SU809599A1 - Multichannel adaptive digital communication system - Google Patents

Description

The invention relates to communication and can be used to transmit discrete information from several sources over a channel with parameters randomly changing in time.

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A multi-channel adaptive digital communication system is known, comprising in the transmitting part series-connected multiplexer and encoder, modulator and transmitter, on the receiving side, series-connected receiver and demodulator, decoder and demultiplexer, and the output of the demultiplexer through the control unit 15 of the transmission speed connected to the other input of the encoder and another input of the multiplexer, the other output of the decoder through the error control unit is connected to the input of the adaptation unit, the output of which is connected to the third input of the mult pleksera, through the output of the demodulator block * control signal / noise ratio is connected to another input of the adaptation unit, the output control unit 25 sko- growth to inputs receiving control decoder and demultiplexer, the output of which is connected to the input control unit receiving rate [1]. thirty '

However, the known system has a relatively low throughput.

The purpose of the invention is to increase throughput by increasing the speed of information transfer without increasing the transmitter power.

, The goal is achieved by the fact that the block of forming the frequency subchannels of transmission, the block of changing the base of the code are introduced into the system in the transmitting part, and the block of forming the frequency subchannels of reception in the receiving part, while the input of the block of forming frequency subchannels is connected to the output of the transmission speed control unit and the output is connected to the modulator, the input of the receiving frequency subchannel forming unit is connected to the output of the speed / gyu control unit, and the output is connected to another demodulator input, between the output encoder house and the other input of the modulator unit included changing the code base.

The drawing shows a structural electrical diagram of the proposed system.

The multi-channel adaptive digital communication system contains the transmit

80.9599 parts, multiplexer 1, encoder 2, modulator 3, transmitter 4, block 5 for generating frequency subchannels of transmission and block 6 for changing the base of the code, and on the receiving side, receiver-nickname 7 demodulator 8, decoder 9, demultiplexer 10, block 11 for controlling the transmission rate , error control unit 12, adaptation unit 13, signal-to-ratio ratio control unit 14) *, reception rate control unit 15 and reception frequency subchannel generation unit 16.

The system operates as follows.

Signals from information sources (not shown in the drawing) are sent to multiplexer 1, where a single group signal is generated, which is encoded in encoder 2 by some noise-resistant code and then goes to block 6. in block b, the number of subchannels of modulator 3 is set by signals from block 11, and the frequency spacing of these subchannels is set by block 5 according to the signals from the same block 11. Next, the signals from modulator 3 are sent to transmitter 4 and emitted.

On the receiving side, the signals are received and through the receiver 7 they enter the demodulator 8, from where they go through the decoder 9 to the demultiplexer 10 and then to the information receivers (not shown).

In the process of reception, the reception quality is monitored using block 12 and block 14. Upon signal c from any of blocks 12 and 14, block 13 generates a signal about the deterioration (or improvement) of the state of the communication channel. The command corresponding to this state is entered into the multiplexer 1 and, as part of the group signal, enters the transmitter 4 and is emitted. On the receiving side, the sent command is received and recognized by block 11. Depending on the contents of the command, a certain deceleration (or acceleration) is introduced into the operation of multiplexer 1 and encoder 2 according to the signal from block 11. In addition, block 6 generates a constant weight code, and block 5 generates new number of frequency subchannels in the occupied band. At the same time, a message is transmitted through multiplexer 1 that the transmitting part has switched to a different symbol duration and to a new number of frequency subchannels. On the receiving side, this message is extracted from the demultiplexer 10 by block 15, which changes the speed of the decoder 9 and demultiplexer 10 and simultaneously sends signals to block 16. The latter generates a new number of frequency subchannels for demodulator 8.

The proposed digital system allows you to increase the speed of information transfer while maintaining the reliability of the reception.

