SU946004A1 - Discrete information transmitting and receiving device - Google Patents

Description

(54) A DEVICE FOR TRANSMISSION AND RECEIVING DISCRETE INFORMATION .1 The invention relates to electrical communication and can be used for transmitting and receiving discrete information through channels with varying parameters. A device for transmitting and receiving discrete information is known, containing a transmitting node consisting of serially connected kgs, the second output and control input of which are connected respectively to the input and output of the storage device, the switch, the second output and the second input of which are connected respectively to the input and output the telecontrol command generation unit and the redundancy signal generation unit, the information inputs of the key and the accumulator are combined, and the receiving node consisting of serially connected b synchronization lock, error detection block and telecontrol command receiving block, channel quality analysis block, the input of which is connected to the second output of the detection block, an error, the information input of which is combined with the input of the synchronization block, the second output of which is connected to the divider input, and the output of the command receiving block remote control is connected to the auxiliary input of the transmitting node f1. However, when the known device operates under conditions of high level of short-term interference (deep and fast fading, interruptions, targeted interference), continuous and slow changes in the parameters of communication channels are observed, which increases the likelihood of false signs being issued to the consumer. The purpose of the invention is to improve the noise immunity of transmission with slow changes in the parameters of communication channels. The goal is achieved by the fact that a redundancy control unit is inserted into the transmitting node in the device, the output of which is connected to the control input of the redundancy signaling unit, and the output is connected to the switch iu ixoflOM switch. and a bpoc solution, connected in succession, with the information input of the reliability module combined with the information input of the error detection side, and the synchronization input connected to the third im yield MAHB synchronization output divider connected to the second input MAHB solution, yield MAHB analysis channel quality is connected to the third input of the decision block, the outputs of which are connected to respective inputs of a further switch. FIG. Figure 1 shows the structural design of the proposed device; - FIG. 2 is a block diagram for increasing confidence. The device for transmitting and receiving discrete information contains a transmitting node 1 consisting of key 2, accumulator 3, switch 4, bpock 5 generating telecontrol commands, block 6 generating redundancy signals, and receiving node 7 consisting of block 8 sync sync, error detection bypass 9, remote control command receiving unit 10, channel quality analysis block 11, depot 12, in addition, in the transmitting node 1, the redundancy control unit 13, in the receiving unit 7, the reliability improving block 14, analysis 15 information quality, block 16 solutions, as well as tires 17-19, reliability increasing block 14 consists of error detection block 20, error correction block 21, AND elements 22-24, NOT elements 25, 26, OR element 27 and memory block 28. The device works as follows. Bus 17 of the input signals of digital information via key 2 and switch 4 is fed to one of the redundancy signal generating units 6 and at the same time accumulate 3, the capacity of which is chosen from the condition S - where Tgj.p is the average value of the burst error rate; V is the speed of wiring. In the redundancy signal generation units 6, noise-resistant signals are generated, which are distinguished by different redundancies. In each subsequent time interval TQ, the redundancy control unit 13 connects one of the excess signal generating units that ensures, in the given time interval, a predetermined reliability of the received information due to the corresponding redundancy. The signal from block 6 of generating redundancy signals over bus 18 enters the communication channel. From the output of the communication channel, the bus 19 carries information to the inputs of the error detection unit 9, the synchronization unit 8 and the confidence increase unit 14. The synchronization unit 8 provides clock and cyclic synchronization by issuing pulse sequences to the error detection unit 9, the reliability increasing unit 14 and the divider 12 with a variable division factor. Unit 9 detects errors in the information sequence and provides information about them to channel quality analysis unit 11, which provides current monitoring of the channel status. For an objective assessment of the quality of the channel, the analysis time 1 should be 2050 seconds. The channel quality information is received at decision block 16, which also receives information about the reliability of the received codogram, assessed by the information quality analysis block 15. To the input of the information quality analysis unit 15, the signal arrives from the output of the communication channel via the bus 19 through the reliability increase unit 14. In block 14, the reliability enhancement uses redundancy of the transmitted signals to further enhance the reliability of the received information (partial error correction, accumulation, etc.). The implementation principle of this block depends on which method of protecting information from errors is used by correspondents. Information quality analysis is performed for the period determined by divisor 12 (and T s-Toi) -If the reliability of the received information is below the permissible threshold at this time interval, decision block 16 outputs a signal to switch 4, the information stops and the output of the block is turned on 5 remote control commands. Block 5 generates and repeatedly sends to the channel the command combination Repeat. In the absence of errors in the command combination, it comes from the output of the error detection block 9 to the block 10 for receiving telecontrol commands. Through several combinations of the block 10, the commands of the telecontrol give a signal to kpuch 2, by which repetition of the section of the codogram from accumulator 3 is allowed. The output of the information source is busted across the bus 17.

