RU2052903C1 - Device measuring intelligibility of speech sounds - Google Patents

Abstract

FIELD: electric communication. SUBSTANCE: device includes timer 1, synchronizer 2, artificial ear 3, unit 4 of band-pass filters, unit 5 of amplitude detectors, unit 6 of synchronous integrators, unit 7 of analog-to-digital converters, unit 8 of squarers, discriminator 9 of signal of voice in noises and of noises incorporating unit 10 of level measurement, unit 11 of threshold comparison circuits, first and second units 12, 13 of electron keys, tone signal-noise discriminator 14 incorporating unit 15 of computers, first and second adders 16, 17 and comparator 18, unit 19 of switches, discriminators 20_-1, 20_-2 of format intelligibility of speech sounds each containing intergators 21, 22, two units taking logarithms 23, 24, unit 25 of computers of realtions 101gδ₁/N_i, unit 26 of level correstionand computer 27 of format intelligibility of speech sounds, adder 28, display 29. EFFECT: device makes it possible to evaluate both format intelligibility of vocoder path and articulation of individual sounds. 1 dwg

Description

 The invention relates to telecommunication technology, in particular to devices for automatic measurement of speech intelligibility of telephone paths with vocoders.

 A device for automatically measuring speech intelligibility, which contains a timer, the output of which is connected to the input of the synchronizer, the outputs of which are connected to the corresponding inputs of the digital blocks of the device, as well as a series-connected artificial ear, a block of bandpass filters, a block of amplitude detectors, a block of synchronous integrators, an analog block -digital converters and block quadrators.

 In addition, the device in question contains the first and second blocks for calculating the modifying security, each of which includes a pause noise level meter and a first electronic key, a first integrator, and a first logarithm unit connected in series with it. The output of the noise meter is connected to the first input of the block of threshold comparison circuits, the output of which is connected to the parallel connected inputs of the first and second electronic keys, the output of each of which is connected through a series-connected integrator and the logarithm unit to the first (second) input of the subtractor, the output of which is through a level divider and corrector is connected to one of the inputs of the formant intelligibility calculator.

 The described device provides a measurement of formant intelligibility in the entire frequency band of the vocoder path. The disadvantage of this device is that it does not allow to assess the extent to which the magnitude of this intelligibility is affected by the distortion of agreed and uncoordinated speech sounds.

This disadvantage is eliminated by introducing a noisy speech (or speech) isolator and noise, a tone-noise signal isolator, a formant intelligibility switch block for agreed and unmatched speech sounds, as well as an adder and a display unit. At the same time, the noisy speech (or speech) and noise signal separator contains a signal level measuring unit, the inputs 1.n of which are connected to the corresponding outputs of the quadrator block and in parallel with the inputs of the second electronic key block, and the outputs 1.n are connected to the first threshold thresholds connected in parallel comparison circuits and to the inputs 1.n of the first block of electronic keys, the outputs 1.n of the threshold comparison circuit are connected to parallel second inputs 1.n of the first and second blocks of electronic keys. The outputs of these blocks are connected to the first and second inputs and in parallel to the corresponding inputs of the switch block. The first and second outputs of the subtractor block are connected through the first and second adders of the tone-noise signal separator block to the first and second inputs of the comparator, the output of which is connected to the third input of the switch block. The first (second) isolator of the formant intelligibility of the agreed (uncoordinated) speech sounds contains the first and second integrators, the inputs of which are connected to the first and second (third and fourth) outputs of the switch block, the outputs of the integrators through the first and second blocks of the logarithm are connected to the first and second inputs of the block calculators of the ratio 10lg ρ _i / N _i , where ρ _i and N _i, respectively, the power of speech and noise signals in the i-th frequency band; outputs 1. n of this block through the block of correlation of speech speech noise, in which the value 10lg ρ _i / N _i + + Δ _{i is formed} , where Δ _{i is a} correction factor that takes into account the specific features of a particular language, connected to the corresponding inputs of the unit for calculating formant intelligibility of agreed (uncoordinated) ) sounds of speech. The output of the latter is connected to the first (second) input of the adder and parallel to the first (second) input of the display unit. The output of the adder is connected to the third input of the specified block.

 A comparative analysis with the prototype shows that the proposed device is characterized by the presence of new units, including a noisy speech (or speech) signal isolator and noise, a tone-noise signal isolator, a switch block, formant intelligibility separators of agreed and unmatched speech sounds, an adder and a display unit . Also new are the connections of these blocks with each other and with other elements of the device.

