RU2689809C1 - Device for reception of information on two parallel communication channels in data transmission system with decision feedback - Google Patents

Abstract

FIELD: calculating; counting.SUBSTANCE: invention relates to computer engineering. Device comprises: inputs of first and second channels, connected, respectively, to inputs of input units of first and second channels; reliability enhancement units; unit for generating interrogation signals; an information signal key, wherein first outputs of the first and second reliability enhancement units are informational; channel state analyzer and two counters for counting the number of transmissions, wherein information outputs of the first and second reliability enhancement units are respectively connected to the first and second inputs of the information output switch, control input of the switch is connected to the output of the channel state analyzer, the control outputs of the first and second reliability enhancement units are connected to the channels current state analyzer inputs, channel status analyzer second output is connected to the interrogation signal generating unit input, third output of analyzer of current state of channels is connected to inputs of zeroing of first and second counters of data bits received with low quality in first and second communication channels.EFFECT: technical result consists in improvement of reliability of receiving data.1 cl, 1 dwg

Description

The invention relates to communication technology and can be used in data transmission systems.

A device is known for receiving information on two parallel communication channels [Author's certificate No. 473314 according to IPC H04L 1/16 dated June 14, 1972, as of June 6, 1975], containing blocks for increasing reliability, information inputs from two communication channels, information output and a reshoot signal output. This device for receiving information does not provide the necessary accuracy of receiving information.

Closest to the proposed device is a device for receiving information on two parallel communication channels [Copyright certificate of the Russian Federation No. 2543469, class H04L 1/16, dated 12/20/2012], containing the input blocks of the first and second channels, blocks improving the reliability of the first and second channels, the signal generation unit of the reshoot and its corresponding output, the key of the information signal with the corresponding information output.

This device for receiving information also does not provide the necessary reliability of reception of information, as it does not ensure the operational selection of the best channel of the two according to the results of their current status monitoring. In terms of use in territorial automated control systems of real-time two parallel communication channels to ensure a given reliability of operation of such automated control systems during their operation, the situation may vary depending on external factors affecting. And also on what are the used communication channels (wired, radio, radio relay, tropospheric, space, etc.). External influencing factors may be: thunderstorm, industrial radio interference, natural radio interference, intentional interference from the enemy, etc.

Thus, the quality of data transmission over parallel communication channels may vary significantly. The communication channel is initially quality, the best of the two used, with changes in external conditions it may turn out to be less quality. Choosing the best of two channels at the moment and using it as the main one allows improving the quality of data transmission by reducing the number of detected errors, correspondingly reducing the number of inquiries, increasing throughput and reducing the likelihood of undetected errors in the received data. In the best channel, the likelihood of data corruption is lower, the probability of undetected errors is equally lower. The choice of the best of two parallel channels at the current time allows improving the reliability of data transmission.

The technical result and the purpose of the invention is to increase the reliability of data reception by selecting for receiving data the best of the two channels according to the results of comparing their current state, with simultaneous selection of a correctly received codogram from an unused channel in cases of not receiving codograms from the channel selected as the main one.

These technical result and goal is achieved by the fact that in a device for receiving information on two parallel communication channels in the data transmission system with decision feedback, containing the input blocks of the first and second channels, blocks to increase the reliability of the first and second channels, the signal generation unit of the repres and key information signal of the output, while the first outputs of the first and second reliability enhancement blocks are informational, and the second ones are outputs that characterize the quality of receiving data packets, up to The analyzer of the current state of the channels and two counters were added to count the number of parcels received by the input blocks with low quality. The information output of the first input unit is connected to the input of the first reliability enhancement unit, the information output of the second input unit is connected to the input of the second reliability enhancement unit, and the output of the accompanying reception quality signal by the first input unit is connected to the input of the first data bit counter, received with low quality, the output of the accompanying the reception quality signal by the second input unit is connected to the input of the second counter of data bits received with low quality; the outputs of the first and second counters are connected to the analyzer inputs of the current channel status. The information outputs of the first and second reliability upgrades are connected respectively to the first and second inputs of the output information signal key, and the control input of the key is connected to the output of the analyzer of the current channel status. The control outputs of the first and second reliability upgrades are connected to the inputs of the analyzer of the current state of the channels, the second output of the analyzer of the current status of the channels is connected to the input of the re-interrogation signal generation unit. The third output of the analyzer of the current state of the channels is connected to the inputs for zeroing the first and second counters of data bits received with low quality in the first and second communication channels. The key output of the information signal is the information output of the device.

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

The device contains: input 1 of the first channel, input 2 of the second channel, input block 3 of the first channel, input block 4 of the second channel, first counter 5 of the first channel, second counter 6 of the second channel, analyzer 7 of the current state of the channels, block 8 for increasing the reliability of the first channel, block 9 to increase the reliability of the second channel, the key 10 channel selection, the information output 11 of the device, block 12 of the formation of the signal re-questioning, the output 13 of the signal re-interrogation.

