SU896778A1 - Information transmission system - Google Patents

Description

(54) INFORMATION TRANSFER SYSTEM

I

The invention relates to radio engineering and can be used to transmit synchronization signals in conjunction with informational 1 messages in navigation, communication and telecontrol systems.

A known information transmission system comprising, on the transmitting side, a sync signal generating unit, successively-connected information signal generating unit, a mixer and a group signal transmission unit, the output of which through a direct communication channel is connected at the receiving side to the combined inputs of the information signal decoding unit. and block of allotment. sync signal. On the transfer side, the system also contains a series-connected error measurement unit and a controllable delay element, with the output of the sync signal generator unit via the controllable delay element

connected to the second input, the mixer and the first input of the block. measurement of the error. and on the receiving side the transmission unit of the synchronous signal, the output of the block. highlighting the synchronization signal, the output of which through the reverse channel. connection is connected to the second the input of the mismatch measurement unit t on the receiving side.

In a known system, mutual synchronization is transmitted; to it and the receiving side, it occurs after the synchronization signal is successively

15 will travel three times between two points (from the transmitting side to the receiving side), then through the reverse link back to the transmitting side, and finally the sync signal, with an off delay in it taking into account the propagation time, goes from the transmitting side to receptionist. At the same time, to ensure synchronous operation of the transmitting and receiving sides, the synchronization signals must be transmitted through the communication channels continuously, and the consumer (the receiving side) must constantly re-radiate the synchronization signals and be in the geographical location where stable radio traffic is possible. between the receiving and transmitting parties. This is an ogstvennaya disadvantage of the known system of information transfer, as it reduces the autonomy of the consumer (receiving side) in, eliminates the possibility of his work in a passive mode, i.e. without radiation of signals, and also reduces the reliability of information transmission in the system, since the constant transmission of synchronous signals over the radio channels facilitates the identification of channel characteristics and, consequently, the possibility of imitating sync signals. The purpose of the invention is to show the reliability of information transfer. In order to achieve the goal, the information transmission system, which contains on its transmission side a synchro-shaping unit, serially connected information signal-shaping unit, a mixer and a group signal transmission unit, and a first error measurement unit, a wireless communication channel, whose input is connected to the output of the transmission unit the group signal, on the receiving side, the decoding unit of the information signal, the sync signal output unit, the combined inputs of which are connected to the output of the direct communication channel, the unit n the sync signal, whose input is connected to the output of the sync signal output unit, and the reverse communication channel, the input of which is connected to the output of the sync signal transmission unit, on the transmit side of the signal separator, which is connected to the output of the reverse link, the second error measurement unit JH the signal shaping signal block, wherein the output of the sync signal shaping unit is connected to the second input of the mixer and to the first inputs of the nerve and the second error measurement block, the second inputs of which are from They are connected to the corresponding outputs of the signal splitter, and the outputs are connected to the corresponding inputs of the correction signal shaping unit, the output of which is connected to the input of the information signal generating unit, and the serially input correction unit, the syntax signaling unit and the key are inputted at the receiving side the correction input is connected to the output of the decoding unit of the information signal, the second key input is connected to the output of the clock signal block, and the output of the key is connected to the second Rum input clock transmission unit. Thus, on the receiving side, an active clock driver is inserted, and the synchronization of the transmitter and receiver sides is carried out only as needed, when the mismatch between the sequences of clock signals generated in the corresponding blocks exceeds the tolerance. Stimulus value. In this case, the synchronization signal from the transmitting side is transmitted to the receiving side, where it is re-radiated together with the signal generated in the clock shaping unit, back to the transmitting side, and then the time intervals between the received signals are measured and the sync signal: reception site. The measured time interval values are used to obtain a correction signal, which is transmitted to the receiving side and synchronizes the sync signal generation unit. In such a system, the autonomy of the cyDtecTBeHHO operation is increased since the transmission of the clock signal in the system is completely eliminated without the need for synchronization of the receiving STOP. FIG. 1 is a structural diagram of the proposed information transmission system; FIG. 2 shows timing diagrams of the operation of the system during the transmission of clock signals. The information transmission system comprises on the transmitting side a block 1 for generating a synchronization signal, serially connected block 2 for generating an information signal, a mixer 3 and a block 4 for transmitting the group signal, as well as a separator 5 for signals, the first and second blocks 6 and 7 for the error measurement, block 8 forming the correction signal, and the output of the sync signal generating unit 1 is connected to the second input of the mixer 3 and the first inputs of the first and second blocks 6 and 7 of the error measurement, the second inputs of which are connected with the corresponding The output outputs of the splitter are 5 signals, and the outputs are with the corresponding inputs of the correction signal generation unit 8, the output of which is connected to the unit, and the information output signal formation 2. The output of the block of which is connected to the block 2 of the formation of the information signal. The output of block 4 transmission of the group signal through a direct communication channel 9 is connected at the receiving side to the combined inputs of the decoding unit 10 of the information signal and the sync signal extraction unit P. On the receiving side, the system also contains a series of correction input unit 12 connected in series, a block of 13 synchronous signal generators, a key. 14 and the sync signal transmission unit 1, and the input of the correction input unit 12 is connected to the output of the information signal decoding unit 10, and the second key input 14 is connected to the output of the sync signal extraction unit 1, the sync signal of the sync signal transmission unit 15 via the reverse link 16 is connected to the transmitting The side to the input will separate l 5 signals. The operation of the proposed information transmission system is illustrated by signal plots at various points in the system (Fig. 2). As an example, the sync signal is used in the form of single pulses. However, all reasoning is true for any other form of clock signal. The system works as follows. Pulse signals with a period T (Fig. 2, plots a and d) are formed in the sync signal generation blocks at the transmitting and receiving sides 1 and 13, and there can be an arbitrary time shift T, B between these two sequences of sync signals. the moment of operation of the system for synchronizing-transmitting and receiving sides, the signal from the output of the synchro-shaping unit 1 on the transmitting side enters the mixer 3, where it is summed with the information signal and as part of the -group signal using the 4 84 I gear unit and the baseband signal is radiated to the receiving side on the forward link. At the reception. The side received with a delay, caused by the propagation time in the communication channel, the sync signal is embedded in the synchronization signal allocation unit 11 (Fig. 2, plot o) and supplied to the first input of the sync transmission unit 15 and the control key input 14 , allowing signal processing with the block 13 of the formation of the sync signal to another input of the block 15 of the transfer of the sync signal. From the output of the sync signal transmission unit 15, both signals (Fig. 2, plot 2 are transmitted via the reverse link 16 to the transmitting side, where the signal separator 5 is received with a delay T /}) (Fig. 2) The first of the received signals is fed to the input of the first error measurement unit 6, and the second to the input of the second error measurement unit 7. The signal generated in the synchronization signal generating unit I on the transmitting side is also fed in. The values obtained in the error measurement measurement units 6 and 7 flow rate between sig The 2 2tfxf Ht-, t (Fig. 2, plot b and g) are transmitted to the correction generation unit 8, where they are converted into the control signal of the correction U, the value of which corresponds to the difference between the values of T and Tcd, i.e. the error of the sync signals on the transmitting and receiving sides (Fig. 2, plot). This signal enters the input of the information signal generating unit 2 and then is transmitted to the receiving side. The control signal selected in the decoding unit 10 of the information signal is fed through the unit 12 for correcting the block 13. formiro The clock signal, where the generated signal is shifted, after which the entire system enters, the synchronism and the clock signal phases on the transmitting and receiving sides coincide. The signal separator 5 can be implemented, for example, on the basis of a counting trigger and two matching schemes, which are controlled by signals from the respective trigger arms and pass the input signals to the corresponding block outputs. The use of 7 two separate units 6 and 7 of the error measurement in the system can be applied. As their simple time interval counters. Correction signal generation unit 8 encodes the received control signal corresponding to the synchronization error on the transmitting and receiving sides to the form received for transmitting the information message in the system. Thus, the sync signal is transmitted over the radio channels only in the case when the mismatch between the signals on the transmitting and receiving sides exceeds the allowable value. The frequency of synchronization sessions in the system is determined by the accuracy characteristics of the sync signaling units at the transmitting and receiving side and is set by the sync signal generation unit at the transmitting side. Thus, the autonomy of the system, in particular the information consumer, is significantly increased, which allows you to transfer information in the system — practically in a passive mode of operation of the receiving side. This complicates the identification of the radio channel and the creation of intentional interference in order to directly simulate the clock signal and thereby increases the reliability of information transmission in the system. The use of the proposed system will significantly reduce the number of radio channels needed to synchronize different consumers while sharing them with one source of information. The invention is expedient. To use, in particular, for the transmission of synchronization signals over radio channels, a hollow connection from points with a reference time to users of temporal information.

