SU1057969A1 - Statistical analyzer - Google Patents

Abstract

A STATISTICAL ANALYZER containing an amplifier, the input of the coqqToTQ is the analyzer's input. combined with the control input of the amplitude selector and connected, to the output of the block of the task of analysis error, that is, with the aim of increasing Accuracy and simplification 1i, a frequency-voltage transmitter is inputted into it, the input of which is connected to the output of the pulse former, and the output is connected to the breaker contact (L type of work, the integrator’s control input is connected to the output of the unit analysis. a) O5 WITH

Description

The invention relates to measurement technology and specialized computer aids and can be used to estimate one-dimensional distribution functions and probability densities of instantaneous values of realizations of physical processes converted to electrical signals. A statistical analyzer is known that pseudo determine the distribution functions and probability densities based on the method of measuring the relative residence time of a random process realization above a given level or in a range of levels, containing an input device, an amplitude selector, a shaping device, a recording device Cl 3 In the device, due to the inaccuracy of the installation of the analysis levels and the width of the differential margin of their drift, the accuracy of the estimate of the measured function is significantly reduced; With the power of these devices, it is impossible to measure both the FUNCTIONS of the distribution and the probability density functions of instantaneous values. The closest to the proposed technical entity is a statistical analyzer containing an amplifier, the output of which is connected to one of the inputs of two amplitude selectors, the copper inputs are connected to the output of the analysis level control device, and the outputs are connected to the inputs through the forming devices. a reading device, the output of which is connected to one of the inputs of the switch of the type of work, the other output of which is connected to the output of the forming device, and the output through the integrator - to one, not the inputs c aphic indicator, the other input of which is connected to the output of the level control device akali aa C2 3. However, the device has a low accuracy of measuring the density function of probabilities due to the presence of a subtracting ycTpoftCTBia, which leads to measurement errors inaccuracy. In addition, the width of the differentiated Koopimopa l X X2 -X, due to the fluctuations of the threshold levels X and Xj of the amplitude selectors, also significantly affects the accuracy of measurements. The purpose of the invention is to improve the measurement accuracy of the probability density function to simplify the analyzer. This goal is achieved by the fact that a statistical analyzer containing an amplifier; the input of which is the input of the analysis of 1tor, and the output is connected to the information input of the amplitude selector, the output of which through the pulse generator is connected to the information input of the integrator, the output of which is connected to the information input of the indicator, the control input of which is connected with the control input of the amplitude counter and connected to the output of the task block of the analysis level; it contains a frequency-voltage converter, the input of which is connected to the output of the forming element m pulses, and an output coupled to the NC contact of the switch type of work, the ugEravl yuschy integrator input coupled to the output level specifying unit Sh1aliza. The diagram shows the structural scheme of the analyteatfa. The analyzer contains a series-connected amplifier 1, an amplitude selector 2, a shaper 3 pulses, a frequency-voltage converter 4, a switch 5, a type of operation, an indicator b, an intezgrator 7, the input of a co-amplifier with output shaper 3, and the output with a switch 5 kind of work, and block 8 for, aani analysis level, the output of which is connected to other inputs of the amplitude selector 2, integrator 7 and indicator 6. The analyzer works as follows. The signal under study is fed through amplifier 1 by amplitude sets 2, to the other input of which voltage is applied from block 8, which sets the level of voltage. Voltage surges of the signal under study, exceeding a predetermined level, arrive at shaper 3, and are normalized in amplitude and duration. Formation of 1e pulses simultaneously arrive at the inverter 4 frequency-voltage and intruder 7. The voltage from the converter 4, identical to the function of the probed process, or the voltage from the integrator 7, identical to the function of the switch, 5 kind of work on the indicator 6, on which the curve of the density of the probability or distribution function is formed. The analysis level setting unit 8 controls the expansion of the indicator 6 and the integrator 7. In this case, the integration time Tj is set equal to the process analysis time at a specific analysis level value Xd. For a certain class of stationary random processes, the random process itself and its first derivative are statistically independent (l -1 t (It can be shown that for such processes-.. (O} where is the average, the number of outliers exceeding the threshold value) is the one-dimensional probability density at the threshold value of 1c is the average value of the positive derivative of the random processes (t); it does not depend on the chosen level XQ and is therefore a constant value. Thus, the average number of emissions is o the value of the one-dimensional density of a coupler at a threshold level.Ld. Since the pulse sequence from the output of shaper 3 has an average of the following frequency Fcp () 1 of a & average number of emissions UQ, then the output of the converter 4 is frequency-voltage U (KQ), identical to the one-dimensional density w (Xo). Consequently, changing the threshold value X with the help of block 8, we obtain on the graphic indicator 6 a curve of one-dimensional probability density or a distribution coefficient (depending on the position of the switch 5). Statistical analyzer (prototype) Contains, among other blocks, a subtractive device and two amplitude selectors, and it is necessary to make very strict requirements for its construction. The non-ideal operation of the subtractor will result in systematic error in the measurements, which does not allow an accurate measurement of the actual value of the probability density function. The drift of the X- and Hch levels in the chains; ps of amplitude selectors leads to the fact that the differential k value (the fidor constantly fluctuates, which also does not allow an accurate measurement of the density function of the probetnao. Therefore, the main reason for the low accuracy Measuring the density function. Probably, using a device selected as a prototype, there is a subtracting device and two amplitude selections (s). Since the proposed device contains only one amplitude c & doesn’t contain a device at all, then the accuracy of measuring the ampli fi cation of the probability density function of the device is higher than that of the prototype, due to the simplicity of the total number of blocks included in the proposed statistical analyzer, it is simpler in design. Thus, the introduction of the frequency converter to the proposed analyzer instead of a subtractor, and replacing the difference between a single corridor formed by two threshold levels, one level of analysis by eliminating the second amplitude selector and the second forming The devices can improve the accuracy of the probability density function and improve the device.

Claims (1)

A STATISTICAL ANALYZER containing an amplifier, the input of which is the input of the analyzer, and the output is connected to the information input of the amplitude selector, the output of which is connected via the pulse shaper to the information input of the integrator, the output of which is connected to the information input of the indicator through the make contact of the work switch, whose control input is combined with the control input of the amplitude selector and connected to the output of the unit for setting the analysis level, characterized in that, in order to increase the accuracy STI and simplification, it is entered in the frequency-to-voltage converter, whose input is connected to the output pulse shaper, and the output is connected to ^c <g kind NC switch contact work, the control input to the integrator is connected to the output of L-level analysis tasks. * sl m ς © 05 CO>