SU855681A1 - Device for simulating time distortion distribution - Google Patents

Description

The invention relates to specialized means of electronic modeling, designed to study the information content of systems _ registration of pulsed signals in * stochastic load conditions.

When registering electromagnetic radiation (EMP) of lightning discharges from a controlled lightning center (useful signals) against the background of other lightning centers (interference flow), the intervals between pulses can be less than the recovery time of a recording device, for example a movie camera, an electromechanical counter of 15 pulses, etc. P. This leads to loss of information.

It is known that the cycle of operation of such devices, for example a photorecorder, is characterized by two parameters: 20

B0 is the reaction time of the system (for the photorecorder, the time interval between the moment of signal recording and the beginning of film rewinding to set the next frame **);

- film drawing time.

Typically,% 1. Situations are possible in which ί and ^ Ч ^ o * ^ - »r, which leads in the first case to overlaying two or more waveforms on one frame, and in the second case to a wave of waveforms. Therefore, at the design stage of registration equipment, the task of evaluating the information content of the developed devices under stochastic load conditions arises.

A device is known for statistical studies of the throughput of communication networks, containing random stream generators, a tunable switching unit, _e elements And, counters. This device allows you to assess the probability of failure in the transmission of the signal of individual streams £ 1].

The disadvantage of this device is the inability to reproduce the characteristics of the registrar and, thus, determine the cause of failure ..

The closest in technical essence to the invention is a device for modeling the distribution of temporal distortions containing a random sequence generator, an OR element, a pulse shaper, elements I. This device allows you to evaluate the effect of the distribution law of intervals between pulses on the occurrence of a collision in the receiving device £ 2].

. 3

However, this device does not allow reproducing the characteristics of the recorder and. evaluate the quality of reception of signals coming from a controlled source, against the background of a stream of signals of the same nature from other sources.

The purpose of the invention is the expansion of the class of tasks.

This goal is achieved by the fact that a group of random flow generators, a switch, a trigger, a second shaper are introduced into a device containing a random stream generator, the output of which is connected to the first input of the first AND element, the first im-, pulse generator, OR element, and AND elements. pulses and counters, and the outputs of the random flow generators of the group through the switch are connected to the group of inputs of the OR element, the output of which is connected to the input of the first counter and the first inputs; of the second, third, fourth and fifth elements And, a single output of the trigger is connected to the second input of the second element And, the output of which is connected to the input of the first pulse shaper, the first output of which is connected to the zero input of the trigger, the zero output of which is connected to the second input of the third element And, whose output is connected to the input of the second, pulse former, the first output of which is connected to the trigger input, the second pulse former to the second inputs of the first and AND elements, the outputs of which are connected respectively o with the inputs of the second and third counters, the second output of the second pulse shaper is connected to the first input of the sixth element And and to the second input of the fifth element And, the outputs of which are respectively connected to the inputs of the fourth and fifth counters, the output of the random stream generator is connected to the input of the OR element and to the second input of the sixth element AND

The drawing shows a block diagram of a device.

The device contains random flow generators (GSP) 1 and 2, switch 3, element OR. 4, trigger 5, second, third, fourth, first, neck-and-fifth and fifth elements And 6 - 11, first and second formers 12 and 13 pulses, the first, third, second, fourth and fifth counters 14-18.

The device operates as follows: with a single output of the first connected to the fourth time.

In accordance with the originally specified switching in the switch 3, the signals from the GPS 2 are supplied to the OR 4 element, the signal from the GPS 1 is also received there. 60 From the output of the OR 4 element, the total signal stream is fed to the counter 14 and to the And 6-8, 11 elements. The trigger 5 is installed in the initial state, as shown in the drawing. The first pulse of the total flow through the element And 6 · starts the pulse shaper 12, which generates a standard pulse with a duration of% about. From the second output of the shaper 12, the signal is supplied to the first inputs of the elements And 8 and 9. When the next pulse of the total stream arrives at the second input of the element And 8 for a while, while the potential is maintained at its first / input, it is registered by the counter 15. When this the time interval () of the pulse from the GPS 1 is registered in the counter 16.

At the end of the pulse T3, a signal is generated at the first output of the driver 12, which switches the trigger 5. In the new state of the trigger 5, the next pulse of the total flow arriving at the first input of the element And 7 starts the driver 13 pulses, which generates a signal of duration arriving at the first inputs of the elements And 10 and 11, the second inputs of which respectively receive pulses from the outputs of the GPS 1 and the element OR 4, recorded by the counters 17 and 18.

At the end of the pulse, the former 13 produces a signal for switching the trigger 5 to its initial state.

As a result, the counters 15 and 18 record the number of defective pulses of the total flow that fall either in the interval ΐ; ₀ , either (for a photorecorder this corresponds to the position of the pulses per frame or lubrication). Defective pulses from the controlled source are recorded on counters 16 and 17, respectively, and on the counter 14, the total number: total flow pulses.