Claims (1)

1. USSR author's certificate number 571007, cl. H 04 L 1/14, 1977 (prototype). a sync signal generation, a serially connected information signal generation unit, a mixer and a group signal transmission unit, and a first error measurement unit, a forward channel of the channel, whose input is connected to the output of the group signal transmission unit, on the receiving side the information signal decoding unit and the unit extracting the sync signal, combining i / -v, whose inputs are connected to the output of the direct communication channel, the sync signal transmission unit, the input of which is connected to the output of the sync signal , and the reverse communication channel, the INPUT of which is connected to the output of the sync signal transmission unit, characterized in that, in order to increase the reliability of information transmission, a signal separator is input on the transmitting side, the input of which is connected to the output of the reverse communication channel the error and the correction signal generating unit, the output of the synchro signal shaping unit being connected to the second input of the mixer, w with the first inputs of the first and second error measuring units, the second input of which are connected with the corresponding outputs of the signal splitter, and the outputs are connected to the corresponding inputs of the correction signal conditioning unit, the output of which is connected to the input of the information signal conditioning unit, and the serially connected correction input unit, clock generation unit and key are inputted at the receiving side to the output of the decoding unit of the information signal, the second key of the key is connected to the output of the sync signaling unit, and the output of the key is connected to the second input block transmission of the sync signal.