SU834722A1 - Device for recognizing random processes - Google Patents

Description

(54) DEVICE FOR RECOGNITION OF RANDOM

Claims (2)

PROCESSES no difference module, memory block, block block, comparison block, second dividing unit, delay block, second difference modulus determining block, the first input of which is connected to the output of the first dividing block and to the input of the delay block, the output of which is connected to the second input of the second block determining the modulus of the difference and to the input of the divider of the second dividing unit, the input of the dividend of which is connected to the output of the second unit of determining the difference modulus, the code of the second dividing unit is connected to the input of the comparison unit, the output of which is Connected to the first input of the storage unit and to the control input of the prohibition unit, whose information input is the device input, the output of the prohibition unit is connected to the input of the first initial moment determination unit, the second input / memory unit is connected to the output of the first dividing unit, and the output of the memory unit is connected to the input of the first unit for determining the difference modulus. With such a circuit implementation, the computation of statistical characteristics necessary for recognition of the random process under investigation (the first and second initial statistical moments) and tri / j Ct) and the square of the first moment m (t) is carried out continuously until the current relative error t ) calculating the ratio V (t) l ....., is equal to. 0 Aitl: - iJ .. (1) will not be equal to the given aA ie OCH1). (2) In this case, the device stops calculating the statistical characteristics and by the value of v (t), satisfying condition (2), determining the type of distribution law of the studied random process - its pacnoS knowledge. Thus, the steady-state value of the ratio of the square of the first initial statistical moment to the second initial statistical moment is determined with a given accuracy, which increases the reliability of recognition. The drawing shows a block diagram of the proposed device for recognizing random processes. The device contains a block 1 for determining the first starting time, block 2 for determining the second starting moment, quadrant 3, block 4 division, block 5 memory block 6 delay, block 7 forming the difference module, block 8 dividing, block 9 comparing, block 10 shaping difference module, classification block 11, and prohibition block 12. . The output of the first, block forming module of difference 10 is connected to block 11 of classification, block 1 of determining the first initial moment is connected to quadrant 3.. The output of the division unit 4 is connected to one of the inputs of the memory unit 5 and the unit 7 for generating the difference module and to the delay unit 6, the output of which is connected to the second inputs of the division unit 8 and the unit 7 Forming the difference module, the output of which is connected to the input of the division unit 8, connected through a block 9 of comparison with the second inputs of the memory blocks 5 and the prohibition block 12. The input terminal of the device is connected to the input of the prohibition unit 12, the output of which is connected to the inputs of the blocks 1 and 2 for determining the first and second initial points. The output of memory block 5 is connected to the input of the first block 10 forming a difference module. The device works as follows. The random process under investigation from the input terminal of the devices and through the first input of the prohibition block 12 enters the inputs of the blocks 1 and 2 for determining the first and second initial moments if there is no prohibitive signal at its second input. From the output of block 1, the current value of the first initial moment t (t) of the envelope of the input process is fed to quadrant 3, where it is squared and fed to the first input of division 4, to the second input of which is supplied the current value of the second initial statistical moment m, (t) envelope of the input process. The first divider 4 calculates the T σ value of the ratio v (t) which is stored in memory block 5, and is also fed to delay block 6, where it is delayed by a certain delay time / it, and to the first input of block 7 for generating a difference modulus, to the second input of which the ratio v (t -At) is applied, from the delay block b. The module 7 for generating the MODULE of difference 7 calculates the current value (v (t) -v ()), which is fed to the first input of the block 8. division 7, to the second input of which the value v (t-At) is applied. The second divider 8 calculates the current relative error of calculating the ratio v (tl according to the relation (1), which is fed to the comparison block 9, and compared with the set value. When cP- (t) reaches the set value, the comparison block 9 returns the signal The inputs of prohibition unit 12 and memory unit 5. In this case, unit 12 ceases to skip the input process, thereby ending its processing. The current value of the ratio v (t) recorded in the memory unit 5 is transmitted to its input in block formation module difference 10, which determines the value of the difference between the value obtained on dividing unit 4 and some predetermined constants. The modules of this length are normalized members entering the classification unit 11, which determines the form of the distribution law of the random input process according to the minimum of these numbers. The classification block 11 contains the Element of choice of the Minimum number and a set of two level comparators, on which the comparison of the minimum of the received numbers with the given ones characterizing the corresponding There are distribution laws. The recognition of a random process is completed by the appearance of a signal on one of the output buses, the number of which is equal to the number of recognizable distribution laws. Thus, due to the described circuit implementation, the recognition and reliability of recognition, as well as the speed of the device, are increased. Improving the reliability of recognition of random processes is of significant national and economic importance, since accurate estimates of a hundred also depend on the type of distribution law, as well as the statistical characteristics of the processes that are used in the control and management of technological objects. The feasibility of using the proposed device is to improve the accuracy of monitoring and controlling technological objects due to more accurate estimates of the statistical characteristics of technological parameters. Invention Formula. A device for recognizing random processes containing blocks for determining the first and second initial moments, whose inputs are coupled, output, of the first moment determining unit, through a quad, connected to the input of the divisible first division unit, the divider input of which is connected to the output of the second initial moment determination unit, classification unit The input of which is connected to the output of the module for determining the difference modulus, characterized in that, in order to improve the recognition accuracy, a memory block, a block This is a comparison unit, a second dividing unit, a delay unit, a second unit for determining the difference module, a first input connected to the output of the first dividing unit and an input of the delay unit whose output is connected to the second input of the second determining unit And the difference module to the input of the divider second unit dividing input of which is connected to the output of the second unit of definition of the difference module, output of the second dividing unit is connected to the input of the comparison unit, the output of which is connected to the first input of the memory unit and to the control input Lok prohibition information input apparatus is input, the prohibition unit output connected to the input unit determining a first initial time, the second input block 1TI memory connected to the input of the first difference detecting modulation unit. Sources of information taken into account in the examination 1. Vasilyev V.I. Recognition systems, Kiev, Naukova Dumka, 1969, pp.166-192. 2. USSR author's certificate No. 532101, cl. G 06 F 15/36, 1975 (prototype).