At discrete points in time, in block 16, a comparative analysis of the channel status information from the channel quality analysis block 11 and the quality of the received information from the information quality analysis block 15 is performed over a time interval T, and a decision is made.

The corresponding signals about changing the mode or changing the channel go to switch 4. The signal about changing the mode switches the transmitter 4 to the input of the redundancy control unit 13, by which it connects to the output of the switch 4 the corresponding redundancy signaling unit 6. The noise-resistant signal from the output of the latter enters the communication channel.

By the decision to change the channel, the corresponding command is transmitted to the correspondent, and the signals from the outputs of the decision blocks 16 and the telecontrol command receiving unit 10 are switched to the backup channel.

Block 14 works as follows.

The code combinations arrive at the input of two blocks 20 and 21, in which decoding is performed according to the principle of syndromic decoding, i.e. with the definition of the values of syndromes. Moreover, the signal at the output of block 20 appears if an error is detected in the received combination, and the signal at the output of block 21 appears if the syndrome is corrective.

If the combination is received without error (or with errors, undetected blocks 2 O and 21, in this case, the output signals of blocks 2 O and 21 are missing. The combination code from the other output of block 20 through elements 22 and OR 27 enters block 28 and issued to the consumer.

If the reception of combinations with errors is carried out by a fixable block 21, in this case, the error detection signal appears at the output of block 20 and the output of block 21 can be corrected. The corrected code combination from the second output of block 21 through the elements AND 23, OR 27 enters the block 28 and is given to the consumer. Information about the presence of signals, error detection and the possibility of correction is sent to block 15. If the combinations with errors detected by block 2O but not detected or are received. malfunctioning unit 21, in this case there is a signal at the output of block 2O and there is no signal at the output of block 21. Consequently, the elements AND 23 and AND 24 are open. The code combination recorded in block 28 through the elements AND 23 and OR 27 is erased by a signal from the output element 24. The information about erasing, the combination also goes to block 15.

The presence of two blocks 20 and 21 in the proposed device makes it possible to correct a part of the errors and at the same time ensures the likelihood of giving the consumer a false mark and exceeding a predetermined level.

Thus, by adjusting the signal redundancy depending on the quality of the received information and using it to further increase the reliability of the proposed device, it reduces the intensity of the channel switching flow, providing increased reliability of communication with high Reliability and effective information transfer speed.

Claims (1)

Invention Formula A device for transmitting and receiving discrete information containing a transmitting node consisting of a serially connected key, the second output and the control input of which are connected respectively to the input and output of the storage device, the switch, the second output and the second input of which are connected respectively to the input and output of the forming unit telecontrol commands, and a signal forming unit of forcibility, the information inputs of the battery and the accumulator are combined, and the receiving one. node consisting of serially connected synchronization unit, error detection unit and telecontrol command reception unit, channel quality analysis unit, the input of which is connected to the second output of the error detection unit, whose information input is combined with the synchronization unit's secondary input, the second output of which is connected to the divider input , and the output of the telecontrol command receiving unit is connected to the auxiliary input of the key of the transmitting node, so that, with the aim. 7, On increasing the noise immunity of transmission with slow changes in the parameters of communication channels, a redundancy control unit is inserted into the transmitting node, the output of which is connected to the control input of the redundancy signal generation unit, and the input is connected to the third output of the switch, and the boost unit is inserted into the receiving node accuracy, an information quality analysis unit and a decision box connected in series, with the information input of the reliability module combined with the information input input of the error detection unit ok, and sin4 8 hroniziruyushy E1HOD connected to the third output of the synchronization unit, Delhi-body output is connected to the second input decision unit, a channel quality analysis unit output is connected to the third input MAHB reshesh1 which outputs are connected to respective inputs of a further switch. Sources of information taken into account in the examination .1. USSR author's certificate No. 562927, class, H 04 B 5 / O2, 1976 (prototype). "44