RU2686821C1 - Information reception device by the three parallel communication channels in the data transmission system with decisive feedback - Google Patents

Abstract

FIELD: communication equipment.SUBSTANCE: invention relates to the communication equipment and computer equipment. To achieve the technical result, the invention is implemented using the three input blocks, the majority block consisting of three AND elements and one OR element, and also contains six adders, four decoders, analyzer, key, negative acknowledgements block, and output block.EFFECT: technical result of the invention is to enabling the data transmission channels current quality control, selecting the best of them and minimizing the likelihood of undetected errors in the received data by using the three-channel information transfer with the effective majority logic application.1 cl, 1 dwg

Description

The invention relates to communication technology and computing technology and can be used in data transmission equipment used in highly reliable territorial automated control systems operating under the influence of electromagnetic interference. At the same time, the quality of data transmission should be high, and the probability of undetected errors is minimal.

A device is known for receiving information on two parallel communication channels [USSR author's certificate No. 473314 of class H04L 1/16 for 1975], containing a modulo two adder, a key, a first and second reliability increasing blocks, a resend block, an output device, an information output devices and information inputs of the first and second channels, the key is connected to the input of the output device.

The disadvantages of the known device is the lack of control over the quality of data reception, the relatively high probability of undetected errors in the received data and the high probability of the occurrence of a data recall signal.

The closest in technical essence to the claimed device is a device for receiving information with increased reliability [patent for invention No. 2530335 class H04L 1/16 for 2013], containing the first and second input blocks (bl), the first element (e), e-OR, the first modulo-two adder (m2), three decoders, an analyzer, a key, a resend block and an output block, the inputs of the first and second input blocks corresponding to the first and second information inputs of the device, the output of the first input block is connected to the first inputs of the first el and and the adder m2 and the input of the first decoder, the first and second outputs of which are connected respectively to the first inputs of the analyzer and the key, the output of which through the output block is connected to the information output of the device, the output of the second input block is connected to the second inputs of the first electronic AND and adder m2 and the input of the second the decoder, the first and second outputs of which are connected respectively to the second inputs of the analyzer and the key, the first and second outputs of the third decoder are connected respectively to the third inputs of the analyzer and the key, the output of the first cy Matora m2 is connected to a fourth input of the analyzer, first and second outputs which are respectively connected to fourth input key and the input plaque repeated, the output of which is the output signal repeated device.

However, the known device does not provide high reliability of inter-object exchange, monitoring the quality of data transmission channels, choosing the best of them and, as a result, minimizing the likelihood of undetected errors in the received data.

The technical result and purpose of the claimed invention is to eliminate the drawbacks of the prototype - ensuring the current quality control of data transmission channels, choosing the best of them and, as a result, minimizing the likelihood of undetected errors in received data by using three-channel information transfer using effective majority logic.

This technical result is achieved by the fact that the device receiving information on three parallel communication channels in the system for transmitting data with a decisive feedback, containing the first and second input blocks (bl), the first element (e), EL, or the first modulo two (m2), three decoders, an analyzer, a key, repeat requests and an output block, with the inputs of the first and second input blocks corresponding to the first and second information inputs of the device, the output of the first input block is connected to the first inputs of the first electronic AND and adder 2 and the input of the first decoder, the first and second outputs of which are connected respectively to the first inputs of the analyzer and the key, the output of which through the output block is connected to the information output of the device, the output of the second input block is connected to the second inputs of the first electronic AND and adder m2 and the input of the second decoder, The first and second outputs of which are connected respectively to the second inputs of the analyzer and the key, the first and second outputs of the third decoder are connected respectively to the third inputs of the analyzer and the key, the output of the first adder m2 with Dinene with the fourth input of the analyzer, the first and second outputs of which are connected respectively to the fourth key input and the input of the reshare bl, the output of which is the output of the device's reshoot signal, additionally contains the third input bl, the fourth decoder, the second and third EL and five adders m2, and the output of the first electronic AND connected to the first input of the electric OR, the second input of which is connected to the output of the second electric AND, the first and second inputs of which are connected respectively to the outputs of the first and third input BL, the output of the electric OR connected with the input of the third decoder and with the first inputs of the second, third and fourth adders m2, the outputs of which are connected respectively to the fifth, sixth and seventh inputs of the analyzer, the eighth and ninth inputs of which are connected respectively to the outputs of the fifth and sixth adders m2, the third input is al OR connected to the output of the third el And, the first and second inputs of which are respectively connected to the outputs of the second and third input bl, the output of the third input bl is connected to the first inputs of the fifth and sixth and the second input of the fourth adders m2 and with the input of the fourth decoder, the outputs of which are connected respectively to the fifth key input and the tenth analyzer input, the second inputs of the second and fifth m2 adders are connected to the output of the first input bl, the second inputs of the third and sixth m2 adders are connected to the output of the second input bl, third output the analyzer is the output of information about the channel status of the device, with the first, second and third electro AND and EL OR form the majority unit.

The drawing shows a block diagram of a device for receiving information on three parallel communication channels in a system for transmitting data with decision feedback.

