SU1660191A2 - Multichannel incoherent communication system - Google Patents

Abstract

The invention relates to communication technology, can be used when building multi-channel messaging systems. The aim of the invention is to improve the noise immunity of communication channels. The system contains a receiver 1, an optimal processing unit 2, each consisting of two matched filters 3, a comparison unit 4 and an information signal generator 5, a decision unit 6, a comparison unit 7, a synchronization unit 8, an adder 9, a demodulator 10, a trigger 11, shaper pulse generator 12, delay unit 13, Schmitt trigger 14, attenuator 15. The goal is achieved by additional analysis of the signal level at the output of the demodulator 10. 1 Il.

Description

The invention relates to communication technology, can be used in the construction of multi-channel message transmission systems and is additional to the author. St. No. 1432794.

The aim of the invention is to increase the noise immunity of communication channels.

The drawing shows a structural electrical diagram of the receiving part of the system.

The system contains a receiver 1, optimal processing units 2, each consisting of two matched filters 3, a comparison unit 4 and an information signal generator 5, a decision unit 6, a comparison unit 7, a synchronization unit 8, an adder 9, a demodulator 10, trigger 1! shaper pulse generator 12, delay unit 13, Schmitt trigger 14, attenuator 15.

A multi-channel incoherent communication system operates as follows.

From the information output of the receiver 1, the group signal is fed to η (l = 3, 4,...) Of optimal processing units 2, each consisting of two matched filters 3, a comparison unit 4, and information signal former 5. The signals from the outputs of the comparison units 4 are fed to the η of the first inputs of the comparison unit 7, to the (n + 1) -th input of which the signal from the output of the attenuator 15 is received. In the formers 5 at the moments of the action of quasicoherent pulses. coming from the output of the delay unit 13, messages are generated that are sent to the first η information inputs of the decision block 6, and in block 7, the number of its input with the lowest absolute signal level is determined.

A quasicoherent (accurate to the phase of the carrier oscillation) strobe pulse is formed as follows. The trigger 11 at the moments of the positive edge of the clock pulses generated by block 8 and corresponding in time to the ends of the code sequences at the outputs of the matched filters 3, is set 5 to the ground state, and the positive edge of the first next pulse of the trigger 14, corresponding to the transition of the output signal of the adder 9 through the zero level, - in an inverted state. At this point in time, a short strobe pulse is generated in the driver 12, which is delayed in block 15 by a time equal to 1/4 of the carrier frequency period and coincides with one of the maximum 15 oscillation maximums at the outputs of the matched filters 3.

From the output of the demodulator 10 to the (n + 1) -th information input of the decisive unit 6, a verification code symbol is received. If 20 the number of characters ”1 at all information inputs of the latter turns out to be odd and the signal at the additional input of block 7 is not the smallest, then the symbol channel with the lowest 25 signal level at the input of block 7 is replaced by the opposite; in all other cases, channel symbols are transmitted to the output of the decision block 6 without change. The transfer coefficient of the attenuator 15 in the device 30 is set so that in the absence of its interference, the output signal has the same absolute level as the signals at the outputs of the optimal processing units 2.

Claims (1)

35 claims Multichannel incoherent communication system according to ed. St. 1432794, characterized in that, in order to increase the noise immunity of communication channels, an attuator is introduced, the output of which is connected to the additional input of the comparison unit, and the additional output of the demodulator is connected to the input of the attenuator.