SU1037287A1 - Device for simulating pulse interfepention flow - Google Patents

Abstract

A DEVICE FOR MODELING A FLOW OF IMPULSE POMES, containing according to the Number of simulated effects, generators of impulse noise packets, each of which consists of series-connected sources of Poisson UN streams and a trigger, each of two outputs of which are connected to the corresponding input of the OR element. . The first input of the element And, the second input of which is connected to the output of the source of the Poisson pulse stream, is different in order to expand its functionality by simulating a stream of impulse noise packets due to the imposition of independent actions, it additionally contains the element. OR and sequentially connected clock pulse generator and random pulse generator, to the output of which Circuit connected, the number of which is equal to the number of simulated impacts, each of which is soda serially interconnecting the first block and the memory block, the outputs of each memory block are connected to the input of the corresponding impulse noise packet generator, the output of which is connected to the input of the corresponding second block, the output of which is connected to the corresponding input of the OR element, as well as random pulse sensors, the input of each KOTOJMJX is connected to the W input of the corresponding impulse noise packet generator and the first control input of the corresponding first prohibition block; the generator output is clock pulses is connected to the second control inputs. blocking the prohibition, and the outputs of the sensors of random pulses of each of the circuits are connected to the first control input of the second 9 41 block of the prohibition of the corresponding circuit. N3 eo vj

Description

The invention relates to computing and can be used to simulate the flow of pulsed signals from a set of interfering influences that are necessary to study the probability characteristics of channels for transmitting discrete information, as well as when testing devices with a complex structure,

A device for simulating a pulse noise flow comprising a clock pulse generator, three random pulse generators, two function converters, a trigger, an AND element, a random signal sensor, an initial conditions setting unit, a key, a deceleration line, an amplitude modulator, and a pulse counter is known.

The disadvantage of this device is relatively narrow functionality, since it does not allow for simulating complex streams containing overlapping in time packets of impulse noise differing in the number of pulses in a packet and modulated in amplitude. .

Closest to the invention, the technical entity is a random pulse generator, containing a source of Poisson pulse flow, a random binary digit generator, the first element AND, the trigger, the first and second integrators, the element OR, the second element AND, the first and second keys, and the trigger input is connected with the source of the Poisson flow of pulses, and the first and second outputs of it through, the first and second, the second integrators are connected respectively to the first and second inputs of the OR element, the output of which is connected to the input of the first AND gate through the first input of the second AND gate and the first switch, the output of which through the first input of the second switch is connected to the input of the generator of random binary digits, and a second input of the second AND gate and the two keys are connected to a Poisson pulse stream 21.

The proposed device also has relatively narrow functionality because it does not allow the generation of complex streams containing overlapping

in time the packets of impulse noise.

due to the imposition of several independent interferences.

The purpose of the invention is to expand the functionality of the device by simulating a stream of packets of 60 impulse noise caused by the application of independent effects.

The goal is achieved by the fact that the device containing, according to the number of simulated effects, is 5

Burst packets of impulse noise, each of which consists of sequentially connected sources of Poisson streams. Pulses and a trigger, each of two outputs of which is connected to the corresponding input of the OR element, whose output is connected to the first input of the AND element, the second input of which connected to the output of the source of a Poisson stream ish1 pulses, the OR element and the serially connected clock generator and random pulse generator are added, to the output of which The circuits are connected, the number of which is equal to the number of simulated impacts, each of which contains the first block and the memory block connected in series, the outputs of each memory block are connected to the input of the corresponding generator of impulse noise packets whose output is connected to the input of the corresponding second block ban; which is connected to the corresponding input of the OR element, as well as sensors of random pulses, the input of which is connected to the input of the corresponding generator of impulse noise packets and rvym yuschi control input of the respective block prohibition clock generator output being connected to the second control inputs of the prohibition unit, and the random pulse sensor outputs of each of the circuits connected to the first control input of the second unit corresponding prohibition circuit him.

FIG. 1 is an electrical structural diagram of the device; FIG. 2 is a blocking block diagram.

The device contains series-connected 1 clock pulse generator and 2 random pulse generator, the output of which is connected to the inputs and the circuits (AND is the number of simulated interfering influences), each of which contains a series-connected unit. 3 prohibitions, one control input of which is connected to the output of the generator 1 | clock pulses, - memory block 4, the output of which is connected to another control input of the prohibition unit 3, generator 5 of impulse noise packets and prohibition block 6, one control input of which connected to the output of the generator 1 clock pulses, and the other through the sensor 7 random pulses - to the input of the generator 5 packets of impulse noise, and the element OR 8, the inputs of which are connected to the outputs of blocks b prohibit each of the circuits.

