SU1004919A2 - Device for measuring noise level in speech pauses - Google Patents

Description

(54) APPROACH FOR MEASURING NOISE LEVEL IN SPEECH PAUSES

Claims (4)

The invention relates to a measurement technique and can be used to determine the level of noise in acoustic and radiotelephone systems. According to the main author. St. No. 817616, a device for measuring the noise level during speech pauses is known, comprising a sequentially connected amplifier, an amplitude detector, a synchronous integrator and an amplitude selector, as well as a series-connected master oscillator, a first counter, a second counter and a first prohibition element, sequentially connected a reversible counter, and an analog G1 converter, integrator, analog key and executive unit, as well as sequentially connected driver, third counter, second prohibition element, fourth account The output of the fourth counter is connected to the second input of the second inhibitor, the third input of which is simultaneously connected to the counting input of the fourth counter, to the zeroing input of the third counter, to the second input of the synchronous integrator, to the output of the master oscillator and to the counting input of the first meter whose output connected to the second input of the first element: prohibition, the input of the generator is connected to the output of the amplifier, the output of the integrator is connected to the second input of the array; a separate selector, the output of which is connected to the second input row of the second counter, the second output of the second member prohibition simultaneously connected to the inputs vtorsh analotovogo key and the actuating unit 1}. However, the known device has a long measurement time. The purpose of the invention is to reduce the measurement time. The goal is achieved by the fact that the third and fourth prohibition entries are entered, the output of the first prohibition element and the output of the second counter are respectively connected to the first and second inputs of the reversible counter through the third and fourth prohibition elements, the second inputs of which are connected to the second output of the second element of the ban. The drawing shows structural diagrams. proposed device. The device for measuring the noise level in the pauses of the pitch contains an amplifier 1, an amplitude detector 2, an integrator 3, an amplitude selector 4, first, second, third and fourth to 5-8, respectively, a digital-to-analogue converter (TsA11) 9, an integrator 10, the executive unit 11, the driver 12, the first, second, third integral block elements 13-16, respectively, the master oscillator 17, the reversing counter 18, the analog signal 19. The device operates as follows. The input signal, which is a mixture of speech signal and noise, or just noise, is fed to the input of amplifier 1, from the output of which the signal goes to the input of the amplitude detector 2. From the output of the amplitude detector 2, the signal is fed to the input of the synchronous integrator 3, 5 whose correct input is connected to the master oscillator 17. At the output of the chmxpoHHoro integrator, the 3 signal is a discrete sample with a frequency of 40-50 Hz whose impedance duration is by itself or a mixture of speech signal with noise or just noise. The frequency and duration of the samples at the output of the synchronous integrator 3 are determined by the parameters of the pulses of the master oscillator 17. The charging time constant ТТ (the chain of the synchronous integrator 3 is chosen to provide a high n not equal to the pulse duration; and the discharge time in the synchronous integrator 3 Tpotap nMnVZS. The pass-through coefficient KQ from the input of the device to the output of synchronous integrator 3 is selected from the condition K. Q K 1, where K is the gain of the amplifier 1, K the gain of the amplitude detector 2, Kj - oeffitsient transmit synchronous integrator 3. From the output of the synchronous integrator 3, the signal goes to the sieve input of the amplitude selector 4, and from its output, the counting input of the second counter 6, the zero input of which is connected to the output of the first counter 5. The counting input of the first counter 5 receives pulses from the master oscillator 17. Thus, the second counter 6 is filled with pulses from the output of the amplitude selector 4 during the measuring cycle, the determined filling time of the first counter 5. The volume of the first counter 5 is selected from the CONDITIONS Trp fp I where Tr (p average f o - pulse frequency of the master oscillator. The volume of the second counter 6 is selected from the condition Signal. The output of the second counter 6 simultaneously enters the input of the first element 13 of the ban and the input of the fourth element 16 of the ban. element 13 of the prohibition receives the pulses from the code of the first counter 5. Simultaneously, from the output of amplifier 1, the signal arrives at the input of the generator 12, which produces pulses for each positive crossing of the zero line by expanding SRI signal-to-noise, and pauses the speech signal eg zheniem noise. The pulses from the output of the imaging unit 12 are fed to the counting input of the third counter 7, which are wound up during the time determined by the period of follow-up of the zeroing pulses arriving at its input. leks. from the master oscillator 17. The zero-pulse repetition period T is 20–25 ms, and the volume of the third counter 7 is chosen from the condition. NCMT - P.9. RSH-TO where Rc | - the average (apparent c) frequency of noise at the device input. When the third counter 7 is refilled, the pulses from its output enter the first input of the second prohibition element 14, which at the same time obstructs the passage of zeroing pulses from the output of the master oscillator. 