Claims (2)

The invention relates to communications and can be used to transmit discrete information from several sources over a channel with randomly changing time parameters i .. ;; The known-multichannel adaptive digital communication system, contains;:;; atsa in the transmitting part are serially connected multiplexer and encoder / modulator and transmitter, on the receiving side are serially connected receiver and demodulator, decoder and demultiplexer, and the demultiplexer output via speed control transmission is connected to the other input of the encoder and another multiplexer input, another decoder output, through the error control block, is connected to the adaptation block input, the output of which is connected to the third input of the multiplexer, The demodulator output is connected via a signal-to-noise control unit to another input of the adaddie block, the output of the receive rate control unit to the control inputs of the decoder and demultiplexer, the output of which is connected to the input of the receive rate control unit l3. However, the known system has a relatively low bandwidth. The purpose of the invention is to increase throughput by increasing the speed of information transmission without increasing the transmitter power. The goal is achieved by introducing the subcarrier frequency shaping unit into the system, the code base changing unit, and the receiving frequency subchannel shaping unit in the receiving part, while the input of the frequency subchannel generating unit is connected to the output of the transmission rate control unit, and the output is connected to the modulator, the input of the frequency subchannel reception unit is connected to the output of the reception speed control unit, and the output is connected to another input of the demodulator, between you The encoder stroke and the other modulator input include a code base change block. The drawing shows a structural electrical circuit of the system being intended. Multichannel adapt; 1 on digital communication system contained in the transmitting part multiplexer 1, encoder 2, modulator 3, transmitter 4, block 5 "tiopMHpoBaHHH frequency subchannel transmission and block 6 changes the code base, and on the receiving side - receiver 7, demodul the torus 8, the decoder 9, the demultiplexer 10, the transmission rate control block 11, the error control block 12, the adaptation block 13, the signal / noise ratio control block 14, the reception speed control block 15, and the frequency subchannel generation block 16. The system works as follows. The signals from the information sources 1i (not shown in the drawing) enter the multiplexer 1 where it is generated. a single group signal, which is encoded in encoder 2 by some noise immunity code and then goes to block b. In the block, according to the signals of block 11, the number of subchannels of the modulator 3 is set, and the frequency separation of these subchannels is determined by block 5 according to the signals from the same block 11. Next, the signals from the modulator 3 go to transmitter 4 and are emitted. At the receiving side, the signals are received and through receiver 7 enter the demodulator 8, from where, via decoder 9, they enter demultiplexer 10 and then to information receivers (not shown in the drawing). In the process of reception, the reception quality is monitored with the help of block 12 and block 14. On a signal from any of blocks 12 and 14, block 13 generates a signal about deterioration (or improvement) of the state of the link channel. The command corresponding to this state is entered into multiplexer 1 and as part of the group signal enters transmitter 4 and is radiated. On the receiving side, the sent command is received and recognized by block 11. Depending on the command content, a certain deceleration (or acceleration) is entered from the block 11 multiplexer 1 and coder operation 2. In addition, block 6 forgles the code of constant weight, and block 5 forms a new number of frequency subchannels in the occupied band. One message through multiplexer 1 r1 is transmitted that the transmitting part has switched to a different symbol duration and a new number of frequency subchannels. At the receiving side, this message is extracted from the demultiplexer 10 by the block 15, which changes the speed of the decoder 9 and the demultiplexer Yu and simultaneously sends signals to the block 16. The last Generates a new frequency-frequency subchannel for the demodulator 8. The proposed digital system allows to increase the transmission speed information while maintaining the reliability of reception. A multichannel adaptive digital communication system containing 1: a serially connected multiplexer and an encoder, a modulator and a transmitter in the transmitting part, and a serially connected receiver and demodulator, decoder and demultiplexer on the receiving side, and the demultiplexer output through the transmission rate control unit connected with another input, a coder and another multiplexer input, another decoder output is connected to the adaptation block through an error control block, the output of which is connected to the third input ohm multiplexer, the output of the demodulator through the signal-to-noise ratio control unit is connected to another input of the adaptation unit, the output of the reception rate control unit is connected to the control inputs of the decoder and the demultiplexer, the output of which is connected to the input of the reception speed control unit, the purpose of increasing the bandwidth by increasing the speed of information transfer without increasing the transmitter power, the block forming the frequency subchannels of the transmission is inserted into the transmitter part, the block is changed and code bases, and in the receiving part, a frequency subchannel reception unit, the input of the frequency subchannel generation unit is connected to the output of the transmission rate control unit, and the output is connected to the modulator, the input of the frequency subchannel generation unit is connected to the output of the speed control unit receiving, and the output is connected to another input of the demodulator, between the output of the encoder and the other input of the modulator a block for changing the code base is turned on. Sources of information taken into account in the examination 1. US patent I 3535264, cl. H 01 B 1/38, published 1970 (prototype).