SU858059A1 - Information receiving and processing device - Google Patents

Description

(54) DEVICE FOR RECEPTION AND PROCESSING OF INFORMATION

The invention relates to the field of data transmission, processing and information, and determining the characteristics of random processes and is designed to isolate impulse signals from interference with the control of the reliability of the received message.

Known devices that solve the problem of highlighting pulsed signals.

A device for protection against impulse noise is known, avoiding them by locking the receiving path for the duration of their operation, comprising a delay element connected to the device input, the output of which is connected via an interrupter to the input of the power amplifier whose output is connected to the output device, a pulse detector connected to the second input of the transducer through the shaper, between the input of the element delay; ki and the input of the pulse detector included amplifier AGC 1.

The drawbacks of the device are: I. The impossibility of suppressing continuous noise and noise, which were replaced with a useful signal when passing through the radio link.

2. Low noise immunity to the effects of noise pulses in the presence of noise, which is explained by an increase in the average signal level and in connection with this decrease in the sensitivity of the pattern for the selection of noise pulses to the effects of the latter.

3. The change in pikfator input signal in the process of: reception for adaptive adjustment is not taken into account.

15 threshold of the driver control for the pulse pulse.

The closest in technical essence to the present invention is a device for the selection of pulsed

30 signals containing a series-connected amplifier, a first delay element, an inverter, a first adder, an amplitude discriminator, a second delay element, a second adder, a differentiation unit, a threshold unit, and a standard output driver, the second input of the first adder is connected to the amplifier output, and the second the input of the second adder - with the second output of the amplitude discriminator G23 However, the device has a low noise immunity to the effects of fluctuation. interference. The effect of such interferences on impulse signals leads to modulation of their duration by random law and, therefore, information pulses will be filtered by the device as interfering. The purpose of the invention is to improve the noise immunity of the device. The goal is achieved by the fact that in a device for receiving and processing information, containing an amplifier, the input of which is connected to the input of the device, the output is connected to the input of a delay unit, a pulse shaper, the output of which is connected to the output of the device, and an information processing channel, including a pulse shaper an adder, a differentiation unit, an amplitude selector and a delay element; the first output of the pulse sequence generator is connected directly to the first input; the sum of the torus, the second output through the delay element - with the second input summa output of which is connected through the differentiation unit to the input of the amplitude selector, a control unit of the OR element, a registration unit, additional information processing channels are entered, a subtraction unit and a counter are entered into the information processing channel, the subtraction unit output connected to the input of the pulse sequence sequencer, the output of the amplitude selecto is connected to the first input of the counter and the corresponding input of the first element OR, the output of which is through the pulse generator is connected to the input of the control unit, the output of which is connected by the second inputs of the counter of all information processing channels, the outputs of which are connected to the corresponding inputs of the second OR element, the output of which is connected to the input of the registration unit, the first input of the subtraction unit of each information processing channel is connected to amplifier output, the second input - with the corresponding output of the delay unit. FIG. shows a functional diagram of an apparatus for receiving and processing information; Figures 2 and 3 show timing diagrams, to explain the operation of the device. The device (Fig. 1) contains an amplifier with an AGC, a delay unit 2, a control unit 3, an impulse generator 4, elements OR 5 and 6, a registration unit 7 in each channel 8k about. processing information, block 9-9 subtraction, shaper 10 pulse sequences, adder 11, differentiation unit 12, amplitude selector 13x, -13, counter 14, and delay element 1514. The device input 16 receives sequences of video pulses, the duration of which is a priori known, but varies from pulse to pulse randomly due to the impact of additive noise. An amplifier with an AGC ensures the constancy of the signal level at its output when it is changed at the input of the amplifier. The state of the amplitudes of the pulses from the output of the amplifier 1 (Fig. 2a) allows the constant level A to be used in the amplitude selectors 13 (Fig. 3 K, m, nj). The delay block 2 delays in the time interval defined by the expression i, -ft.f, C) where 1 is the duration (a priori) of the information pulse; L - the maximum value of the deviation of the pulse duration from a priori known. The value of ac is determined by static processing of the results of previous measurements or is set in accordance with the expected value of the pulse duration fluctuations. The taps to the delay unit 2 are made with discrete values of the delay time intervals. The magnitude of the time interval g is chosen so that, when differentiating the two pulses that follow through such an interval, it will provide undistorted and well-distinguishable pulses of the result of differentiation. 5 The existence of this iteration of time is explained by the difference in the characteristics of differentiation units 12 from the characteristics of ideal differentiation devices. Thus, the delay time of the input signals from amplifier 1 from the output to the output of the delay unit 2 varies according to the expression: H ,. -and ..,., p -It-i I irn, n + 1, ..., i2n where At is the unit delay time interval; 1 1,2 ,,. П- numbers of the tap of the block 2 delay, the delay block at the same time has 2p tap where p.Н дГ, () where рс. - the value defined in the expression (1). The number 2n determines the amount of cash in the 8 processing of information; The delayed and non-delayed signals are subtracted in blocks 9i-9 (subtracted. As a result of this operation, the overlapping parts of the information pulses and the spectral components of the noise, the correlation time, which is longer than the delay times in block 2, and also some interference pulses, randomly matched in the temporary position in the forward and delayed processes (Fig.2 d, g, s The shapers 10 separate the signals from the output of the subtraction blocks at the zero level into a sequence of positive and negative pulses polarity pulses of positive polarity are delayed by delay elements 15 -15 | 4. The delay time of these pulses by elements N of each 1st cann 8 processing is equal to the delay time of signals in block 2 corresponding to the given value i.The summation in the accumulator 11 is delayed positive and undelayed negative pulses taken from the outputs of the imaging unit 10, leads to the complete suppression of noise and interference pulses, with the exception of a small part of them located on the side of the rear and leading edges of the pulse 9 in the interval time equal to the delay of the process for a given channel processing-1 to (fig.Z i, l, n). Eadasch and Transmission 4, Fusions of Psychic and Negative Impulses 1C "in & of these sequences in time only in those canals of which the duration of the distortion of the initial process from the output of amplifier 1 turned out to be equal to the delay time of the Vioke 2 and the elements 8. Differ 1 to 91 | О OUT of such differences in blocks 12 12 with a double amplitude by one, unlike the results of differential differentiation of impulses, the temporal position of the rear and front fronts of which did not coincide. Amshsh udling, carried out by ASChutud1SHMI selectors allows you to select from the pulses the result of differentiation of Fig 3-k, m | only pulses with a double amplitude, thereby ensuring the final allocation of the information pulse of onpei divided duration on the halls of the noise and noise, Thus, each; 9 | 1st processing channel is set to the selected “hp-. pulses of only a certain durability, the value of which is set by the delay time in block 2 delay 1f. Since the number of processing channels is chosen in such a way that it covers all possible values of the durations of information pulses distorted by noise, a high-quality selection of the transmitted, impulse message is ensured. Element OR 5 reduces selected amplitude selecto | sam 13 - 13 (c pulses in one stream 1fig.Z f). The shaper 4 pulses produces pulses of the desired duration, arriving at the output, 17 devices. The number of pulses at the outputs of the amplitude selectors 13, calculated for a definite time interval Ш1 counters lA (i, carries information on the number of information pulses with a duration for which one or another processing channel is set. Discreteness of different durations is equal to 1) according to (2). Therefore, it is possible to assume that each value of the pulse rate allocated to a particular processing channel is observed in the input realization of the random process in the time interval equal to At. Count the number of pulses n currents (fig.Z p, s, t) on a time interval specified by the block

