SU1277180A1 - Device for analyzing speech signals - Google Patents

Abstract

The invention can be used to control the voice of industrial objects and allows reducing the volume of equipment and expanding the functionality of the device. The memory cells 19 accumulate codes corresponding to the current number of intervals of specified durations. At the end of the specified averaging period, a request is received from the computer to the input 25 of the interface unit 23 to read the values of the accumulated features. The interface unit 23 closes the circuit 21 with a signal from output 28, so that the signal at its output becomes zero, and switches multiplexer 13 to transmit information readout addresses from the computer on input 16 and clock pulses on input 17, which write zeroes to corresponding cells of memory block 19. After completion of the read / write cycles, the memory unit 19 is in the initial state. 1 il. HchE -vl 00 about

Description

The invention relates to a speech recognition processing technique and can be used to control voice and other objects. The purpose of the invention is to reduce equipment and increase functionality due to the parallel-sequential principle of information processing and ensuring liver operative change of the device’s parameters and his adaptation to the studied signal; alu. The drawing schematically shows the proposed device. The device contains an amplifier 2 connected to the input 1 of the device, a differentiation unit 3, a threshold limiting amplifier 4, a formative control pulses 5 with outputs 6, 7 and 8, a generator of 9 clock pulses, the first counter 10 Duration intervals, the first comparison unit 11, the second counter 12 interval numbers, multiplexer 13 with inputs 14-17, first and second memory blocks 18 and 19, adder 20, circuit 21, second comparison block 22, interface block 23 with inputs 24 and 25 and outputs 26-30, the device is running in the following way . The analyzed signal is fed to the input of the amplifier 2, the amplified signal is differentiated by the differentiation unit 3 and converted by the threshold amplifier to the frost form. In this case, a logical zero appears at its output when the input signal is less (greater than) the threshold | Size, and one, otherwise (Case, Moments of the signal at the output of the threshold amplifier — limiting bodies 4 correspond to the characteristic points of the analyzed signal, B From these moments of the forms, the control governor pulses 1 produce a series of three pulses controlling the operation of the device. Before starting operation, via the interface unit 23, the external computer performs zeroing of the memory block 18 and entering 19 codes into the memory block, the boundaries of the durations of the subranges into which the range of possible values of the durations between the two characteristic points of the input signal is divided, begin at the shortest interval, in accordance with the chosen law of variation in the durations of the analyzed time intervals. The memory blocks 18 and 19 are register memories devices that are written to the clock signal and read without it. When the signal at the output of the threshold amplifier 4, the pulse from output 7 generates L pulses 5 reset the counters 10 and 11, after which the counter 10 begins to fill with the generator 9 pulses. The contents of the counter 10 are compared by the comparison unit 11 with a code selected from the cell of the memory block 18 at the address determined by the state of the counter 12 and the incoming through the multiplexer 13, which at the same time passes information on inputs 14 and 15, At the moment that the contents of counter 10 are equal to the selected output duration code, comparison unit 11 generates a pulse arriving at the clock input of counter 12 of the subband number but also increases its contents by one. In this case, the code of the next in time interval is selected from the memory block 18 to the input of the comparison block 11. Thus, at each moment the content of the counter 12 is equal to the subdial number, the time zone, within whose boundaries there is the space between the characteristic points of the analyzed signal. When the duration of the current interval exceeds the limit of the longest subband, the signal from the output of the comparator unit 22 will prohibit further increasing the state of counter 12. At this time, the output of memory unit 19 contains the contents of the cell in which the current value of the number of intervals of a fixed duration is stored, and on its code this value is increased by units The unit in the adder 20 (circuit 21 and is open at the same time), arriving through the multiplexer 13, the clock signal from the output 8 of the driver for the control pulses 5 receives this value in the memory block 19, then

Claims (1)

Thus, due to the series-parallel construction principle of the device, as well as through the use of a register random access memory for storing values of the signal parameters, the equipment volume is reduced, the communication with the computer is simplified and thus the reliability of the device is improved. the use of a register random access memory for storing device parameters makes it possible to programmatically change them and expand the functionality of the device. Formula Isob.teni A speech analyzer comprising VNIIPI Order 6672/46 Circulation 358 Subscription Random polygons pr-tie, Uzhgorod, st. Project, 4 77 ten 15 20 25 thirty 35 40 five 0 180 4 connected input amplifier, differentiation unit and threshold amplifier-limiter, as well as first and second counters and an interface unit, characterized in that, in order to reduce the amount of equipment and expand its functionality, the control driver, the first, and the second comparison block, the multiplexer, the first and second memory blocks, the adder and the AND circuit, and the counters are made with three inputs and one output, the interface block is implemented with two inputs 11 and five outputs, the first the control pulse driver is connected to the generator output and to the first input of the first counter, the second control pulse driver input is connected to the output of the threshold amplifier-limiter, and its two outputs to the corresponding {M1 inputs of the first counter, whose output is through the first comparison unit and The second counter is connected to the input of the second comparison unit, the output of which is connected to the second input of the second counter, and to the first input of the multiplexer, the second input of which is connected to the third output of the form-finder x pulses, the second input of which is connected to the third input of the second counter, the first output of the multiplexer is connected to the first input of the first memory block, the output of which is connected to the second input of the first comparison unit, and the first input of the second memory block, the second input of which is connected to the second output multiplexer as well. - the third input - with the output circuit. And, the first input of which is connected to the output of the adder, whose input is connected to the output of the second memory block and the first input of the interface unit, four outputs of which are connected respectively to the second input of the first memory block, the third and fourth inputs of the multiplexer and the second input of the circuit And, connected to the multiplexer input of the multiplexer, and the fifth output and the second input of the interface unit are respectively the second input of the device. Circulation 358 Subscription