The generator 5 of impulse noise packets contains a series-connected source .9 of a Poisson pulse stream and a trigger 10, each of two outputs of which is connected to the output source 9 through an appropriately connected integrator -Ni 12 through a correspondingly connected element of OR 13. Poisson flow of pulses. The prohibition elements 3 and b are made according to the same scheme, and each of them contains a trigger 15 and an element 16. And: A device for simulating a pulse interference flow works as follows. A clock pulse generator 1 generates pulses of the beginning of a time interval during which a stream of pulse noise is simulated. This impulse triggers a generator of 2 random impulses and, entering the corresponding control inputs of the prohibition blocks 3 and 6, opens them. Block 3 of the ban works as follows. In the initial state, the trigger 15 is in such a state when there is no signal at its output and, therefore, an AND element 16 for the input signals is closed. When a signal is applied to the control input of the trigger from the clock pulse generator 1, the trigger switches to the state when the output of the trigger shows a signal that opens the AND 16 element. As a result, the signals arriving at its input . When issuing a pulse to another control input of a trigger from the output of memory block 4, the latter switches to the initial state when the And element closes. Prohibition unit 6 operates in a similar manner, except that the AND element of this unit closes when the control signal is applied to another trigger input from the random pulse sensor. The generator 2 of random pulses produces a Poisson flow of pulses, which sets the moments of the beginning of a packet of impulse noise caused by independent interfering effects. The Poisson stream and shulks through open blocks 3 of the ban goes to blocks 4 of memory. The memory blocks 4 are made in the form of an explorer1; But the connected cells (elements) of the memory, for example, in the form of trigger lines. In this case, each of the newly arriving at the input (the memory block of the pulses shifts all the preceding pulses by the BnpeiBO cell). At the same time, the 4pam blocks differ from each other by one ku. When filling all the cells of the next memory block, they are a pulse causes a signal to appear at the output of the memory block, which is fed to the control input of the corresponding prohibition unit 3 and to the inputs of the corresponding generator 5 of the impulse noise packets and the random pulse sensor 7. When the prohibition unit 3 is closed, the remote The flow of signals from the generator 2 of random pulses to the input of the corresponding memory block 4. Since all the memory blocks 4 differ in the number of Psm cells, this ensures the inclusion of the corresponding 5 generators of impulse noise packets at random times, which are subordinate to: Poisson the distribution given by random pulse generator 2. This simulates the onset of the effect of interfering influences at random times. When a signal arrives at the sensor input of 7 random pulses, made in the form of a generator of poissons from a stream of pulses, the latter generates a pulse at a random time and closes the corresponding prohibition block 6, excluding the passage of signals from the output (Generator 5 to the input of the OR 8 This thereby ensures the random length of the impulse noise packet generated by the corresponding generators jpoM 5 .. j In addition, when a signal arrives at the input of the generator 5 impulse packets. The Poisson source 9 is switched on. a stream of pulses that simulates the moments of occurrence of pulsed noise in a packet, while trigger 10 is constantly in a state where a constant level signal is present at one of its outputs and there is no signal at the second output. it changes its state to the opposite. Thus, on both outputs; trigger 10, alternating pulses are generated, the amplitudes of which are constant, and the durations are equal to the duration of the intervals between pulses coming from the output of the source 9 Poisson stream of pulses. These streams of pulses arrive at the inputs of the integrators 11 and 12, where they are converted into streams of sawtooth pulses, which are combined by the element OR 13 and arrive at & the stroke of element 14. And the special feature of this stream is that in it the moment of the end of each pulse is . the commencement of the next, and these times coincide with the moments of the appearance of the pulses at the output of the source 9. In addition, the value of the amplitudes of the pulses at the output of the element OR 13 is a function of the random time interval between adjacent pulses of the Poisson flow

pulses. in this case, the amplitudes of the pulses at the output of the And 14 element are subject to the exponential distribution law, the parameter of which is determined by the characteristics of the trigger 10.

Thus, at the output, each of the prohibition blocks 6 is formed. a packet of pulses, the beginning and end of which are random variables. Random values are also the number of pulses in

packet, the time intervals between pulses and their amplitude.

Pulse packets are combined by the OR 8 element into a common stream of overlapping impulse noise.

Thus, it is possible to simulate complex interference flows that contain time-dependent impulse noise packets caused by independent mixing effects, which contain a random number of pulses with random amplitudes.

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Claims (1)

A DEVICE FOR SIMULATING A PULSE NOISE FLOW, containing, by the number of simulated influences, pulse noise packet generators, each of which consists of a series-connected source of Poisson flows of pulses and a trigger, each of the two outputs of which is connected through the corresponding integrator to the corresponding input of the OR element, whose output is connected -. is not connected with the first input of the And element, the second input of which is connected to the output of the · source of the Poisson pulse stream, which is characterized by the fact that, in order to expand the functionality by simulating the stream of burst noise packets caused by the imposition of independent influences, it additionally contains an element. OR and a sequentially connected clock pulse generator and a random pulse generator, to the output of which circuits are connected, the number of which is equal to the number of simulated actions, each of which contains connected in series with the first inhibit block and the memory block, the outputs of each memory block are connected to the input of the corresponding pulse noise packet generator, the output of which is connected to the input of the corresponding second inhibit block, the output of which is connected to the corresponding input of the OR element, as well as random pulse sensors, the input of each which is connected to the input of the corresponding pulse noise packet generator and the first control input of the corresponding first prohibition block, the output of the clock in connected to the second control inputs of the prohibition blocks, and the outputs of the sensors of random pulses of each of the circuits are connected to the first control input of the second block of the prohibition of the corresponding circuit. _aa SU «„ 1037287>