 Thus, the proposed device meets the criterion of "novelty."

 A comparison of the proposed technical solution with the prototype shows that due to the new connections introduced during the construction of the device, it exhibits new properties.

 This allows us to conclude that it meets the criterion of "inventive step".

The drawing shows a structural diagram of the device, where 1 timer, 2 synchronizer, 3 artificial ear, 4 block of bandpass filters, 5 block of amplitude detectors, 7 block of synchronous integrators, 7 block of analog-to-digital converters, 8 block of quadrants, 9 noise signal isolator ( or speech) and noise; 10 block for measuring levels, 11 block of threshold comparison circuits, 12, 13 first and second blocks of electronic keys, 14 signal-to-noise separator, 15 block of subtractors, 16.17 first and second adders of the block, 14.18 comparator, 19 block of switches, 20 ₁ (20 ₂ ) highlighter of formant intelligibility of agreed (uncoordinated) speech sounds; 21.22 first and second integrators; 23.24 first and second blocks of the logarithm, 25 block of computational relations 10lg ρ _i / N _i , 26 block for correcting the speech-to-noise ratio, 27 calculator of formant intelligibility of the agreed (inconsistent) speech sounds, 28 adder, 29 display unit.

 The output of the timer 1 is connected to the input of the synchronizer 2, the outputs 1.21 of which are connected to the corresponding inputs of the digital blocks of the device. The artificial ear output 3 is connected to a series-connected block 4 of band-pass filters, a block 5 of amplitude detectors, a block of 6 synchronous integrators, a block of 7 analog-to-digital converters, and to a block of 8 squares. The outputs 1. n of the latter are connected to the corresponding inputs of the block 9 of the separator of signals of noisy speech (or speech) and noise, combined with the inputs 1.n of the block 10 of the level measurement, and in parallel to the second group of the input of the block 11 of the threshold comparison circuits and the first block 12 of electronic keys .

 The output of the level measuring unit 10 is connected to the second group of inputs of the block 11 of the threshold comparison circuits and in parallel to the corresponding inputs of the second block 13 of electronic keys.

 The outputs 1.n of the first 12 and second 13 electronic key blocks are connected to the corresponding inputs of the tone-noise signal separator block 14, combined with the first and second groups of inputs of the subtractor block 15, the outputs of which are connected to the inputs of the first 16 and second 17 adders. The outputs of the latter are connected to the first and second inputs of the comparator 18, the output of which is connected to the third input of the block 19 of the switches. The first and second groups of inputs 1.n of this block are connected to the inputs of the first 12 and second 13 blocks of electronic keys.

The first and second (third and fourth) outputs of the block 19 of the switches are connected to the first and second inputs of the first 20 ₁ (second 20 ₂ ) selector formant intelligibility of coherent (uncoordinated) speech sounds, combined with the inputs of the first 21 and second 22 integrators, the outputs of which are through the first 23 and second 24 logarithm blocks are connected to the first and second groups of inputs of block 25 of the calculators of the relation 10lg ρ _i / N _i , the outputs 1.n of which through the block 26 of the adjustment of the speech / noise ratio are connected to the corresponding inputs of the calculator 27 formally legibility of the agreed (uncoordinated) sounds of speech. The output of the latter is connected to the first inputs of the adder 28 and the display unit 29. The corresponding output of the formant intelligibility calculator unit 20 is connected to the second inputs of the adder 28 and the display unit 29, the output of the adder 28 is connected to the third input of the display unit 29.

 The device operates as follows.

 After the timer 1 starts, which regulates the measurement time, synchronizer 2 is activated and synchronization pulses begin to arrive at the corresponding inputs 1.21 of the digital blocks of the device, due to which the device is brought into operation.

 The voltage coming from the output of the artificial ear 3 under the influence, for example, of sound vibrations of a telephone placed on its platform, connected, in particular, to the output of the vocoder path, through a block of 4 bandpass filters, a block of 5 amplitude detectors and a block of 6 synchronous integrators (envelope sample frequency usually taken equal to 40.50 Hz) is fed to the inputs 1.n of block 7 of the analog-to-digital converters. Here, analog signals are converted into sets of binary code combinations, which from the outputs 1.n of block 7 of the ADC through the squares of block 8 go to the inputs 10 of the block of level measurement, as well as to the first group of inputs of the block 11 of the threshold circuits and to the inputs of the first block of 12 electronic keys a separator of 9 signals of noisy speech (or speech) and noise.

