RU2149505C1 - Multichannel broad-band delay signal look-up device for coded channel separation communication systems - Google Patents

Abstract

FIELD: radio engineering; broad-band signal communication systems. SUBSTANCE: mentioned device has computing unit, subtractor, synchronous-phase filter, N correlator units, N first and N second threshold comparison units, N signal copy generators, N look-up control units, N commutators, N noise estimate shapers, and N switches. EFFECT: reduced user pull-in time, improved system capacity. 5 dwg

Description

 The present invention relates to radio engineering and can be used in communication systems with broadband signals.

 Known devices for searching for broadband delay signals described in A.S. N 1104677, H 04 L 7/04, RF patent N 2020762, H 04 B 1/10 and others, the disadvantage of which is low noise immunity to structural interference.

 The closest in technical essence to the proposed one is a search device, presented in the monograph "Noise-like signals in information transmission systems", ed. B. B. Pestryakova, M., "Sov. Radio", 1973, p. 160, fig. 5.3.1, adopted as a prototype.

The block diagram of the prototype device is shown in FIG. 1, where indicated:
1 ₁ - 1 _N - correlator block;
2 ₁ - 2 _N - comparison blocks with a threshold;
3 - a crucial unit;
4 - signal copy generator.

The prototype device contains N blocks of the correlator 1 ₁ - 1 _N , the inputs of which are combined and are the input of the device, and the outputs through the corresponding blocks of comparison with the threshold 2 ₁ - 2 _{N are} connected to the corresponding inputs of the decision block 3, the output of which is the output of the device. In addition, N outputs of the signal copy generator 4 are connected to the reference inputs of N blocks of the correlator 1 ₁ - 1 _N, respectively.

 The prototype device operates as follows.

The input broadband signal is fed simultaneously to the inputs of N blocks of the correlator 1 ₁ - 1 _N , to which copies of the signal differing in delays are supplied from the generator 4. In each of the N blocks of the correlator 1 ₁ - 1 _N , the input signal is multiplied with the reference signal, the result of the multiplication is filtered and detected. From the output of each block 1 ₁ - 1 _{N, the} signal goes to the corresponding block 2 ₁ - 2 _N , where it is compared with a threshold. The command about exceeding (not exceeding) the threshold from the outputs of blocks 2 ₁ - 2 _N is sent to block 3, where the channel number is filtered, in which the decision on the signal effect is made.

 The disadvantage of the prototype device is the low noise immunity to structural interference.

 To eliminate this drawback, a device containing a signal copy generator, a decision block and N identical rulers, each of which contains a series of correlators and a first threshold comparison unit, the output of which is connected to the corresponding input of the decision block and the output of the signal copy generator is connected to the reference input of the correlator block, a series-connected adder, a synchronous-phase filter and a subtractor are introduced, the input of which is simultaneously connected to the first inputs of N rulers and is the input m devices, and the output of the subtracter simultaneously connected to second inputs of N lines. In each line, a commutator, series-connected interference estimator and a key, as well as a second threshold comparison unit and a search control unit are introduced. In this case, the first and second inputs of the switch are respectively the inputs of the rulers, and its third input is connected to the corresponding output of the deciding unit, the other output of which is connected to the second input of the key, the output of which is connected to the corresponding input of the adder. The output of the switch is connected to the first input of the correlator block, the second output of which is connected to one of the inputs of the noise estimator, the other input of which is connected to the output of the signal copy generator. The output of the first comparison unit with a threshold through the search control unit is connected to the input of the signal copy generator. The connection point of the output of the correlator unit and the input of the first comparison unit with a threshold is connected to the input of the second comparison unit with a threshold, the output of which is the second output of the line and connected to the corresponding input of the decision unit.

The structural diagram of the inventive device is shown in FIG. 2, where indicated:
1 ₁ - 1 _N - correlator block;
2 ₁ - 2 _N , 8 ₁ - 8 _N - the first and second blocks of comparison with the threshold;
3 - a crucial unit;
4 ₁ - 4 _N - signal copy generator;
5 ₁ - 5 _N - search control unit;
6 ₁ - 6 _N - switch;
7 ₁ - 7 _N - interference estimator;
9 ₁ - 9 _N - key;
10 - subtractor;
11 - synchronous phase filter;
12 - adder.

 The inventive device contains N rulers, each of which contains a series-connected switch 6, a correlator unit 1, a first comparison unit with a threshold 2, a search control unit 5 and a signal copy generator 4, the output of which is simultaneously connected to the reference input of the correlator unit 1 and to one of the inputs of the shaper for evaluating the interference 7, the other input of which is connected to the second output of the correlator 1. The output of the shaper 7 is connected to one of the inputs of the key 9. The connection point of the first output of block 1 and the input of the first comparison unit with a threshold ohm 2 is connected to the input of the second comparison unit with a threshold of 8, the outputs of blocks 2 and 8 are the outputs of the line and connected to the corresponding inputs of the decision block 3, the output of which is connected to another input of the key 9, the output of which is the third output of the line and connected to the corresponding input of the adder 12.

