SU656075A1 - Device for determining the slipping mean value of random signal - Google Patents

Description

The proposed device relates to the field of computer technology and can be used to determine sliding average values of quantities characterizing any stationary random processes, in particular meteorological processes. A device for static processing of measurements on a sliding sample is known, which contains an input device, a switch, a delay circuit, circuits, information counters (memory), a pulse reversing counter generator, a code-analog converter, and a measuring device. large amount of memory storage device. The number of information keepers is equal to the sample size. The size of these counters is determined by the maximum value of the input numbers. The closest technical solution to the invention is a device for determining a moving average of random signals, comprising an analog-to-frequency converter, the output of which is connected to the first inputs of the counter and element And, the second input of which is connected to the first output of the control unit, the second output of which is connected to the second input of the counter and to the control input of the recording unit 2. A disadvantage of the device is the large memory capacity of the memory device. The width of the shift registers is determined by the sample size, the number of shift registers is determined by the maximum average value of the measured signal during the accumulation interval -t ,. The purpose of the invention is to simplify the device. The goal is achieved in that a unit for incrementing a signal is inserted into a device for determining a moving average of random signals, an adder, and the counter outputs are connected to the corresponding information inputs of a signal increment separator, the first and second control inputs of which are connected respectively to the output of the analog converter -frequency and with the second output of the control unit, the third output of which is connected to the first control input of the adder, the second control input of which is connected the output of AND, data inputs of the adder are connected to corresponding outputs luviM storage unit, I-Block diagram representation device in Figure 1; Fig. 2 shows the functional block diagram of the signal increment w. The device contains an analog-frequency converter 1, a counter 2, a control unit 3, a signal increment selection unit 4, an AND element 5, a storage unit 6, a calculator 7. A signal increment selection 4 contains a pulse generator 8, And 9,10,11 elements 12, triggers 13,14 elements OR 15,16, counters 17,18 decoder zero 19, delay element 20. Input signal analog-frequency 1 receives a signal (for example, voltage), which must be processed, output analog converter Log-frequency 1 connected to the inputs of counter 2 and sig increment block 4 element 5. And the first output of the control unit 3 is connected to the inputs of the counter 2, the unit for incrementing the signal 4, the storage unit. The second output of the control unit 3 is connected to the input of the adder 7. The third output of the control unit 3 is connected to the input of the element AND 5. The inputs of the storage unit 6 are connected to the outputs of the incremental separation unit 4, the outputs of the storage unit 6 are connected to the inputs of the adder The output of the element 5 is connected with the input of the adder 7. The device operates as follows. The averaging time TO is divided into (1 equal intervals: T (Td-HRP) during each of which information is accumulated. At the end of each interval, an increment is determined. (1m) N. - average value of the input signal during the interval 7: Ntci-i) value of the input signal for interval,. An increment of D1 is generated in the increment selection unit of signal 4. The current value of the input signal for the interval Tf is fed to the input of the subtracting counter 17 through the OR 15 element and the And 12 element. The counter 17 was recorded the value N (,. Let 10 N. t 11. In the initial state, three ger 14. sends a inhibitory signal to element I 12, and the input pulses are sent only to the input of counter 17, reducing its content. After the arrival of 10 pulses, the decoder, 19, generates a pulse, setting trigger 14 state 1, 4 filed resolution per element And 12. The rest (L-11-10-1) will write down GB counter 18 through the elements AND 12 and OR 16. The increment sign is removed from the trigger 14. (states O and i correspond to the plus and minus signs, respectively). After the interval ends an impulse is received. End T from the control unit, which, having passed through the delay element 20, sets the state of the trigger 14 to O, and, through the elements 11, writes the new value Ci ---- T (i - () I TI to the counter 17, then after the arrival of the whole packet of pulses, the counter 17 records the pulse, the trigger 14 is in the state O, i.e. it gives permission to the element I 10. The pulse The end T, passing through the element 10, sets the trigger 1.3 to state 1, giving permission to the element 9, to the other input which receives pulses from the generator 8. From the output of the element 9, pulses through the element 15 and to the input of the counter 17, reducing its content to zero, which returns trigger 13 to its original zero state. This requires 2 pulses, which also arrive at counter 18 through the element. OR 16. The increment sign from the trigger 14 and the increment module from the outputs of the counter 18 are fed to the inputs to memorize its devices. After that, the impulse End t, having passed through the delay element 20, will reset the remaining elements of the node. If ... | , the counter 17 is in the state O, the decoder zero 19 supplies the inhibit signal to the input of the element AND 10, the pulse End t does not pass through this element. The resulting d-i value (module and sign) is recorded in memory 6, the counter 2 is zeroed, after which a new accumulation period begins, and so on. Each increment value appears at the output of the storage device 6 after fi cycles (through time Td) and enters the start input of the adder 7, at the output of which the reconstructed value N-j appears; rr-r (i-i) V After switching on the device, the first pack of p. The analogue-frequency converter's analogue 1 for the interval T, through the element 5, is recorded in the adder 7, which begins to function after time T, starting with (PI) tact. At any time, the device stores information about the average value of the input signal. During the averaging time, the average increment of the input signal of the last interval is stored in the increment separator 4; - in the memorized block b, the modules and increment signs are stored (the differences between the two horizontal intervals (-i-.i -in the adder / the average value of the input signal is stored for the interval TjY-n) spaced n times (by averaging time T). The technical and economic effect of the proposed device is charged with reducing the memory size of the memory 1; its device, due to the fact that it is necessary to store only the differences (increments) between adjacent values of the input signal for intervals Z Formula of the invention in order to determine the gliding average random signals containing an analog frequency converter, the output of which is connected to the first inputs of the counter and the element And the second input of which is connected to the first & -1 output of the control unit, the second output of which is connected to the second input of the counter and to the control 5 1 to the input of the storage unit, characterized in that, in order to simplify the device, a signal increment separator and an adder are entered into it, while the counter outputs are connected to the corresponding information inputs of the block dividing the increment of the signal, the first and second control inputs of which are connected respectively to the analog-frequency converter output and to the second output of the control unit, the third output of which is connected to the first control to the cyNa aTopa input, the second control input of which is connected to the output of the And element, The cyNwaTopa information inputs are connected to the corresponding outputs of the storage unit, the information inputs of which are connected to the corresponding outputs of the signal increment allocation unit. Sources of information taken into account in the examination. 1. USSR author's certificate No. 278227, cl. G06 F 15/36, 1969. 2. Forward 2454151 / 18-24, according to which a positive petjeHHe author's certificate was issued.

C

IHIIZJ

Jfiuka

2.2