SU907834A2 - Multichannel communication system - Google Patents

Description

(5M MULTI-CHANNEL COMMUNICATION SYSTEM

Claims (1)

The invention relates to telecommunications can be used to seal wired radio, radio relay and space communication lines. According to the main auth. No. 567211 is a well-known multichannel communication system containing on the transmitting side η multipliers, on the first inputs of which information signals are fed, the second inputs of multipliers are connected to the outputs of the transfer address signal generator, and the outputs are connected to the inputs of the logical processing unit whose output is connected to the first input of the transmitter , the second input of which is connected to the synchronous output of the shaper of the signal addresses of the transmission through the sync block, and on the receiving side 2 parallel processing channels, each of which contains multiply and integrator, as well as m decision blocks, in each channel the first input of the multiplier is connected to the first output of the receiver, and the second input to the corresponding output of the receive address signal generator, the clock input of which is connected to the second output of the receiver, as well as the decoder, the inputs of which are connected to the outputs of the decision blocks of each of the processing channels 1. However, the known communication system has low reliability. The purpose of the invention is to increase credibility. To achieve this goal, adders are entered into the multi-channel communication system at the receiving side, the outputs of which are coupled to the inputs of the decision blocks of each of the processing channels, and the inputs of the adders are connected to the corresponding outputs of the integrators. The drawing shows a structural electrical circuit of the proposed system. The multichannel communication system contains on the transmitting side I a driver of 2 transmission address signals, a logical processing unit 3, a transmitter k, a sync block 5, n multipliers 6-1 to 6-n, on the receiving side of parallel channels 8-1 to 8-2, each of which consists of an multiplier 9, an integrator 10 and an adder 11, a decoder 12, m decisive blocks, a receive address signal generator, a sync block 15, a receiver 16, the transmitting and direct sides are connected by a link 17, and the output signal Receives 18 messages. The system works as follows. The binary message symbols on transmitting side 1 are sent to n multipliers 6-1 through 6-n, which also receive the binary symbols of the address code word of the given channel, which are generated by shaper 2 transmit address signals, resulting in a duplicate sequence or (If the symbol 1 is transmitted over this channel or there is no Radamahera binary sequence (if the symbol O is transmitted over this channel). The resulting code words from all channels fall into 3-logic processing block at the output of which a group signal is formed.This signal, together with synchronization signals from sync block 5, is transmitted by transmitter k via communication line 17 to receiving side 7. At the receiving side, the group signal from the output of receiver 16 is received on 2 parallel processing channels 8-1 to 8-2, each of which contains the series-connected multiplier E integrator 1 and adder 11, In the multiplier 9, the group signal is multiplied with the reception address signals from the generator 1, which is syn roniziruets sync block 15, generating the timing signals and the signal that arrives on its input from the output of the receiver 16. The signals from multipliers 9 are integrated integrators 10.Vyhodnye signals of integrators 10 are applied to specific inputs of the adders 11. The signals C of the outputs of a certain pair of adders 11 are fed to the corresponding decision block, where they compare the sum level of the signals from the integrator outputs with the sum level of the signals from the outputs of other integrators. Depending on the levels of one or another sum of signals, the decision is made to receive a symbol 1 or O, i.e. at the output of a particular decision block, the most probable symbols 1 or O of the n-th message are determined. The signals from the outputs of the decision block are fed to the inputs of the decoder 12, the output of which generates message symbols that are transmitted to the recipients 18 messages. Thus, the use of the proposed multi-channel communication system reduces the likelihood of erroneous reception in each message. Claims of the invention. Multichannel communication system by auth.St. No. 567211, characterized in that, in order to increase reliability, adders are entered at the receiving side, the outputs of which are connected in pairs to the inputs of decision blocks of each of the processing channels, and the inputs of adders are connected to the corresponding integrator outputs. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 567211, cl. H Oi J 11/00, 1975. (prototype).