This control allows realizing the measurement of the density of the distribution of fluctuations of the duration of information pulses by the method of discrete lines.

The density estimate is characterized by the ratio

(a b: sr- (

where h is the number of pulses perpetual in a particular processing channel; & t. - differential width

corridor;

K is the total number of samples; I is the number of the processing channel. The total number of samples K is calculated by control block 3 by counting the generated driver.

4 information pulses in the same time interval, and in the process of measurement remains a constant number. The width of the differential corridor d t also does not change, therefore the probability density value is determined by the number of pulses h. Since the analysis of the residence time of the random process realization in the interval at is performed in parallel for all intervals d, after the end of the averaging cycle, the result of measurement in the counters 14 | c recorded a series of discrete values of the density distribution of fluctuations of the duration of the measuring pulses.

By the signal from control unit 3, discrete values of the distribution density are output from counters 14 through an element OR 6 sequentially, starting with a channel configured to select the longest information pulse duration.

The time interval between the reading of the measurement results is chosen multiple of the width of the differential corridor and equal to the speed of information output by the recording unit 7. The registration of the values of the density of the distribution can be done in digital form or in the form of points whose ordinate corresponds to the measured value of the density of distribution. The resulting graphic | Image density distribution allows you to determine the mathematical expectation, standard deviation and difference of the distribution law of the random process under investigation from the normal, other characteristics of the input random process.

If it is necessary to control the reliability of received messages without analyzing the distribution law, one can use the results of pulse counting hj of the 14-channel counters tuned to the a priori given duration of information signals. When receiving reliable information h () K, with deterioration of reliability, the inequality will increase.

When receiving telemetry information from the NL, in other temporal systems, the calculated value of the standard deviation of the fluctuation of the distance can be used to correct the result of the telemetry.

The proposed device has advanced noise immunity to the effects of fluctuating noise, which allows confidently pick up information pulses from the noise. Evaluation and registration of density values, accompanying the reception of a random process, make it possible to judge the reliability of received messages, create pre-plots to automate the process of selecting information.

Claims (2)

Invention Formula A device for receiving and processing information that contains an amplifier whose input is connected to the device's input, an output to an input of a delay unit, a pulse shaper, the output of which is connected to the device output, and an information processing channel to turn on the shaper of pulse sequences, adder, differentiation unit, amplitude the selector and the delay element, the first output of the pulse sequence generator is connected directly to the first input of the summator, the second through the element delay - with the second adder input, the output of which is connected to the amplitude selector input through a differentiation unit, characterized in that, in order to increase the noise immunity of the device, the control unit, the OR elements, the registration unit, additional channels of information processing, each channel of information processing is entered into the subtraction unit and the counter, the output of the subtraction unit is connected to the input of the pulse generator, the output of the amplitude selector is connected to the first input of the counter and the corresponding the input of the first element OR; the output of which through the pulse shaper is connected to the input of the control unit whose output is connected to the second inputs of counters of all the information processing channels, the outputs of which are connected to the corresponding inputs of the second OR element, the output of which is connected to the input of the registration unit, the first input of the subtractor of each information processing channel connected to the amplifier output, the second input - with the corresponding output of the delay unit. Sources of information taken into account in the examination 1. USSR author's certificate number 418984, cl. H 04 B 1/10, 1970, 2. USSR author's certificate number 658784, cl. H 04 Q 1/36, 1977 (prototype).  about