SU834709A1 - Device for determining random process probability distribution laws - Google Patents

Description

I

The invention relates to computing and can be used to measure the probability characteristics of random processes.

Multichannel probability distribution devices for random processes are known.

One of the known multi-channel probability distribution meters contains a series-connected analog-to-digital converter, a digital discriminator, a time selector, and a multi-channel analyzer. The output of the sample generator is connected to the control inputs of the analog-digital converter, the analysis level change circuit and the sample counter input, the output of the analysis level change circuit is connected to the input of the digital discriminator, and the sample counter output to the control input of the time selector. The voltage of the studied implementation is supplied to the signal input of the analog-digital converter. When a sampling pulse appears, an automatic analysis level change circuit writes the level corresponding to the sample number to the discriminator. Pulses from the output of the analog-to-digital converter are fed to the digital discriminator. The number of these pulses is compared with the number of levels of analysis. If, as a result of a comparison, a pulse appears at the output of the digital discriminator, it passes into the channel corresponding to the sample number. Such a multi-channel meter allows measurement of the distribution function and the probability distribution density.

The disadvantage of such a meter is a significant measurement time and the inability to simultaneously measure the functions and the probability distribution density 1.

The closest to the present invention is a multichannel probability distribution of random processes, comprising a series-connected first input amplifier, an analog-to-digital converter, a multichannel averaging unit, a matching unit and a unit

Claims (2)

display, a sample generator, the output of which is connected to the first input of an amplitude discriminator through a sample counter. The output of the level setting unit is connected to the second input of the amplitude discriminator, and the second input amplifier is connected to the third input. The output of the amplitude discriminator is connected to the control input of the analog-digital converter. One process under study arrives at the first, and the other at the second input amplifiers. When measuring the distribution density during a sampling pulse, the amplitude discriminator compares the amplitude value of the process at the output of the second input amplifier with the differential corridor and, in the event of a hit, triggers an analog-to-digital converter that outputs the digital value of the amplitude of the random process passing through the first input amplifier. Depending on the received code, the level of the logical unit is recorded in the corresponding channel of the averaging device. When measuring the distribution function of a random process, the amplitude discriminator compares the amplitude value of the random process at the output of the second input amplifier with a predetermined level. Thus, depending on the measured function, the distribution of code values accumulates in the channels of the averaging device, corresponding to the measured function 2. However, this device also has such disadvantages as the well-known one. The purpose of the invention is to reduce the measurement time of the density of the distribution of random processes, as well as to expand the functional capabilities by recalculating the distribution function and ensuring the simultaneous measurement of the density and the probability distribution function simultaneously. This goal is achieved due to the fact that the known device for determining the probability distribution law, comprising a first input amplifier, the output of which is connected to the first input of an analog-digital converter, the output of which is connected to the input of a multi-channel averaging unit, a matching unit, the output of which is associated the input of the display unit, the second input amplifier, the output of which is connected to the first input of the amplitude discriminator, the second input of which is connected to the output of the level setting unit, the generator selected The rock, the output of which is connected to the third input of the amplitude discriminator, the output of which is connected to the second input of the analog-digital converter, is provided with a key and a subtraction unit, the output of which is connected to the output of the multichannel averaging device and the key, and the output is connected via input block matching. The drawing shows a structural scheme of the device for determining the law of probability distribution of random processes. The device contains the first input amplifier 1, the output of which is connected to the first input of the analog-digital converter 2, and the output of the latter - to the input of the multichannel averaging unit 3. The output of the matching unit 4 is connected to the input of the display unit 5, the output of the sample generator 6 through the sample counter 7 with the first input of the amplitude discriminator 8, and the output of the level setting unit 9 - with the second input of the amplitude discriminator 8, the output of the second input amplifier 10 is connected with the third input of the amplitude discriminator 8, and its output with w The analog input of the analog-digital converter 2. The output of the multichannel averaging device 3 is connected to the input of the subtracting unit 11 and through the key 12 to the input of the matching unit 4. The output of the subtracting unit 11 is connected via switch 12 to the input of the matching unit 4. The device operates as follows. One process under study is fed to the first input amplifier 1. When measuring the two-dimensional probability density during a sampling pulse, the digital discriminator 8 compares the amplitude value of the process in the second input amplifier 10 with a differential corridor and, in the event of a hit, starts the analog-to-digital converter 2, which outputs a digital the amplitude value of a random process passing through the first input amplifier. Depending on the received code, the comparison pulse is written to the corresponding channel of the multichannel averaging block 3. When measuring the random process distribution function, digital discriminator 8 compares the amplitude value of the random process in the second input amplifier 10 with a predetermined level. Thus, depending on the measured function, the distribution of code values corresponding to the measured function accumulates in the channels of the averaging block. The values of the measured function through the matching unit 4 are output to the display unit 5. The sample counter 7 counts the specified number of sample pulses coming from the sample generator 6. The level setting unit 9 allows you to automatically change the level of comparison. If the multi-channel averaging unit 3 stores the values of the distribution function, the subtraction unit allows recalculation of the distribution function values to the distribution density according to the formula W (X, 4XX) F (X) -F (X,). This significantly reduces the time to obtain the density values of the distributions than directly measuring it. Thus, a positive effect is achieved through the use of a subtraction unit, which, with the measured distribution function, can be obtained by simple recalculation of the distribution density values. An apparatus for determining the probability distribution laws of random processes, comprising a first input amplifier, the output of which is connected to the first input of an analog-digital converter, the output of which is connected to the input of a multi-channel averaging unit, a matching unit, the output of which is connected to the input of the display unit, the second input the amplifier, the output of which is connected to the first input of the amplitude discriminator, the second input of which is connected to the output of the level setting unit, the sampling generator, output The sample counter is connected to the third input of the amplitude discriminator, the output of which is connected to the second input of the analog-digital converter, characterized in that, in order to expand the functionality of the device by providing simultaneous measurement of the density and distribution function, it contains a key and a subtractor the output of which is connected to the fifth output of the key, the output of which is connected to the input of the matching unit, and the output of the multichannel averaging unit is connected to the second input of the key and with input subtraction block. Sources of information taken into account in the examination 1. Mirsky G. Ya. Hardware definition of characteristics of random processes. M., “Energie, 1972, p. 329. 2. Hardware determination of two-dimensional and conditional probability distributions. Methodical errors of measurement - "Technique of communication. Radio measuring technique. Issue 4, 1978 (prototype).