The first inputs of the switches 6 ₁ - 6 _{N are} combined and are the first inputs of N lines, in addition, they are connected to the input of the subtractor 10, the input of which is the input of the entire device.

The second inputs of the switches 6 ₁ - 6 _{N are} also combined and are the second inputs of the lines and connected to the output of the subtractor 10, the output of which is simultaneously connected to the input of the synchronous-phase filter 11, the other input of which is connected to the output of the adder 12, and the output of the filter 11 is connected to the second subtractor input 10.

The third inputs of the switches 6 ₁ - 6 _{N are} connected to the corresponding outputs of the decision block 3.

 The proposed device is a delay search device for a receiver of a base station of a cellular communication system using wideband phase-shift keyed signals and code division multiplexing.

 The input of the device receives signals from N subscribers. The signals are fed to N identical lines, each of which searches for the signal delay of one of the N subscribers and generates an estimate of the interference created by this subscriber to other subscribers of the system.

The interference estimates generated in the lines are fed through the adder 12 and the synchronous-phase filter 11 to the input of the subtractor 10, to the other input of which the input mixture from the input of the device is supplied. Thus, the input mixture arrives at the input of each line either directly from the input of the device or through a subtractor 10, in which structural interference is compensated, that is, signals of subscribers of this system whose levels exceeded the permissible value. All N rulers are identical in composition of blocks. The difference between the lines is in the structure of the reference signals of blocks 4 ₁ - 4 _N , each of which corresponds to a specific subscriber.

 Consider the work of the line.

 The input mixture from the input of the device is supplied to the first input of the switch 6, and the input mixture, in which the powerful structural noise coming from the output of block 10 is compensated, is fed to the second input of the device.

 According to the instructions of block 3, switch 6 connects either the input of the device or the output of block 10 to the input of block 1. At the initial moment of time, block 3, using the switch 6, connects the input of the device to the input of block 1. In this case, the input mixture enters block 1, where it is multiplied with the reference signal of block 4, filtering the result of the multiplication and its detection. From the output of block 1, the signal is simultaneously sent to comparison blocks with thresholds 2 and 8, while in block 2 a lower threshold is set, the level of which is determined by the specified probability of a false alarm in search mode. The threshold in block 8 is set higher than the threshold of block 2. Its level is determined by the allowable signal level of the system, exceeding which makes it impossible to receive signals from remote subscribers. Signals about exceeding (not exceeding) the thresholds from the output of blocks 2 and 8 are fed to the inputs of block 3. Simultaneously, from the output of block 2, the signals are sent to block 5, which puts the copy generator of signal 4 into scan mode by delay if there is a "0" command at its input and in the mode of stopping scanning (completion of the search) if there is a command “1” at its input.

 The reference signal from the output of block 4 is supplied simultaneously to the reference inputs of blocks 1 and 7.

 In block 7, multiplication (phase shift keying) of the signal coming from the second output of block 1 is carried out with the reference signal of block 4 with its subsequent filtering. As a result of this, at the output of block 7, an estimate of the received signal is generated, which, through the key 9, controlled by block 3, can be supplied (with the key 9 open) through a series-connected adder 12 and a synchronous-phase filter 11 to the subtractor 10. The signal from the output of the subtractor 10 is supplied to the second input of the filter 11, which automatically adjusts the amplitudes and phases of the interference estimates, which provides effective compensation for interference in the input mixture.

 The control algorithm of block 3, blocks 6 and 9 of each of the lines is as follows.

 If the thresholds in blocks 2 and 8 in this line are not exceeded, then the input of block 1 of this line using block 6 is connected directly to the input of the device, and the key 9 is closed, that is, the interference estimate generated in this line is not connected to block 12.

 In case of simultaneous exceeding of the thresholds in blocks 2 and 8, block 3 sends a command to the key 9 of this line, opening it and providing an assessment of the interference generated in this line, to the input of block 12, and the command supplied from the output of block 3 to block 6 of this line, block 1 of this line remains connected directly to the input of the device. At the same time, blocks 1 of the remaining lines in which the thresholds in blocks 2 and 8 are not exceeded, if these thresholds are exceeded in at least one of the lines by the commands of block 3 supplied to the corresponding blocks 6, are connected to the input of the adder 12.

The block diagram of block 1 is shown in FIG. 4, where indicated:
1.1 - multiplier (phase remodulator);
1.2 - filter;
1.3 - amplitude detector.

 In block 1.1, the input mixture is multiplied with the reference signal of block 4, similar to the reference signal used in the formation of the broadband phase-shifted signal of the corresponding subscriber. As a result of multiplying the input mixture with the reference signal synchronous with the broadband signal of this subscriber, in block 1.1, the convolution of the signal of this subscriber is also performed, which is filtered in block 1.2 and detected in block 1.3. The signal from the output of block 1.2 is fed to the input of block 7.