The device contains input blocks 1, 2 and 3, one in each channel, the elements AND 4, 5 and 6, the element OR 7 included in the majority block 8, the adders modulo two 9, 10, 11, 12, 13 and 14, decoders 15, 16, 17 and 18, the analyzer 19, the re-interrogation unit 20, the key 21, the output block 22, the information output 23 of the device, the output 24 of information about the state of the communication channels, the output 25 of the re-interrogation signal and the information inputs 26, 27 and 28 respectively the second and third communication channels of the device.

The elements used in the device (with the exception of the analyzer 19) are widely used in the Russian Federation. The analyzer 19 can also be implemented on the simplest elements of wide use or on the basis of the processor. The logic of his work will be disclosed in the description of the operation of the device.

A device for receiving information on three parallel communication channels 26, 27 and 28 in a system for transmitting data with decision feedback, containing the first and second input blocks (bl) 1 and 2, the first element (el) AND 4, the elector OR 7, the first adder 10 modulo two (m2), three decoders 15, 16 and 18, analyzer 19, key 21, repeat block 20 and output block, 20 with the inputs of the first 1 and second 2 input blocks corresponding to the first and second information inputs of the device, the output of the first input block 1 is connected to the first inputs of the first eli 4 and adder 10 m2 and the input of the first d decoder 15, the first and second outputs of which are connected respectively to the first inputs of the analyzer 19 and the key 21, the output of which through the output block 22 is connected to the information output 23 of the device, the output of the second input block 2 is connected to the second inputs of the first eli 4 and adder 10 m2 and the input of the second decoder 16, the first and second outputs of which are connected respectively to the second inputs of the analyzer 19 and the key 21, the first and second outputs of the third decoder 18 are connected respectively to the third inputs of the analyzer 19 and the key 21, the output of the first adder 10 m 2 is connected to the fourth input of the analyzer 19, the first and second outputs of which are connected respectively to the fourth input of the key 21 and the input of the prompting unit 20, the output of which is the output 25 of the device recall signal, additionally contains the third input block 3, the fourth decoder 17, the second 5 and the third 6 eli and five adders 9, 11, 12, 13 and 14 m2, and the output of the first eli 4 is connected to the first input of elector OR 7, the second input of which is connected to the output of the second eli 5, the first and second inputs of which are connected respectively to the outputs of the first 1 and the third 3 one block, the output of the elector OR 7 is connected to the input of the third decoder 18 and the first inputs of the second 9, third 12 and fourth 14 adders m2, the outputs of which are connected respectively to the fifth, sixth and seventh inputs of the analyzer 19, the eighth and ninth inputs of which are connected respectively to the outputs of the fifth 11 and sixth 13 adders m2, the third input EL OR 7 is connected to the output of the third ele 6, the first and second inputs of which are respectively connected to the outputs of the second 2 and third 3 input blocks, the output of the third input block 3 is connected to the first inputs of the fifth 11and the sixth 13 and with the second input of the fourth 14 adders m2 and with the input of the fourth decoder 17, the outputs of which are connected respectively to the fifth input of the key 21 and 10 input of the analyzer 19, the second inputs of the second 9 and fifth 11 adders m2 are connected to the output of the first input block 1, the second inputs of the third 12 and sixth 13 adders m2 are connected to the output of the second input block 2, the third output of the analyzer 19 is the output 24 of the channel status information of the device, with the first 4, the second 5 and the third 6 EL and EL OR 7 forming the majority bl 8 devices.

The device works as follows. Three streams of bits of the same data received on three channels 26, 27 and 28 arrive at the inputs of input blocks 1, 2 and 3 and go in three directions:

- to the majority scheme 8, which includes three elements AND 4, 5, 6 and element OR 7. The majority scheme on its output returns a bit that matches the value on most inputs. For example, when applying to the inputs of the circuit "110", it will output "1". The bit at the output of the majority scheme 8 will be the most likely, given the interference in the communication channels. The resulting bit is fed to the input of the decoder 18, where the received data is decoded, the result of the decoding through the control output of the decoder 18 enters the analyzer 19.

- to the decoders of each of the channels 15, 16 and 17. When the decoder's buffer is full, the received bit sequence is decoded. The decoding results of the codogram in each of the channels are sent to the corresponding inputs of the analyzer 19.

- in the adders modulo two 9, 10, 11, 12, 13, 14 for verification. With the help of these modulo-two adders, mutual bit-by-bit testing is performed for errors in each of the channels, and with the help of modulo-two adders, two 9, 12 and 14 are compared with the bit at the output of the majority scheme (most probable). The results of the mutual verification of the received data in modulators modulo two 9, 10, 11, 12, 13, 14 enter the analyzer 19. According to the results of the verification and after the decoding of the received codogram in the decoders 15, 16, 17 and 18, the analyzer 19 concludes which channel came true or incorrect codogram.