Thus, the device allows you to evaluate the information content of various registrars and carry out their comparative assessment depending on the characteristics of the incoming signal stream. In addition, the device allows you to assess the likelihood of high-quality reception of signals from a controlled source depending on the characteristics of the source itself, and on the interference environment due to the presence of a certain number of third-party radiation sources.

Claims (2)

However, this device does not allow reproducing the characteristics of the recorder and. evaluate the quality of reception of signals from a monitored source, against the background of the flow of signals of the same nature from other sources. The purpose of the invention is the expansion of the class of tasks. This goal is achieved in that a device containing a random flow generator, the output of which is connected to the first input of the first element AND, the first pulse shaper, the OR element and the AND elements, is introduced a group of random flow generators, a switch, a trigger, a second pulse shaper and counters, moreover, the outputs of the random group generators through the switch are connected to the group of inputs of the OR element, the output of which is connected to the input of the first counter and the first inputs of the second, third, fourth and fifth And, the single output of the trigger is connected to the second input of the second element And, the output of which is connected to the input of the first pulse shaper, the first output of which is connected to the zero input of the trigger, the zero output of which is connected to the second input of the third element And whose course is connected to the input of the second pulse generator, the first output of which is connected to a single trigger input, the second output of the first pulse driver is connected to the second inputs of the first and fourth And elements, the outputs of which are connected according to Actually with the inputs of the second and third counters, the second output of the second pulse generator is connected to the first input of the sixth And element and to the second input of the fifth And element whose outputs are respectively connected to the inputs of the fourth and fifth counters, the output of the random flow generator is connected to the input element OR to the second input of the sixth element AND The drawing shows the block diagram of the device. The device contains random flow generators (GSP) 1 and 2, switch 3, element OR.4, trigger 5, second, third, fourth, first, neck and fifth elements AND b - 11, first and second drivers 12 and 13 impulses owls, first, third, second, quarters and five counters 14-18. The device works as follows. In accordance with the originally specified commutation in switch 3, the waves with GPS 2 are fed to the OR 4 element, the signal from GPS 1 comes from the OR 4 output of the total signal flow to the counter 14 and And 6-8, 11 elements. Trigger 5. set in the initial state, as shown in the drawing. The first impulse of the total flow through the element I 6 starts the shaper of 12 pulses, which produces a standard impulse of duration to. From the second output of the imaging unit 12, the signal is fed to the first inputs of the elements 8 and 9. When the next impulse of the total flow arrives at the second input of the element 8, during the time that the potential is maintained at its first speed, it registers with counter 15. The same time interval (tg) of the pulse from SHG 1 is registered in the counter 16. At the end of the pulse, a signal is generated at the first output of the driver 12, which switches the trigger 5. in the new state of the trigger 5 the next pulse of the total flow a, arriving at the first input of the element And 7, starts the pulse shaper 13, which generates a signal of duration C, which arrives at the first inputs of the elements 10 and 11, the second inputs of which receive impulses from the outputs GSP 1 and the element OR 4, respectively, recorded by the counters 17 and 18. At the end of the pulse t, the shaper 13 produces a switch signal of the trigger 5 to the initial state. As a result, the counters 15 and 18 record the number of rejected total flow pulses, which fall either in the interval tg or - Z (for a photo recorder, this corresponds to the position of the pulses per frame or lubricant). On counters 16 and 17, respectively, the defective pulses from the monitored source are recorded, and on the counter 14 - the total number: total flow pulses. Thus, the device makes it possible to evaluate the information content of various recorders and to carry out their comparative evaluation depending on the characteristics of the incoming signal flow. In addition, the device makes it possible to estimate the probability of high-quality reception of signals from a monitored source, depending on both the characteristics of the source itself and the interference situation due to the presence of a certain number of third-party radiation sources. An apparatus for simulating the distribution of temporal distortions, comprising a random flow generator, the output of which is connected to the first input of the first AND element, the first pulse shaper, the OR element, and the AND elements, characterized in that, in order to expand the class of tasks to be solved, the GROUP random flow generators, a switch, a trigger, a second pulse shaper and counters, and the outputs of the random flow generators of the group through the switch are connected to a group of inputs of the OR element, the output one of which is connected to the input of the first counter and the first inputs j Toporo of the third, fourth and fifth elements I, the single output of the trigger is connected to the second "at the input of the second element I, the output of which is connected to the input of the first pulse shaper, the first output of which is connected to zero to the trigger input, the zero side of which is connected to the second input of the third element I, which is connected to the input of the second pulse generator, the first output of which is connected to the single trigger input, the second output of the first form the pulse bodies are connected to the second inputs of the first and fourth elements AND, whose outputs are connected respectively to the inputs of the second and third counters, the second output of the second pulse generator is connected to the first input of the sixth element Nick to the second input of the fifth element And whose outputs are respectively connected to the inputs of the fourth and fifth counters, the output of the random flow generator is connected to the input of the OR element and to the second input of the sixth element I. Sources of information taken into account during the examination 1. Authors USSR certificate 490135, cl. G About G 7/48, 1973. 2. USSR author's certificate No. 409241, cl. G About G 7/48, 1971 (prototype).