SU1141579A1 - Multichannel non-coherent communication system - Google Patents

Abstract

MULTI-CHANNEL INCOMING -. The NAY COMMUNICATION SYSTEM contains a transmitter on the transmitter side, switches whose outputs through the majority block are connected to the first input of the phase manipulator, as well as a binary code generator whose output is connected to the sync block input, a carrier frequency generator whose output is connected to the second inputs of the phase manipulator torus and sync block connected to the synchronous input of the transmitter, the inputs n of the switches are the information inputs of the main channels, the modulating inputs of each of the n KOtt fSuropoB are connected to the corresponding binary code generator, and on the receiving side - serially connected receiver and synchronization unit, as well as n channels, each of which consists of serially connected first matched filter, primary detector by bending, comparing unit, key and signal conditioner main messages, as well as serially connected second coordinated Lilter and second envelope detector, the output of which is connected to the second input of the comparator unit, and the inputs of the first and second The ovated filters of each of the n channels are combined and connected to the output of the receiver, and the output of the synchronization unit is connected to the control input of the key of each channel, so that, in order to increase the throughput, the transducer a manipulator and a transmitter input a phase difference manipulator is introduced, the other inputs of which are information inputs of additional channels, and a series-connected adder, a delay line, a calculation unit p are entered on the receiving side phase difference and the phase difference decoder; Moreover, the adder output is connected to the second input of the phase difference calculator, the third input of which is connected to the output of the synchronization unit, and the outputs of the first and second matched filters of each channel are connected to the corresponding inputs of the matrix . .

