SU801280A1 - Multi-beam radio communication system - Google Patents

Description

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i The invention relates to radio and can be used to transmit and receive serial frequency-separated signals with relative phase telegraphy in multipath channels of tropospheric and ionospheric radio links, in which, along with the transmission of basic information, it is necessary to transmit service or control information.

The well-known multipath radio communication system, which on the transmitting side contains a series-connected multi-frequency generator, a switch and a phase manipulator, as well as a transmitter, and on the receiving side, a matching trees, output connected to the first inputs of the phase discriminator and multiplier, which by its output is connected to the combined the inputs of the first key block, each of which is connected to the signal input of the corresponding second key through the corresponding filter, with the outputs of the second key the keys are combined and connected to the second input of the O30 discriminator's fauna connected via the integrator with the first input of the first regenerator, the second input of which is connected to the corresponding synchronizer output, the other outputs of which are combined with the control inputs of the corresponding first and second keys, the third synchronizer output is connected the second input of the second regenerator.

In this system, the radio connection is.

The same information is entered into the main message by the method of temporary compilation, transmitted and received along with it, and the noise immunity is

5 command channel is equal to the noise immunity of the information channel. However, for the stable operation of the system, in order to improve the reliability of the transmission and reception of information requires 0 s, so that the noise immunity of the command channel is significantly higher than the information one.

The purpose of the invention is to increase the reliability of transmission and reception of information.

This goal is achieved by the fact that in a multipath radio system. connection, containing on the transmitting side 0 connected in series 0 multi-frequency generator, switching

the torus, the phase manipulator, the adder and the transmitter, with the synchronizer codes that are connected to the other inputs of the phase manipulator and the mutator. and on the receiving side of the g is a matching unit, the output of which is connected to the inputs of the multiplier and correlation channels, each of which consists of a series-connected phase discriminator and an integrator, with the output of the multiplier through the series-connected first keys, filter blocks and second keys block to other inputs of phase discriminators and a synchronizer, the bit outputs of which are connected to other inputs of the first keys block and the second keys block, and the second synchronizer outputs are connected The additional switch is connected to the inputs of the first and second regenerator, on the transmitting side, connected between the additional synchronizer output and the other input of the adder, and the additional outputs of the multi-frequency generator are connected to the other inputs of the additional switch, and on the receiving side two keys are inserted. , the solutions and the control unit, with the integrators of the two correlation channels going out to the decision unit, and the outputs of the first and (the second regenerators) connected counter and control unit connected to the synchronizer, the third output of which is connected to another input of the control unit, another output of which is connected to the input of the first key, another input of which is connected to the output of the second regenerator, and the output of the integrator of the first correlation channel is connected to another input of the primary generator and the input of the second key, the output of which is connected to another input of the second regenerator, and the fourth output of the synchronizer is connected to another input of the second key.

The drawing shows a structural electrical circuit of a radio communication system.

The multipath radio communication system contains on the transmitter side a synchronizer 1, switch 2, phase key 3, adder 4, transmitter 5, multi-frequency generator 6, additional switch 7, on the receiving side block 8 matching, phase discriminator 9 multiplier 10, block 11 of the first keys filter block 12, block of 13 second keys, integrator 14, first key 15, first regenerator 16, synchronizer 17, counter 18 errors, phase discriminators 19 and 20, integrators 21 and 22, decisive block 23, second regenerator 24, second key 25, control block 26.

The system works as follows.

The transmitted information and command video signals are fed to the corresponding inputs of synchronizer 1, which performs a temporary separation of both channels within the information packet. At the times when the main information is transmitted, the synchronizer 1 controls the switch 1, m 2 in this way. that he in a certain sequence connects to the phase manipulator 3, to another input of which voltage is applied, corresponding to the value of the transmitted information, the outputs of the multi-frequency generator 6, forming a serial frequency-spaced signal, representing sinusoidal oscillations of the same length but different frequency, the pressure is not following each other, and the information is contained in the initial phases of all frequencies.

