SU788420A1 - Information transmission system - Google Patents

Description

I

The invention relates to communication technology and can be used to transmit synchronization signals in conjunction with information messages in navigation systems, communications, and control of the movement of objects.

A known information transmission system comprising on the transmitting side a sync signal generating unit and serially connected information signal generating unit, a mixer and a group signal transmission unit, the output of which is connected to the forward link channel input, and on the receiving side - information signal decoding unit integrated at the input and a clock extraction unit and connected to the output of the direct communication channel, as well as a sync signal transmitter over the reverse communication channel 1.

However, the known information transmission system has a low speed and a large channel of communication.

The purpose of the invention is to increase speed.

Claims (1)

To achieve this goal, the information transmission system contains on the transmitting side a synchro-shaping unit and serially connected information signal-generating unit, a mixer and a group signal transmission unit whose output is connected to the forward link channel input, and combined on the receiving side on the input the decoding unit of the information signal and the sync signal extraction unit and connected to the output of the forward communication channel, as well as the transmitter of the synchronization signal on the reverse communication channel, on the transmitter a switch is input to the side, to the signal input of which the clock generator output is connected, and the switch output is connected to another mixer input, to the control input of which and to the control input of the switch a feedback link is connected, and on the receiving side two error measurement units and serially connected subtractive unit and an additional block for the formation of a sync signal, while the outputs of the sync signal extraction unit through the first and second error measurement blocks are connected They are connected to the corresponding inputs of the subtracting unit, and the output of the additional clock generator is connected to the input of the transmitter of the synchronization signal via a reverse communication channel and to other inputs of the nerve and second units of error measurement. The drawing shows a structural electrical circuit of the proposed system. The information transmission system comprises on the transmitting side a sync signaling unit 1, an information signal generating unit 2, a mixer 3 and a group signal transmission unit 4, a forward link 5, and an information signal decoding unit 6 on the receiving side. and a sync signal extraction unit 7, as well as a sync signal transmitter 8 on a reverse communication channel, furthermore, a switch 9 is on the transmitting side, as well as a reverse communication channel 10, and on the receiving side there are two error measurement units 11 and 12 that subtract the unit 13 and an additional block 14 of the formation of the sync signal. The device works as follows. A pulse signal with a period T, which passes to the input of the mixer 3 only when there is a signal at the control input of the switch 9, is generated on the transmitting side in block 1 of the sync signal formation. On the receiving side, in the additional block 14, the sync signal also generates a pulse signal with a period T, and between these two sequences of sync signals in the system there can be an arbitrary time shift, denoted by m. If it is necessary to obtain synchronization on the receiving side, the signal from the output of the additional The clock signal generating unit 14 is transmitted via the clock signal transmitter 8 via the reverse link channel 10 to the transmitting side, where it arrives with a delay T caused by the propagation time of the forward link channel 5 to the input of the mixer 3 and simultaneously to the input of the switch 9, allowing passage the signal from the sync signal generating unit 1 to the other input of the mixer 3. From the mixer 3 output, both sync signals in the group signal on the forward link channel 5 are received with a delay T to the input of the syncrosis extraction unit 7 Nala on the receiver side. The first of the selected signals is fed to the input of the first error measurement unit 11, and the second to the input of the second error measurement unit 12, the second inputs of which also receive the signal generated in the additional clock formation unit 14 on the receiving side. Measurement of the discrepancy value between the signals 2 obtained in blocks 11 and 12. and g3 T -h tl, are transmitted to subtraction unit 13, where they are converted into control signal T4, the value of which corresponds to the difference between the values of T 3 and C 2/2, i.e., the desired error of the sync signals at the receiving and transmitting side. This signal is then received to the control input of the additional clock shaping unit 14, where the generated clock signal is shifted, after which the entire system enters all the synchronization and the phases of the clock signals on the transmitting and receiving sides coincide. Thus, when using the proposed device, the sync signal is transmitted via radio channels only if the user needs to synchronize, i.e., the busy time for transmitting the synchronization signals is significantly reduced and the speed of the proposed device is improved, which is advantageous from the known one. An information transmission system comprising on the transmitting side a synchronization signal generating unit and serially connected information signal generating unit, a mixer and a group signal transmitting unit whose output is connected to the forward link channel input, and on the receiving side integrated information decoding unit a signal and a sync signal extraction unit and connected to the output of a direct communication channel, as well as a sync signal transmitter over a reverse communication channel, with In order to increase the speed, a switch is inputted on the transmitting side, to the signal input of which the output of the clock signal generator is connected, and the output of the switch is connected to another mixer input, to the control input of which the output of the reverse link is connected to the control input, and Two error measurement units and a successively connected subtractive unit and an additional clock shaping unit are inputted to the receiving side, while the outputs of the clock extraction unit through the first The second and second error measurement units are connected to the corresponding inputs of the subtracting unit, and the output of the additional sync signal generator is connected to the input of the synchronization signal transmitter via a brother channel and to other inputs of the first and second error measurement units. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 571007, cl. And 04 L 1/14, 1976 (prototype).