SU690496A1 - Multichannel analyzer of time intervals between overshoots of random processes - Google Patents

Description

- -.one . .

The invention relates to a technique for analyzing the characteristics of random processes, in particular, to analyzers of functions of the distribution of time intervals between emissions of random processes, and can be used in information processing devices.

A device is known which makes it possible to determine the probability that the intervals between the emissions of a random process do not exceed a given one. It contains a driver that measures the period values and generates pulses corresponding to the modified periods. A logical unit that represents the period duration discriminator, the software device, the shift register, the adder, the fill register and the two accumulator 1. The known analyzer is a very complex device that allows for the continuous analysis of random processes. However, the accuracy of the analysis in this device is low, since the sliding averaging algorithm, which the device operates on, provides averaging with very low

constant time t 2T (where T is the quantization period), which, for real durations (SOUT and more), makes it impossible to use devices.

The closest in technical essence to the proposed invention is a multichannel analyzer containing a quantizer, time signals, the first input of which is the analyzer input, and the second input is connected to the output of the master oscillator and to the information input of the master oscillator , the output of which is connected to the counting input of the counter, the control input and the input I is connected to the zero output of the control

Claims (2)

5 flip-flops, a single input of which is connected to the output of the delay element, and a zero input with the installation input of the counter and the output of the signal quantizer over time, each channel has a trigger, a comparison circuit and a register, the outputs of which are bitwise connected to the first group of inputs of its circuit , the second group of inputs of the comparison circuits of all channels is connected to the bit outputs of the cier, the output of the comparison circuit is connected to the zero input of the trigger of its channel, the setup inputs of the triggers are combined and connected to the output of the cient delay unit and the inputs of flip-flops, are combined and connected to vkodu quantizer signals at time 2. ... disadvantage of the known analyzer is impossible to conduct a continuous .s analysis unbounded. over the duration of the samples of random analyzers, their periodic reset to the initial state is required. In addition, a calibrated analyzer requires rationing the measured distribution after each analysis interval, so the distribution function can only be obtained after completing the analysis of a sample of a random process and terminating the normalization of 1 ft of ftp readings: the total number of emissions in each analysis channel has increased. The goal of the invention is to analyze the analyzer and provide a continuous analysis of the random process. ,:,, / -. -; -; -; --- -. The essence of the invention is averaging over; the sliding interval of military numbers, defining the length of the interval between the emissions of a random process, related to any of the outliers; ; ; The inventiveness of the invention is explained further by the link and attached to it; pulp where the flowchart of the time interval interval analyzer is shown, between emissions of random processes. The goal is achieved by the fact that in the proposed device the input of the signal quantizer with respect to time 1 is connected with the output of the master oscillator 2 with the input of I 3, the second input of which is triggered and the element 5 is connected with the output of Quantizer 1. The output of Edempta I 3 connected to the input of counter 6, the outputs of which are connected to the inputs of comparison circuits 7, connected to registrar 8, and to the first inputs from the corresponding groups of elements 9, the second inputs of which are connected to the output of the quantizer 1, and the third to the output of the quantifier; jupe triggers 1 (forming the output register II. The inputs of the triggers 10 are connected to the output of the quantizer 1, the outputs of the Delay element 5 and the comparison circuits 1. The outputs correspond to the channel (multi-input) elements and the group 9 common signals with the inputs of the corresponding interval intervals 12. The analyzer runs in of the following sequence: The analyzed signal is fed to the input of the signal quantizer with respect to time GLKvantO1 leads to the input process emissions, arranged in a random order on the scale of the belt, to the nearest impulse The driver of the master oscillator 2. The signal from the output of the quantizer 1 throws the counter 6 to zero and sets in 1 the triggers 10 of the output register 11 and the upward trigger 4, which opens the element AND 3. The pulses from the master oscillator 2 through the element 3 begin to pass through the counter 6. At the time of the occurrence of the next pulse at the output of the quantizer 1, the signal from the outputs of counter 6 through the open elements AND of group 9 is passed to the inputs of averagers 12. In comparison circuits 7, the variable code of counter 6 is compared with the code of registers 8 (toggle switches). In this case, by simply changing the code of the number recorded in registers 8, you can change the width of each analysis channel. At the moment of coincidence of the codes of the comparison circuit 7, they generate signals that set the corresponding, O triggers 10 of the AND register to O and prohibit the signal from the outputs of counter 6 to the input | 1 corresponding to their averagers 12. The software in the analyzer is the origin of the software: algorithm M (1 - a) 1, (dT), t is the average time, T is the quantization period, i.e. it provides slippage and averaging for Dane samples with SbiicoKC "TO ic) CTbidi.:: J /,:;. The readings of Cd1d1dTel 12 i at any MOMeit of time correspond to the values of the distribution of intervals between emissions of the analyzed sigal. -. ;;; / - /. ; - - Thus, in the sample analyzer, in comparison with the known, it is possible to carry out a random analysis of random processes, thus eliminating the need for normalizing nzmersh (distribution functions and thickness of the analyzer is simplified. The proposed analyzer can be used in information processing devices, Tia-for-Wittel made prototypes: 1npeflittlfaiBiifiK analyzers, which test tests confirmed the correctness of the TexifiMeCKoro solution and provided the basis for the implementation of the proposed A multi-channel analyzer of time intervals between emissions of random processes, containing a quantizer at the same time, the first input of which is the input of the analyzer, and the second input is connected to the input of the master oscillator and to ONE 5 of the input element And, the output of which is connected to the counting input of the counter, the control input of the element AND is connected to the zero output of the control trigger, the single input of which is connected to the output element This is a delay, and zero. The input is with the installation input of the counter and with the output of the signal quantizer by time, each channel has a trigger, a comparison circuit and a register, the outputs of which are bit-wise connected to the first group of inputs of the comparison circuit of its channel, the second group of inputs of the comparison circuit All the channels are connected to the bit outputs of the counter, the comparison code is connected to the zero input of the trigger of its channel, the device: the new inputs of the triggers are combined and connected to the output of the delay element, and the single inputs of the triggers are combined and connected Any: to the output of the signal quantizer over time, about and with the fact that, in order to simplify the analyzer and provide a continuous analysis of the random process, it is introduced in each channel; the averager of the intervals and the group of elements And , while the outputs of the trigger in each channel, as well as the outputs of the signal quantizer with respect to time and the counter are connected respectively to the first, second and third inputs of groups of elements AND of each channel, the outputs of groups of elements of each channel are connected to inputs of averagers of their channel intervals ;;; ,: ... Sources of information taken so attention in the examination 1. The author's certificate of the USSR M 417792, cl. G 06 F 15/36, 1972. 2. USSR author's certificate number 354418, cl. G 06 F 15/36, 1969 (prototap).