If all three combinations from the three channels arrived without errors, then, according to the analysis of the situation in the analyzer 19, the adopted combination through the key 21 goes to the output block 22. At the same time, the combination from the channel with the best statistics on the probability of errors is output. In the analyzer 19 is the counting of errors according to the results of decoding received data. Since there are fewer errors in the best channel, the probability of undetected errors in the end will be less at the output of the presented device. In the considered device, the situation of high-quality data reception is achieved.

The data at the output of the decoder 18 is considered the most reliable, since from the output of the majority scheme 8, the bitstream is more probable (matched in three and at least two channels). If this stream of bits from the output of the majority scheme 8 was successfully decoded - the received data at the output of decoder 18 should be considered as the most reliable.

If in the majority scheme 8 pairwise matching of the bits of the first channel with the second, the first with the third and the second with the third revealed a discrepancy of some part of the bits, in the codogram, which, as a result, most likely will not be decoded in the decoder 18, the probability of correct reception of the codogram remains in one of the channels by the decoder 15 or 16 or 17. In this case, the correct decoding of the waveform in one of the decoders 15, 16 or 17 is the basis (taking into account the high error detecting properties of the code used) to receive the decoded codogram and transmit it to the output of the output block 22.

If the codogram is decoded correctly in more than one of the decoders 15, 16 or 17, a codogram from the channel that has the best statistics on the probability of errors will be output to the device.

Bit-by-bit analysis of the received data is carried out by matching the data bits in the modulators two 10, 11, 13. The results of the matching of the received data are transmitted to the analyzer 19, where the statistics of the quality of the first, second and third channel operation are accumulated.

Bit-by-bit analysis of the received data is also carried out by matching the data bits in the modulo two 9, 12, 14. Here, the bits of the received data are matched with the data bits from the output of the majority scheme 8. The results of the matching of the received data are transmitted to the analyzer 19, where the statistics of the channel performance quality is accumulated first, second and third.

The decoding results of the received data in decoders 15, 16, 17 (taking into account the high errors of the detecting properties of the code used) are the basis for transmitting a correctly received codogram via key 21 to the output 23 of the output block 22. At the same time, if the codogram was decoded correctly in two or three decoders simultaneously, the output 23 of the device is transmitted codogram from the channel having the best statistics on the probability of errors.

The decoding results of the received codograms in the decoders 15, 16, 17 and 18 are transmitted to the analyzer 19, where the statistics of the quality of the first, second and third channel operation are accumulated.

If the received codogram from the three channels was not decoded successfully in any of the decoders, then no information is output to the output, but the questioning is performed through the re-interview unit 20.

The use of the best of channels when receiving data in the current period of time in the conditions of overwhelming electromagnetic interference by means of electronic countermeasures allows data exchange with the highest possible quality to be performed in the automated control system. The proposed device for receiving information on the three communication channels also minimizes the probability of an undetected error due to the use of the best channel in each time period.

The results of the current analysis of the communication channels in the analyzer 19, both in the event of a failure of the communication channels and monitoring the quality of the communication channels at the level of received bits and at the level of received codograms, are transmitted to service personnel 24 to take the required decisions if necessary.

Claims (1)

A device for receiving information on three parallel communication channels in a system for transmitting data with decision feedback, containing the first and second input blocks (bl), the first element (el) AND, el OR, the first modulo two (m2), three decoders, analyzer, key, repeat requests and output block, with the inputs of the first and second input blocks corresponding to the first and second information inputs of the device, the output of the first input block is connected to the first inputs of the first electronic AND and adder m2 and the input of the first decoder, the first and second outputs to The first is connected respectively to the first inputs of the analyzer and a key, the output of which through the output block is connected to the information output of the device, the output of the second input block is connected to the second inputs of the first electronic AND and adder m2 and the input of the second decoder, the first and second outputs of which are connected respectively to the second inputs the analyzer and the key, the first and second outputs of the third decoder are connected respectively to the third inputs of the analyzer and the key, the output of the first adder m2 is connected to the fourth input of the analyzer, the first and second the outputs of which are connected respectively to the fourth key input and the input of the bridging queries, the output of which is the output of the device recall signal, characterized in that the device additionally contains the third input bl, the fourth decoder, the second and third electric and five adders m2, and the output of the first electronic and connected to the first input of the electric OR, the second input of which is connected to the output of the second electric AND, the first and second inputs of which are connected respectively to the outputs of the first and third input BL, the output of the electric OR is connected to the input of the third the encoder and the first inputs of the second, third and fourth adders m2, the outputs of which are connected respectively to the fifth, sixth and seventh inputs of the analyzer, the eighth and ninth inputs of which are connected respectively to the outputs of the fifth and sixth adders m2, the third input is al OR connected to the output of the third el And, the first and second inputs of which are respectively connected to the outputs of the second and third input blocks, the output of the third input block is connected to the first inputs of the fifth and sixth and to the second input of the fourth adder m2 and to the input four that decoder whose outputs are connected respectively to the fifth key input and the tenth analyzer input, the second inputs of the second and fifth m2 adders are connected to the output of the first input block, the second inputs of the third and sixth m2 adders are connected to the output of the second input block, the third output of the analyzer is information output about the state of the channels of the device, with the first, second and third power sources AND and power OR form the majority bl of the device.

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