The input signals 1 of the first and 2 second communication channels are fed to the input blocks 3 of the first and 4 second communication channels. The input blocks 3 and 4 are essentially signal conversion devices (modems), a standardized C2 junction of each of which with a reliability enhancement block contains a circuit 104 (“Received Data”) and a circuit 110 (“Data Signal Quality Detector”). The junction C2 is defined in the Russian Federation GOST 18145-92 and the international recommendation of ITU-T (CCITT) V.24. The information output of the first input unit 3 is connected to the input of the first reliability boosting unit 8, the information output of the second input unit 4 is connected to the input of the second reliability enhancing unit 9, and the output of the accompanying signal of the first input unit 3 is connected to the input of the first counter 5 of the number of bits received with poor quality on the first channel, the output of the accompanying signal of the second input unit 4 is connected to the input of the second counter 6 of the number of bits received with low quality on the second channel, the outputs of the first 5 and the second 6 counters are connected to the analyzer inputs of the current state of channels 7. The information outputs of the first 8 and second 9 reliability upgrades are connected respectively to the first and second inputs of the output information key 10, and the control input of the key 10 is connected to the output of the analyzer 7 of the current channel status. The control outputs of the first and second blocks increase reliability connected to the inputs of the analyzer 7 of the current state of the channels, the second output of the analyzer 7 of the current state of the channels connected to the input of the signal generation unit re-interrogation 12. The third output of the analyzer 7 of the current state of the channels connected to the inputs reset the first 5 and second 6 counters data bits received with low quality in the first 1 and in the second 2 communication channels. The output of the key 10 of the information signal is the information output of the device 11. The analyzer 7 is connected to the re-inquiry unit 12, which forms the corresponding signal at its output 13.

The device works as follows.

Two streams of received data bits from input devices 3 and 4, received via two channels (main and backup), which ensure synchronous arrival of bits in time to the reliability enhancement blocks 8 and 9 for their decoding in these blocks.

Counting the number of bits received with low quality over two channels is carried out by signals from input devices with counters 5 and 6. When one of the counters 5 or 6 from the analyzer 7 overflows, counters 5 and 6 receive a signal that resets them. In the analyzer 7, the fact of overflow of the counter 5 or 6 is remembered. The accumulation in the analyzer 7 of the facts of constant overflow of any of the counters 5 or 6 allows you to decide which communication channel is the highest quality in the current period of time, and it should be considered the main one. If the first channel 1 turns out to be more qualitative, then the signal from the analyzer 7 entering the key 10, provided that the received data is correctly decoded in the reliability enhancing block 8, the information output 11 through the key 10 transmits the received data from the reliability enhancing unit 8. If more the second channel 2 turns out to be qualitative, then the signal from the analyzer 7, provided that the received data is correctly decoded in the confidence increasing block 9, the received data is transmitted to the information output 11 via the key 10 s from block 9 to improve the reliability of the second channel.

If the first quality channel is currently considered the highest quality channel, but the waveform in this channel was decoded with an error, and in the second channel the decoding did not detect errors, the analyzer 7 opens the key 10 with a control signal for transmission to the information output 11 of the received soundgram from the second confidence block. channel 9. The device works in exactly the same way if the second communication channel is of higher quality. Information output 11 through the key 10 are transmitted correctly decoded codogram of the second channel. If in this second channel the codogram was decoded with an error, and in the first channel the decoding did not detect errors, the analyzer 7 opens the key 10 with a control signal for transmission to the information output 11 of the received codogram from the reliability enhancement unit 8 of the second channel.

If, in both channels, in the reliability enhancement blocks 8 and 9, the received codegram was decoded with errors, the analyzer 7 generates a signal in block 12 to generate a reshoot signal.

The inertia of the decision on the quality of the first and second channels is determined by the capacity of counters 5 and 6, in which the number of bits received from the first and second channels with low quality is accumulated. The decision about which of the two communication channels is currently the best is taken by the analyzer 7 based on a comparison of data on the current overflow statistics of counters 5 and 6. The frequency of overflow of the first 5 or second 6 counters is averaged in analyzer 7 taking into account the necessary inertia of acceptance decisions on the assignment of the first or second channel to the main channel determines the behavior of the device depending on the types and characteristics of the used communication channels.

The choice of the best of the two communication channels to work allows us to improve the quality of data transmission by reducing the overall likelihood of data distortion, reducing the number of re-queries and as a result reducing the time delay of data transmission (which is an important factor in the real-time ACS), as well as reducing the probability of undetected mistakes. In the stream of received data in the channel with the lowest probability of error, the probability of an undetected error is also less.

Claims (1)

A device for receiving information on two parallel communication channels in a data transmission system with decision feedback, containing the inputs of the first and second channels, associated respectively with the inputs of the input blocks of the first and second channels, blocks for increasing the reliability of the first and second channels, the signal generation unit of the reshoot and its the corresponding output, the key of the information signal and its information output, with the first outputs of the first and second blocks increase the reliability are informational, and the second - output The data output of the first input unit is connected to the input of the first reliability increase block, the information output of the second input block is connected to the input of the second reliability increase block, characterized in that the analyzer of the current channel status and two counters for counting the number of parcels received by the input blocks with low quality, and the output of the accompanying reception quality signal by the first input block is connected to the input of the first of the low-quality data bit counter, the output of the accompanying reception quality signal by the second input unit is connected to the second data bit counter input, received with low quality, the first and second meter outputs are connected to the current channel state analyzer inputs, the information outputs of the first and second blocks reliability enhancements are connected to the first and second key inputs of the output information signal respectively, and the key control input is connected to the output of the current state analyzer c, the control outputs of the first and second reliability modules are connected to the analyzer inputs of the current channel status, the second analyzer output of the current channels state is connected to the input of the re-interrogation signal generation unit, the third analyzer output of the current channels state is connected to zeroing inputs of the first and second bit counters received with low quality in the first and second communication channels.

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