SU785785A1 - Device for classifying random signals by energy spectrum shape - Google Patents

Description

The invention relates to the field of radio measurements.

A device is known for classifying random signals, comprising groups of counters with a preliminarily 5 adjusted connection threshold, amplifiers, analysis units fl}.

This device does not provide sufficient accuracy and reliability of registration. . '0

A device is also known; comprising a centering unit, the input of which is connected to the input bus, and the output through a series-connected amplifier and clipping unit 15 is connected to one of the inputs of the counter unit, the outputs of which are connected to the inputs of the decision unit [2J,

A disadvantage of the known device is that it does not provide sufficient classification accuracy.

The aim of the invention is to increase the reliability of the classification. ' 25 The goal is achieved by the fact that N blocks processing, each of which consists of a delay element and sequentially connected subtractor and clipping block, the output of each clipping block of N processing blocks is connected to the corresponding inputs of the counter block, p When in use, one input of the first subtracter processing unit directly and the other via a delay element connected to the output of the amplifier and the inputs of all subtracters subsequent N-1 processing unit directly and via a delay element of the processing unit ► subtractor connected to the output of the previous processing block.

The drawing shows the proposed device, a structural electrical diagram.

The device comprises a centering unit 1, an amplifier 2, a clipping unit 3, a counter unit 4, a decision unit 5, N processing units 6.1-6.N, each of which contains a delay element 7, a subtractor 8 and a clipping unit 9. Input signal is applied to input bus 10.

The principle of operation of the proposed device is as follows.

A random signal received at the input of the device is sequentially centered in block 1 and amplified in amplifier 2, the amplified signal is fed to the input of block 3, in which it is clipped near the zero level, from the output of the clipping block there is one pulse / corresponding to each positive edge of the clipped signal , write to one of the counters (not shown) of the block 4 counters, accumulating in the last number of pulses proportional to the number of zeros: a random signal. The amplified signal from amplifier 2 is supplied directly. to the input of the subtractor 8 of the processing unit 6.1, and the delayed signal is element 7. to another input of the same computer. The difference signal obtained by subtracting the delayed signal from the current one is fed to the input of block 9 of the first processing block (6.1), in which it is clipped near the zero level, forming a clipped differential signal. Similarly to that described above, in the second processing unit (6.2), the delayed difference signal is subtracted from the difference signal and clipped near the zero level. Similarly described, subsequent clipped difference signals are formed. From the output of blocks 9, the pulses corresponding to the positive difference of the first, second and clipped ^: t, d ,, difference signals are fed to the counters of block 4, in which numbers proportional to the number of extrema and inflection points of the random signal are accumulated. At the end of a fixed time interval'analysis of a random signal, the information accumulated in block 4 on the number of zeros, extrema, inflection points, etc .; d "_; it is read into block 5, after which all the counters of block 4 are set to zero.

Thus, the device is preparing for the analysis of the next implementation of a random signal, the $ 5 block makes a decision on whether the random signal belongs to a certain class, implementing a certain decision-making algorithm.

Claims (2)

The invention relates to the field of radio measurements. A device for classifying random signals is known that contains a group of counters with a pre-adjusted connection threshold of amplifiers, analysis blocks 1. This device does not provide sufficient accuracy and reliability of recording. It is also known device; containing a centering unit, the input of which is connected to the input bus, and the output through a series-connected amplifier and clipping unit is connected to one of the inputs of the unit. counters, the outputs of which are connected to the inputs of the decision block 2J. A disadvantage of the known device is that it does not provide sufficient classification accuracy. The aim of the invention is to increase the reliability of the classification. The goal is achieved by the fact that the device containing the centering unit, the input of which is connected to the input bus, and the output through after. an amplifier and clipping block that is connected to it is connected to one of the inputs of the counter block, whose outputs are connected to the inputs of the decision block, N processing units are inserted, each of which consists of a delay element and a series subtractor and clipping block, the output of each clipping block N processing blocks is connected to the corresponding inputs of the counter block, with one input of the subtractor of the first processing unit directly, and the other through the back end element connected to the output of the amplifier, and the inputs of the calculation all subsequent N-1 processing units directly and through the delay element of this processing unit are connected to the output of the subtractor of the previous processing unit. The drawing shows the proposed device, a structural electrical circuit. The device contains a centering unit 1, an amplifier 2, a clipping unit 3, a block of 4 counters, a decisive block 5, N processing blocks 6.1–6, N, each of which contains an element of delay 7, a subtractor 8 and a block 9 of clipping. The input signal is fed to the input bus 10. The principle of operation of the proposed device is the following. A random signal arriving at the input of the device is sequentially centered in block 1 and amplified in amplifier 2. The amplified signal is fed to the input of block 3, in which it is clipped near the zero level, From the output of the clipping block, one impulse corresponding to each positive differential clipped signal, recorded in one of the counters (not shown) of the block of 4 counters, accumulates in the last number of pulses, proportional to the number, zeros of the incident signal. The amplified signal from amplifier 2 comes in directly. to the input of the subtractor 8 of the processing unit 6.1, and each element 7 of the delayed signal -. to another input of the same evaluator. The difference signal obtained by subtracting the delayed signal from the current one is fed to the input of block 9. The first processing block (6.1) in which it is clipped near the level, will form; clipped differential signal. Similarly to that described above, in the second processing unit (6.2), the delayed difference signal is subtracted from the difference signal and clipped near the zero level. The subsequent clipped difference signals are generated as described above. From the output of blocks 9, the pulses corresponding to the positive differential clipping of the first, second and t, d, differential signals arrive at the counters of block 4, in which they accumulate numbers proportional to the number of extremes and inflection points of the random signal, respectively. At the end of a fixed time interval for analyzing a random sigg accumulated in block 4 information about the number of zeros, extremes, points of inflection and t; Dg is read into block 5, after which all counters of block 4 are set to zero, thus the device is prepared to analyze the next implementation of a random signal, block 5 makes a decision about the belonging of a random signal to a certain class, to implement a certain decision-making algorithm. Claims. A device for classifying random signals by the shape of the energy spectrum, containing a centering unit, the input of which is connected to the input bus, and the output through a series-connected amplifier and clipping unit is connected to one of the inputs of the metering unit, the outputs of which are connected to the inputs of the decision unit, characterized by In order to increase the reliability of the classification, N processing units are introduced in it, each of which consists of a delay element and a series-connected subtractor and clipping unit. , the output of each clipping block N processing blocks is connected to the corresponding inputs of the counter block, with one input of the subtractor of the first processing block directly and the other through the delay element connected to the output of the amplifier, and the subtractors of all subsequent N-1 processing blocks directly and through the delay element of this The processing unit is connected to the output of the subtractor of the previous processing unit. Sources of information taken into account in the examination 1, French Application No. 2167287, class, -G 01 H 3/00, 18.09.73. 2. USSR author's certificate 303633, cl, G 06 G 7/52, 14.02,71 (Prototype),