Description

The invention relates to radio and radio communication and can be used in wired, radio, radio relay and space communication lines. A known multi-channel non-coherent communication system with a combinational seal, in which on the transmit side, in the coding device of each combination of channel symbols, a certain sending of the orthogonal code is matched, is a group signal transmitted over the communication line, and on the receive side, . messages in a 2-channel separation of the device for optimal processing (h is the number of compacted communication channels each of which contains a serially connected matched filter and an envelope detector, the outputs of all detectors are connected to the inputs of the comparison circuit, the output of which is connected to the driver of message 1 through a key 3. However, the number of Optimal Processing Channels in this system is greater than the number of channels being compacted. The closest technical solution to the invention is a multi-channel incoherent communication system with There is a transmitter on the transmitting side, n switches, whose outputs through the majority block / are connected to the first input of the phase manipulator, as well as a binary code generator, the output of which is connected to the sync block, a carrier frequency generator, the output of which is connected to the second inputs of the phase manipulator and the sync block connected to the transmitter sync input, the inputs r of the switches are the information inputs of the main channels, and the modulating inputs of each of the n switches are connected to the corresponding inputs On the receiving side, the binary code generator a is a serially connected receiver and synchronization unit, as well as n channels, each of which consists of the first matched filter connected in series, the first envelope detector, the comparator unit, the key and the character generator of the main messages, as well as serially connected second matched filter and second envelope detector, the output of which is connected to the second input of the comparator unit, with the inputs of the first and second matched filters of each th / from the channels are combined and connected to the receiver output and the output synchronization unit connected to the control input of each channel C2 key. However, there is not enough bandwidth in this system. The purpose of the invention is to increase throughput. For this, a multi-channel incoherent communication system containing a transmitter on the transmitting side, n switches, the outputs of which through the majority block are connected to the first input of the phase manipulator, as well as a binary code generator, the output of which is connected to the sync block input, a carrier frequency generator, the output of which connected to the second inputs of a phase switch and a sync block connected to the synchronous input of the transmitter, with 1 inputs n of the switches being the information inputs of the main channels modulating the inputs of each of the n switches are connected to the corresponding binary-code generator in the first phase, and on the receiving side there are serially connected receiver and synchronization unit, as well as channels, each of which consists of the first matched filter, the first envelope detector, the comparison unit, the key, and the former characters of main messages, as well as serially connected second matched filter and second envelope detector, the output of which is connected to the second input of the comparator unit, The inputs of the first and second matched filters of each of the n channels are combined and connected to the receiver output, and the output of the synchronization unit is connected to the control input of the key of each channel, on the transmitting side, between the phase manipulator output and the transmitter input, the phase-difference manipulator is introduced, the other inputs of which are the information inputs of additional channels, and a series-connected adder, delay lines, a phase difference calculation unit, and a phase difference decoder are inputted at the receiving side, and you C3 mmator stroke is connected to the second input of the phase difference calculating unit, the third input of which is connected to the output of the synchronization unit, and the outputs of the first and second matched filters of each channel are connected to the corresponding inputs; adder. The drawing shows a structural electrical circuit of a multichannel non-coherent communication system. The system contains on the transmitting iffTopoHe switches 1, a binary code generator 2, a major block 3, a phase manipolar top 4, a carrier frequency generator 5, a transmitter 6, a synchro 7, a phase difference manipulator 8, on the receiving side channels 9 each of which consists from matched filters 10, envelope detectors 11, comparison unit 12, key 13, generator 14 basic message symbols, synchronization unit 15 receiver 16, adder 17, delay line 18, phase difference calculation unit 19, phase difference decoder 20, as well 21 connections. A multi-channel incoherent communication system operates as follows. On the transmitting side, n (n 1,2, 3, ...) of the main binary synchronous channel signals consisting of symbols 1 and O, arrive at the information inputs of switches 1, and in generator 2, 2n orthogonal binary code sequences with duration equal to the duration of the information symbols. Depending on the signal level at the information input of each switch 1, one of a pair of code sequences valid at its code inputs is transmitted to its output. Thus, each of the main sealed channels corresponds to a certain pair of code sequences. The code sequences acting on the outputs of the switches are majority-controlled in the majority block 3, the output of which manipulates in phase (0.1 /) oscillations of the generator 5 of the carrier frequency to the phase manipulator 4. For transmitting information m (m 1,2,3. ..) additional channels at time intervals of the code sprinkling of the output signal of the majority block 3, equal to the duration of the information symbols of messages, in the phase difference manipulator 8, additional phase difference manipulation of the received signal is performed. It is then transmitted via transmitter 6 via Line 21. The syncblock 7, at the first input of which information is entered on the end points of the code sequences, and at the second, the carrier frequency, generates sync signals that are input to the group signal in the transmitter 6. At the receiving side, from the receiver output 16, the group signal enters n channels 9 , in each of which the matched filters 10 are matched with the corresponding signals of a certain pair of code sequences formed on the transmitting side. The output signals of the matched filters 10 after detection in envelope detectors 11 are compared in block 12 and at the instants of the clock, corresponding in time to the ends of the code sequences at the outputs of matched filters generated by the synchronization unit 15, the main channel symbols are formed. To extract information in the system, m, additional channels, the output signals of matched filters 10 are added to adder 17 and fed to block 19 determining phase difference directly and through delay line 18 with a delay time equal to the duration of the information symbols. In block 19, for the duration of the synchronization pulse equal to one or several periods of the carrier frequency, the phase difference of adjacent code send signals is calculated on the basis of the results obtained in the phase difference decoder 20, symbols of additional channels are formed. Thus, the use of a multichannel non-coherent St.Go system allows an increase in throughput.

Claims (1)

MULTI-CHANNEL NECOGENT -. A NEW COMMUNICATION SYSTEM, containing on the transmitting side a transmitter, switches, the outputs of which are connected through the majority block to the first input of the phase manipulator, as well as a binary code generator whose output is connected to the input of the sync block, a carrier frequency generator, the output of which is connected to the second inputs of the phase manipulator and a synchro block connected to a transmitter sync input, and the inputs of η switches are information inputs of the main channels, the modulating inputs of each of η co-MFs are connected to the corresponding vuyuschimi generator outputs a binary code, and at the receiving end - a serially coupled receiver unit and synchronization, and P channels, each of which consists. from the first matched filter, the first / first envelope detector, the comparison unit, the key and the signal shaper of the main messages, connected in series, the second matched Liltre and the second envelope detector, the output of which is connected to the second input of the comparison unit, the inputs of the first and second The matched filters of each of the η channels are combined and connected to the output of the receiver, and the output of the synchronization unit is connected to the control input of the key of each channel, which is different. m, that, in order to increase the throughput 5, a phase difference manipulator is introduced on the transmitting side between the output of the phase manipulator and the input of the transmitter, the other inputs of which are information inputs of additional channels, and a series-connected adder, a line, are introduced on the receiving side delays, a phase difference calculation unit and a phase difference decoder, wherein the adder output is connected to the second input of the phase difference calculation unit, the third input of which is connected to the output of the synchronization unit, and the outputs The first and second matched filters of each channel are connected to the corresponding inputs of the adder.