SU959291A1 - Apparatus for transmitting discrete signals in multibeam communication channel - Google Patents

Description

(DEVICE FOR TRANSMITTING DISCRETE SIGNALS IN A MULTI-BIT CANCEL OF COMMUNICATION

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The invention relates to radio engineering and can be used in radio communications through multipath channels.

A device for transmitting discrete signals in a multipath communication channel, comprising, in the transmitting part, a modulator with a test impulse input unit, is known; in the receiving part, an intersymbol distortion compensation unit of which is output; It is connected to the input of the demodulator, the channel response measurement unit to the test pulse, the input of which is connected to the input of the intersymbol distortion compensation unit, and the first and second outputs are connected via the predistortion generation unit to the control input of the intersymbol distortion compensation unit and, via the reference shaping unit the signal to the control input of the demodulator, the output of which is connected to the control input of the predistortion forcing unit 1J.

The disadvantage of this device is that due to the freezing of the scientific research institute in the communication channel or due to the fact that any error in the reception of the signal caused by. For example, an increase in the level of interference, or a decrease in the signal level due to fading, produces incorrect compensation of intersymbol interference, which, in turn, can cause an error during the next signal, etc. Owing to this, the immunity of transmitted signals is reduced.

The purpose of the invention is to improve the noise immunity.

Claims (1)

To do this, the device for transmitting discrete signals in a multi-channel communication channel, contains a modulator with a test impulse input unit in the transmitting part, and 3.9 non-distorted distortion compensation unit, the output of which is connected to the demodule input, in the receiving part. the torus, the measurement unit of the channel response to the power pulse, whose input is connected to the input of the intersymbol distortion compensation unit, and the first and second outputs are connected respectively through the predistortion generation unit to the control input of the compensation unit between symbolic distortions and through the block of forming a reference signal to the control input of a demodulator whose output is connected to the control input of the predistor formation block, in the transmitting part there is entered a block of receiving control signals of the duration of information signals whose output is connected to the auxiliary input of the modulator with a test pulse insertion unit. In the receiving part, an information signal duration control block and a control signal transmission block are connected in series, the additional output of the communication channel stock measurement block is connected to the input of the information signal duration control block, the other output of which is connected to the combined additional inputs of the reference signal shaping block. signal and demodulator. The drawing shows the structural electrical circuit of the proposed device. A device for transmitting discrete signals in a multipath communication channel contains a modulator 1 with a test pulse insertion unit in the transmitting part, an intersymbol distortion block 2 in the receiving part, the output of which is connected to the input of the demodule torus 3, block Q measurement. channel response to the test pulse, whose input is connected to the input of the intersymbol distortion compensation unit 2, and the first and second outputs are connected via the predistortion block 5 to the control input of the intersymbol distortion compensation block 2 and through the reference signal shaping unit 6 to the input of the demodulator 3 , the output of which is connected to the control input of the predistortion formation unit 5. In the transmitting suit, the output of the information signal reception control unit 7 is connected to the auxiliary input of the modulator with the test pulse input unit 1. The control signal receiving section 8 of the information signal duration and the control signal transfer unit 9 are connected in series. The additional output of the communication channel response measurement unit is connected to the input of the information signal duration control unit 8, the other output of which is connected to the combined additional inputs of the reference signal generation unit 6 and the demodulator 3 The device operates as follows. A modulator 1 with a test pulse injection unit generates a sequence of information radio signals corresponding to the sequence of discrete symbols received at it and periodically corresponding to the test pulse. This sequence comes from the output of modulator 1 to the communication line, which includes the transmitter with the antenna, the propagation medium (radio channel) and the radio receiver with the antenna. From the output of the communication line (receiver), information signals through the intersymbol distortion compensation unit 2 are transmitted to demodulator 3. Demodulator 3 performs demodulation of incoming radio signals to it. Block 6 is controlled from block k, the BLOCK determines the type of impulse response, either by channel response to periodically emitted test pulses, or based on the nature of the received information signals. Knowing the type of impulse response allows one to determine the nature of intersymbol distortions and to compensate for them. For this purpose, in block 5. A signal is formed that corresponds to intersymbol interference from previous symbols, and further in block 2 it is subtracted from the incoming signal. Thus, compensation of intersymbol suits is made. Since the intersymbol interference is determined not only by the nature of the impulse response, but also by the kind of signals that were previously received, block 2 is associated with the output of demodulator 3. In this way, intersymbol interference is compensated. which allows reception of signals along the first beam, eliminating the influence of the remaining rays. At the same time, the sample of the signal received on the first beam undergoes random changes in the level due to fading, which can lead to a significant deterioration in the reliability of transmission and even interruption of communication if the signal level drops below the permissible level. To eliminate this drawback in the device, the duration of the elementary signal can vary with, taking one of several predetermined values. In the process of transmitting information, as indicated, the block extracts the impulse response of the communication channel, and, therefore, has information about the transmission coefficient of the channel on the first beam (signal level in the first beam), which is receiving information. The signal level from block 4 is fed to the control unit of the duration of information sieves (- 8). If the signal level is such that the reliability of information transmission is below acceptable, then block 8 decides to increase the duration of the elementary signal. This increase provides increasing signal energy and therefore, the signal-to-fur ratio increases at a given signal amplitude. Therefore, the reliability of the communication is kept at the required level even at a lower signal level. If the signal level is high As only that the reliability of the transmission is higher than the required one, the elementary signal can be made shorter and, consequently, the transmission speed can be increased. The signal energy should be such that the accuracy does not fall below the Required one. what should be the duration of the elementary signal goes to block 9, which generates a control signal that carries information about the required duration of the elementary information signal. The control signals via the feedback line are fed to the Feedback Line unit, which includes a feedback transmitter, a channel and a feedback receiver. The control / signals from 9 91A of block 7 are fed to modulator 1 and transferred to a new manipulation frequency corresponding to the required duration of an elementary information signal. At the same time, the signal from control unit 8 is sent to demodulator 3 and changes the duration of the reference signal to block 6. Thus, the device proceeds to work at a new speed until the signal duration needs to be increased again (slow down), or slow down (speed up). Thus, this device provides increased interference interference; multipath channels. Apparatus of the Invention A device for transmitting discrete signals in a multipath communication channel. containing in the transmitting part a modulator with a test impulse input unit, and in the receiving part an intersymbol distortion compensation unit, the output of which is connected to the demodulator input, a channel response measurement unit for the test impulse, the input of which is connected to the input of the intersymbe compensation & distortions, and the first and second outputs are connected, respectively, via a predistortion generation unit to the control input of the KOM-I block of intersymbol distortion sensation. and through the unit for generating a reference signal to the control input of the demodulator, the output of which is connected to the control input of the predistor formation unit, which, in order to increase the noise immunity, in the transmitting part, the unit for receiving information time control signals is input, the output of which is connected to an additional modulator input with a test impulse input unit, and an information signal duration control unit and a control signaling unit are entered in the receiving part Connected in series, wherein the additional yield of the reaction channel communication measuring unit connected to- the input block t9592918 control the duration of the information; Sources of information, signal signals, the other output of which are taken into account during the examination, are connected to the combined additional 1. USSR author's certificate of the formation unit f 339, cl. H 04 L 17/02, About. Ol./O reference signal and demodulator. 5 (prototype). fuH eftuo L , Auii4 otfOtm.