SU642715A2 - Dispersion determining device - Google Patents

Description

The invention relates to the field of computing and can be used to determine the basic characteristics of the Haar coefficients depending on random functions. On the main auth. No. 327496, a device for calculating the variance of a stationary random process, but not measuring the variance of the Haar coefficients of a random process, is known. The aim of the invention is to expand the functionality of the device. This is achieved by introducing additional AND elements into the proposed device, number registers, subtraction blocks, AND group of elements, a control block and a recording and forward block whose input is connected to the output of the first additional, AND element, whose information input is connected to the counter output, and the output block a block through the additional element And rto "kJiKi4eH to the input of the probabilistic binary element and the output of the third additional element AND, whose information input is the corresponding input of the {yu The output of the element AND readout is connected to the information inputs of an additional group of elements AND, whose outputs through the number registers are connected to the information inputs of the corresponding additional elements AND whose outputs, except one, are connected to the first inputs of the corresponding subtraction blocks, the second inputs of which are connected respectively to the outputs of the registers numbers, the control inputs of the additional elements And and the group of elements And are connected to the corresponding outputs of the control unit, the input of which is connected to course of the clock. The drawing shows the block diagram of the proposed device. Consider the operation of the proposed device on the example of calculating the dispersion of the first Haar coefficient, i.e. the variances of the mean value on the orthogonality interval T. The average value (mathematical expectation) of a random ergodic process on the Vth interval T is determined by the following expression: vr tt) dt -J-2x (ti), i.VM, 2 ...., M Numbers) (t) (" l, 2, ..., N) corresponding to the first interval T () of the random process x (i) are fed to the inputs of probabilistic binary elements (VDE) 1 and 2. When entering the VDE 1 and 2 are clock. pulses from the clock generator 3a, the numbers are coded by one or zero. These streams of ones and zeros come from the outputs of VDE 1 and 2 to the element I 4 and simultaneously to the meters {mathematical expectation) 5 and 6, the average value of the random process formed in the counter b at the first interval t (udt - six {i) oiV through an additional The elements 7 09 of the command from the control unit 8 are recorded in the storage unit 9. On the command of the control unit 8, the numbers Xtt (..., M) corresponding to the second interval t (l) 2) are fed to the inputs of the VDE 1 and 2. Again From counter B, the average value of the random process is taken, corresponding to the second interval . The process of generating averages over the various implementations of the random process is repeated. N times. Then, the random numbers 3j, .0., With the memorizing unit 9, at a command from the control unit 8, are received again through an additional element AND 10 to the inputs of the VDE 1 and 2. In this case, the counters (mathematical expectation) 5 and 6 are formed average values of a random variable (-0-1,2, .. ,, N -. Units simultaneously appearing at the outputs of VDE 1 and 2, entered through the element And 4 into the counter 11. Thus, the calculation of the arithmetic mean value) n (D) The expected value accumulated in meter 5 is raised to square meters using the VDE 12 and 13 and the element a and 14. Counter 15 records the total number of static tests. When it overflows, a sigma appears, opening element AND 16, k; The accumulated value in counter 11 is added to the contents of the reverse counter il. During the entire test cycle (the cycle N tact from the content of the reverse counter 1.7 is subtracted . PSL termination -cycl counter signal iT cfrKpHBaeT element And 18 and from counter 17 is read in the parallel code the value of the variance

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On command from the control unit 8, a group of 19 elements and 20 corresponding to the variance of the mean value are grouped (65

Claims (1)

Invention Formula An apparatus for determining dispersion according to auth. 327496, the differences of the random process x (+) on the interval T are recorded in the register of the number 21. In a similar way, the average values of the random process, the intervals f t and -, τ4) and yes / c are formed (L 1,2, ...,% ), according to them, respectively, the variances of mean values,,,, and, and (5H: 11 "in. On a command from the control unit 8, successively through a group of 19 elements and 20, the mean value dispersions are recorded respectively in registers 22, 23 and 24. the registers 23, 22 and 21 numbers corresponding to the values (,, 2И (5С are fed directly to the subtraction blocks 25, 26, 27. On command From control unit 8, elements 22, 23 and 24 from registers 24, 23 and 22 are respectively fed to subtraction blocks 25, 26, 27. Thus, the numbers, - OChaz, are generated in these BLOs. L1, „- VCHA ,,, AZ-E31,2-GZZ from the output of register -21 removes the dispersion of the first Haar coefficient aPS, bPZ. To form the dispersion of the remaining Haar coefficients, it is necessary to take into account the multiplier. For this, commands for shifting numbers are sent from the control unit 8 in block 23 by two bits, in the register of the number 22 by one bit to the right, which corresponds to the division of numbers, respectively and four and two. Thus, at the outputs of the subtractive blocks 25, 26. and 27, the dispersion of the Haar coefficients are formed: еЧс ,, 1 (0П33, -еЧл1 ...), (БЧзз.-0Чаз,.) ,, з - (, 2 ° Ч т т The operation of the entire device is synchronized to the control unit 8. The clock frequency is generated in the clock and pulse generator 3. The technical and economic effect is that, in addition to determining the variance of the random random process, the device determines the dispersion of the Haar coefficient of this process.  e with the fact that, in order to expand its functionality, additional elements have been introduced in it, registers of numbers, subtraction blocks, a group of elements AND, a control unit and a storage unit whose input is connected to the output of the first additional element AND, whose information input connected to the output of the counter, and the output of the storage unit through the second additional element AND is connected to the input of the probabilistic binary element and the output of the third additional element AND, whose information input is the corresponding the device’s input the output of the AND element is read connected to the information inputs of an additional group of elements AND whose outputs through the number registers are connected to the information inputs of the corresponding additional elements AND whose outputs, except one, are connected to the first inputs of the corresponding subtraction blocks, the second inputs of which are connected respectively to the outputs of the number registers The control inputs of the additional elements And and the group of elements And are connected to the corresponding outputs of the control unit, the input of which is connected to the output neural pulse generator.