The block diagram of block 3 is shown in FIG. 3, where indicated:
31 _1-N - OR element;
32 _1-N - inverter;
33 _1-N - element And;
34 is an OR element.

Block 3 contains an OR element 34 and N identical channels, each of which contains blocks 31 _1-N , 32 _1-N , 33 _1-N .

 The input of each channel receives commands about exceeding ("1") or not exceeding ("0") thresholds from the outputs of blocks 2 and 8, which are fed to block 31. From the output of block 31, a command ("0" or "1") is given simultaneously to blocks 34 and 9, and through blocks 32 and 33 to block 6.

 Consider the various modes of operation of the decisive unit 3.

 If both thresholds are exceeded in the channel of this subscriber, then “1” is formed at the output of block 31, which is inverted in block 32 and is sent to block 33 in the form of a “0” command.

 In this case, for any value of the command generated at the output of block 34, the command "0" is generated at the output of block 33. This command is sent to block 6 of this line, which provides the connection of the input of the device directly to the input of block 1 of this line (in this case, interference compensation at the input of block 1 is not performed). At the same time, command "1" from the output of block 31 is sent to key 9, providing the connection of the interference estimate generated in this line to the adder 12, which, through block 11, is sent to block 10.

 If the threshold does not exceed at least one of the blocks 2 or 8 at the output of block 31, a "0" is formed, which is supplied to the key 9 and locks it. In this case, the interference estimate generated in this channel does not arrive at the adder 12.

 At the same time, command "0", inverting in block 32, is input to block 33 in the form of command "1". If at least one of the N lines exceeds two thresholds, the output of blocks 34 and 33 generates a command "1", which from the output of block 33 is fed to the input of the switch of this line, providing the input of the device to the input of block 1 through block 10. V In this case, the input mixture arrives at the input of this line after compensating for interference from nearby subscribers.

The block diagram of block 7 is shown in FIG. 5, where the following notation is used:
71 - multiplier (phase manipulator);
72 - band-pass filter;
73 - amplifier with adjustable gear ratio;
74, 75 is a delay element.

 Block 7 operates as follows.

 In block 71, the convoluted (narrow-band) signal coming from the second output of block 1 is multiplied with the reference signal of block 4, which is input to block 71 through the delay element 75. At the output of block 71, a broadband signal is formed (structural interference estimate), similar to the corresponding signal in the input mixture, which is filtered in block 72 (the passband of which is equal to the spectrum band of the signal of the corresponding subscriber), passes through the adjustable blocks 74 and 75, with which the amplitude and phase ki interference at the stage with the aim of its effective compensation.

 Block 11 provides automatic adjustment of the amplitudes and phases of the interference estimates and provides effective interference compensation in the operating mode. It can be performed as shown in the monograph by V.M. Svistova "Radar signals and their processing." Moscow, Sov. radio. 1977, p. 123, fig. 3.6.

 In the prototype, the noise immunity of the search to structural interference is determined by the base of the used broadband signals. The impact of powerful structural interference on the prototype device, exceeding the useful signal by power more than a factor of time, leads to false detection and an increase in the time of synchronization, which reduces the throughput of the communication system.

 The inventive device provides a simultaneous search for the delay of signals of both near and far subscribers, while reducing the interfering effect of the signals of near subscribers on the procedure for searching for signals of remote subscribers by suppressing them by a value of about 20-40 dB. The signal level of subscribers is not known a priori and is determined during the delay search process. At the same stage, interfering signals are detected and their estimates are formed, which are then used to suppress interference in the input mixture.

 A feature of the claimed device is the short time spent on the formation of interference estimates and their suppression, which leads to a sharp reduction in the time of entering into synchronism with subscribers and increase the throughput of the system.

Claims (1)

 A multi-channel device for searching for wideband delay signals for communication systems with code division multiplexing, comprising a signal copy generator, a decision block and N identical rulers, each of which contains a correlator block connected in series and a first threshold comparison unit, the output of which is connected to the corresponding decision block input , the output of the signal copy generator is connected to the reference input of the correlator unit, characterized in that the adder, synchronous-phase filter and subtracts are connected in series a circuit breaker, the input of which is simultaneously connected to the first inputs of N lines and is the input of the device, and the output of the subtractor is simultaneously connected to the second inputs of N lines, into each of which a commutator, a noise conditioner and a key are connected in series, as well as a second comparison unit with a threshold and a search control unit, the input of which is connected to the output of the first comparison unit with a threshold, and the output is with the input of the signal copy generator, the output of which is simultaneously connected to one of the inputs of the interference estimator, the first input of which is connected to the second output of the correlator block, the input of which is connected to the output of the switch, the first and second inputs of which are inputs of the line, and the third input of the switch is connected to the corresponding output of the decisive block, the other output of which is connected to the second input of the key, the output of which is connected to the corresponding adder input, the connection point of the output of the correlator unit and the input of the first comparison unit with a threshold is connected to the input of the second comparison unit with a threshold, the output of which is the output of the line and with It is connected to the corresponding input of the decision block.

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