In the time allotted for the command signal, the synchronizer 1 controls the switch 7, which in a certain sequence, corresponding to the value of the signal in the field map, connects to the adder 4 outputs of the multi-frequency generator b, forming a serial frequency-diversity signal. Receive B: The 1st signal through block 8 is fed simultaneously to phase discriminators 9, 19 and 20 and multiplier 10. To the second input of the discriminator 9, the reference oscillation generated by blocks 12 and n 13 is supplied to the time intervals corresponding to the main signal with the order of the following frequencies in the input signal, in the time periods corresponding to the command signal, the phase discriminators 19 and 20 are fed to the inputs of the reference oscillations corresponding to the two selected waveforms in the command channel. In one of the integrators 21 or 22, coherent accumulation of the signal occurs, in the other, incoherent accumulation of noise (interference), the Decider 23, after finishing the sending of the command signal, decides on the transmitted information.

Claims (1)

In the absence of external interference and high quality of the transmitted information at the outputs of the regenerator 16, which forms a decision about the voltage sign of the integrator 14 at the end of the main, channel sending, and the regenerator 24, which forms the solution of the voltage sign of the integrator 14 in the middle of the parcel, strains almost always coincide. Due to external interference and c. by increasing their level, the probability of voltage mismatch at the outputs of the regenerators 16 and 24. increases, which causes an increase in the number of errors counted by the counter 18 for a certain number of information packets. If the number of these errors exceeds a certain level, then control block 26 locks key 15, as a result of which multiplier 10 works as an ordinary amplifier, and synchronizer 17 changes the order of operation of key block 11, which are now opened in accordance with possible In order to follow the frequencies on the transmission of the command signal, in the absence of interference at the moments of arrival of the frequencies on the transmission section of the main signal, the synchronizer 17 opens the keys of block 11 in the second half of the section in accordance with the sequence One in the input signal, resulting in the accumulation of reference signals. Due to the manipulation of the input signal phase, the decision about the sign of which is made in the regenerator 24 and fed through the public key 15, the signal in the multiplier 10 is demanipulated, and to the filters of the block 12 the transmission pulses with high-frequency filling phases are received, determined only by the fluctuations of the signal phases in the channel distribution. The filter bar of block 12 is selected based on the speed of phase fluctuations, which is many times less than the information transfer rate, this system allows to significantly increase the noise immunity to. Mandal channel compared to the informational one, the Win can be estimated by the formula where m is the number of positions for the command kangsha; n is the number of positions for the information channel; F is the transmission rate in the information channel; f - transmission rate in the command channel. For example, at a speed of .48 kbit / s in the main channel. And 50 bit / s. command canap and when, the noise immunity gain is B 160 (22 dB). However, at low signal-to-noise ratios, the use of signal elements reserved for the command channel as a reference oscillation significantly increases the noise immunity of the information channel. A multi-beam radio communication system, comprising a serially connected multi-frequency generator, a switch, a phase manipulator, an adder and a transmitter on the transmitting side, and the synchronizer outputs are connected to other inputs of the phase manipulator and switch, and on the receiving side - the matching unit, the output of which is connected to the inputs of the multiplier and correlation channels, each of which consists of a series-connected phase discriminator and integrator, and multiply the output through the serially connected block of the first keys, the filter block and the block of second keys are connected to other inputs of phase discriminators and a synchronizer, the bit outputs of which are connected to other inputs of the block of the first-rate keys and the block of second keys, and the second outputs of the synchronizer are connected to the inputs of the first and second regenerator, characterized in that, in order to increase the reliability of transmission and reception. On the transmitting side, an additional switch is inserted, connected between the additional output of the synchronizer and another input of the adder, and the additional outputs of the multi-frequency generator are connected to other inputs of the auxiliary switch, and on the receiving side two keys are inserted, an error counter, a deciding unit and a control unit, the outputs of the integrators of the two correlation channels, as well. the outputs of the first and second regenerators through a serially connected counter and control unit are connected to the synchronizer input, the third output of which is connected to another input of the control unit, the other output of which It is connected to the input of the first key, another input of which is connected to the output of the second regenerator, and the output is connected to another input of the multiplier, while the output of the integrator of the first correlation channel is connected to another input of the first regenerator and the input of the second key, the output of which is connected to another input of the second regenerator, and the fourth output of the synchronizer is connected to another input of the second key. Sources of information taken into account in the examination of 1, USSR Author's Certificate 634464, class, H 04 B 7/22, 1977 SPROTYAP),