SU641463A1 - Arrangement for evaluating correlation interval of non-centered random process - Google Patents

Claims (2)

Performance requires the use of precision elements. The third, very significant disadvantage is that, due to the small error of bias, the prototype makes the variance of the correlation depend on the value of the mathematical expectation of the analyzed signal and increases it in comparison with the case when it is zero. The purpose of the proposed invention is to increase the accuracy of the device for estimating the correlation interval. The goal is achieved by the addition of a block of 1 tani, a pulse-width modulator, a key and a block for setting scale factors, the input of which is connected to the outputs of the corresponding low-frequency filters, and the input to the output of the inverter the scaling factors are connected to the corresponding inputs of the first adder, the output of which is connected to the first input of the additional coding unit, the second input of which is connected to the output of the key, the information input of which is connected to the output of the second adder, and the controlling one to the output of the latitude-pulse modulator, the inputs of the multiplication unit are connected to the outputs of the corresponding subtraction blocks, and the output of the averaging unit is connected to the input of the pulse-width modulator whose output is connected to the input; block registration. The drawing shows a block diagram of a device containing And sequentially connected single-aperiodic low-pass filters 1c of a constant time T, inverter 2, scaling factor setting unit 3, first adder 4} second adder 5, key 6, first subtraction unit 7, second unit subtraction 8, multiplication unit 9s averaging unit Yu, pulse-width modulator 11, registering unit 12. The input of the filter 1 is connected to the input of the device, the non-inverting input of the subtracting unit 7, the second input of the adder 5. The low-pass filter outputs are connected They are connected to the inputs of the summer 4 through the scaling factor setting block 3, the output of the first low-pass filter is also connected to the inverting input of the subtracting unit 7, the output of the last low-pass filter is also charged through the inverter 2 and the block of scaling factor 3 to the AND +1 ) the inputs of the adder 4. The output of the inverter 2 is connected to the first input of the summer 5, the output of which is connected via a key to the inverting input of the subtracting locus 8, the non-inverting stroke of which is connected to the cyf output of ator 4, and the output to the second input of the multiplication block 9, the first the input of which is connected to the output of the subtraction unit 7, to the output are connected successively the averaging unit Yu and the pulse width modulator 11, the output of which is connected to the control input of the key and the registering unit 12. The voltage X of the implementation X (t) nocTynft to the device input. At the output of summer 4, the signal (-b) will be equal to 00 (t) - jH (tix {t-r) di:, og (CV) fen. i. S (iK, (f К-2К Т / Т - 2iLf: fj -fh И Т - binomial coefficients S-- jU-i), And 1,2, ... Weighting coefficients (C,) (1-К) , 2 П are set by block 3. The output of the subtraction unit 8 with the conversion factor eCj is affected by the signal y2 (, (- CV -H2 (tr) x ,,,, (delta function, (t) is the switching function of the control key 6, equal to 1 at the time T of the closed key and equal to 0 at the time () of the public key, here T is the period and the pulses of the width 1 of the pulse modulator 11. The frequency of the modulator 11 is chosen to be much higher than the upper frequency of the spectrum (signal) {t). 3 (t) -d. (r) -Hj (i:) x (tC) dr, where HdCOg ct-g - prev It is possible to show that, in the steady state operation of the proposed device, the estimate of the mathematical expectation of the product of signals CС1) and formed by the averaging block 1O is zero. At the same time, the constant component of the switching function of the output signal of the modulator 11 will be proportional to the interval estimate correlations of the recited random process. This estimate does not depend on the values of the conversion factors ot and the modulator conversion factor 11. Having ensured the multiplication unit 9 is centered on both channels and thus the independence of the dispersion of the correlation interval estimate from the value of the mathematical expectation, it is important to preserve the advantages of the prototypically small errors from the accuracy. Formula for estimating the correlation interval of a non-centrized random process containing the first adder, the recording unit, successively connected pin low frequency and inverter), the low frequency pin 4 of the low frequency is connected to the device input and to the first input of the second adder, the second input which is connected to the output of the inverter, the subtraction unit, the first input of which is connected to the input of the device, and the second to the output of the first low-frequency filter, the multiplication unit i the output of which is connected to the input of the blu averaging, characterized in that, in order to improve the accuracy of the device; An additional subtraction unit, a pulse-width modulator, a key and a scale factor setting block are entered into it, h-1 inputs are connected to the outputs of the corresponding (low frequency | / fi-th input to the inverter output, the scale factors setting block connected to the corresponding inputs of the first adder, the output of which is connected to the first input of the auxiliary subtraction unit, the second input of which is connected to the output, the information input of which is connected to the output of the second adder, and the control one to the output of the pulse width modulator, the inputs of the block yi are connected to the outputs of the corresponding subtraction blocks, and the output of the averaging block is connected to the input of the pulse width modulator whose output is connected to the input of the recording block. during examination: 1, Authorship Certificate of the USSR M 517899, CL G06G 7/19, 1975. 2. Volkov, I.I., et al. A method for constructing a device for estimating the correlation interval of an uncentered random process. The University of Radiophysics, No. 8, 1976, p. 1174-1178.