17 to the zeroing input of the fourth counter 8. It accumulates pulses arriving at its counting input from the master oscillator 17 corresponding to the zero zeroing cycles of the third counter 7. We beat the fourth counter 8 selected from the condition 8 r / T. If the third counter 7 overflows further during the number of cycles more, 1st 6th. counter 8 is also overflowed. An overflow pulse from its output changes the state of the second prohibition switch 14, while the voltage level from its output is the enable level for the third prohibition element 15 and the fourth prohibition element 16. The above mechanism works if the input The device receives a voltage. It consists only of noise or a mixture of a speech signal with noise with a signal-to-noise ratio less than one. When the signal-to-noise ratio of the speech signal at the device input is greater than one, the pulse of the output pulses is such that the third counter 7 does not overflow in time. m between two zeroing pulses. The second prohibition element 14 in this case permits the passage of the reset pulses from the output of the generator 17 to the input of zeroing of the fourth counter 8, simultaneously on; output The second element 14 of the prohibition is formed by the level of voltage of the voltage at the prohibiting level for the third element 15 of the standard and the fourth element 16 of the prohibition. In the natural pauses of a speech signal with a duration of no more than T kp. The second prohibition element 14 does not change its state. This is because during the time T pp, the counting input of the counter 8 from the master oscillator 17 receives the number of pulses more small. To this, the fourth counter 8 does not overflow. and after the termination of the natural speech pause, it is again nullified in pulses from the output that drives the generator-17. In this way, a system of a pause in the speech signal is formed, during which the signals from the output of the second counter 6 and c. the output of the first prohibition element 13 passes to the inputs of the reversing counter 18 V, the time of the speech pause when the second counter 6 overflows, during the analysis time determined by the filling time of the first counter 5, each overflow pulse from the output of the second counter 6 through the fourth decimal -16 blocking the input to the input, the addition of a reversible one with an etachka, 18 by one step, equal to the value of the least significant bit, is boosted by {{wedging on the input W] of the analogue converter 9, the output through the integrator 10, with a factor of equalizing m unit, connected to the control input of the amplitude selector 4. An increase in the voltage at the control input of the amplitude selector 4 leads to the fact that the average number of pulses per unit time from the output of the amplitude selector 4, whose amplitude exceeds the control level, decreases until the pulses from the output of the amplitude selector 4 arriving , on the counting input of the second counter 6 will cease to cause its overflow. In the absence of overflow pulses at the output of the second counter 6, the first prohibition element 13 allows the passage through. pulse from the output of the first counter 5 to the input subtraction of the reversible counter 18. Each pulse from the output. nqiBoro counter 5, the input to the subtraction of the reverse, counter 8, reduces by one step the voltage at the output of the digital-analog converter 9. In tikim with braz, a system of stabilization of the average number of pulses per unit of eremee is formed. Stabilization of the average number of pulses per second is provided by changing the control voltage 1 {at the output of the integrator 10,. In this case, the magnitude of the control voltage at the pro output is close to the probable value of e; the maximum value of the noise voltage; on the device go. . . : -, ,, ..-;. . At the input of a speech signal device, the level and output at the output of the second prohibition element 14, prohibits the passage of control pulses to the inputs of the reversible counter 18 coupled to the analog converter 9, which remembers the noise level,: the most 1st 1st pause time in a speech signal. At the same time, the voltage level from the output of the second prohibition element 14 enters the second input of the executive 11 and controls the input of the analog switch 19, which disconnects the output of the integrator 10 from the session. signal input of the executive unit I. During the next pause in the speech signal proposed. The device measures the level change that occurred during the communication session. Thus, in the assumption device, during each measurement of the Generator in the pause of the speech from the hyala, only the change in the level of the pitch of the output signal measured during the previous pause of the speech signal is measured: and the measurement time is shortened. Compound formula Ja A device for measuring the noise level in speech pauses according to ed. St. K 817616, that is, so that, in order to reduce the measurement time, enter one third and fourth elements. For this, the output of the first prohibition element and the output of the second counter are respectively connected with the first and second inputs of the reverse counter via the third and fourth prohibition elements, the second inputs of which are connected to the second output of the second prohibition element ... Sources of information taken into account in the review of the author of the USSR N 817616, YuT. G 01 R 29/26, 1980.