic expression used for determining a plurality of cells which are allowed to convert a third portion structured messages, thus converting the third and subsequent parts of the message is carried out similarly to the second part of the structured communication.