 On the interval of each pause of speech in block 10, the current values of the noise levels (energy) are measured, which, after averaging, go to the second group of inputs 1.n of the block 11 of threshold comparison circuits and to the inputs 1.n of the second block 13 of electronic keys.

 If there is only noise voltage in the vocoder path, its level at the output of block 10 does not exceed the threshold values of block 11 and therefore the unlocking of the first 12 and second blocks of electronic keys does not occur.

 When a noisy speech (or speech) appears in the vocoder path, its level exceeds the threshold values of block 11.

 As a result of exposure to the first and second inputs of block 11 of code combinations corresponding to the supplied level (energy) of noisy speech (or speech), key elements of blocks 12 and 13 are unlocked, as a result of which code combinations from the outputs of these blocks are sent to the first and second inputs of block 15 subtractors included in the separator 14 of the tone-to-noise signal, as well as the first and second inputs of the block 19 switches.

 Code combinations from the outputs 1.k and mn of the block 15 of the subtractors (the number of outputs of this block corresponds to the spectral width of the agreed and uncoordinated speech sounds) through the first 16 and second 17 adders arrive in the form of control potentials to the first and second inputs of the comparator 18. If this is transmitted the harmonized sound, then it turns out to be predominant, for example, the effect from the outputs 1.k of the block 15 and the first adder 16 on the first input of the comparator 18.

 If an uncoordinated sound of speech is transmitted, then the predominant effect is exerted by the outputs mn of block 15 and the second adder 17 on the second input of the comparator 18. In accordance with this, the potentials corresponding to the commands come from the output of the comparator 18 to the third input of the block 19 of the switches: the sound of speech "(for example, a positive potential), or" An inconsistent sound of speech is transmitted "(for example, a negative potential).

 Since, in the presence of only noise in the vocoder path at the inputs of the comparator 18, zero potentials take place, in this case, a prohibition signal is received from the output of the comparator 18 to the third input of the block of switches 19 and the switches of this block turn out to be locked.

 The type of signal tone or noise (corresponds to the agreed or uncoordinated sounds of speech) is determined by block 14, which can be used as other devices of similar purpose. The principle of operation of this unit is based on the fact that consonant sounds contain most of the energy in the low-frequency region of the speech spectrum, while most of the energy of uncoordinated sounds is in the high-frequency region of the speech spectrum. In this case, the property is also used that consonant sounds of speech are characterized by the presence of periodicity of signals, while unregistered sounds have a noise spectrum.

The signals coming from the first and second outputs of the block 19 of the switches in accordance with the command received at its third input from the output of the comparator 18 (the coordinated or uncoordinated sound of speech) are transmitted to the inputs of the block 20 or 20 ₂ . Here, through series-connected blocks 21, 22 and blocks 23, 24, code combinations corresponding to a coherent (uncoordinated) sound of speech are transmitted to the first and second groups 1.n of inputs of block 25 of ratio calculators 10lg ρ _i / N _i dB, where ρ _i and N _i, respectively, the power of noisy speech (or speech) and noise in the i-th frequency band (for example, in the i-th band of equal speech intelligibility).

In block 26, the relation 10lg ρ _i / N _i is corrected by Δ _i , which is a correction that takes into account the specifics of a particular language. As a result of this, a signal with a level of 10 log ρ _i / N _i + Δ _i is supplied to the inputs 1.n of the unit 27 for calculating the formative intelligibility of the agreed (uncoordinated) speech sounds, by which the formant intelligibility of the coherent (uncoordinated) speech sounds in the entire band is calculated in a known manner the transmitted frequencies of the test path.

From the output of the block 27 of the separator 20 ₁ (20 ₂ ) formant speech intelligibility of the agreed (non-coordinated) speech sounds, the corresponding data in the form of combinations of binary code is supplied to the first (second) inputs of the adder 28 and the display unit 29. From the output of block 28, data on the total value of the formant speech intelligibility A _Σ in the form of corresponding binary code combinations is received at the third input of the display unit 29. Wherein
A _Σ A _o + A _but , where A _o and A _but respectively formant intelligibility of the agreed and uncoordinated speech sounds.

 After completing the measurement cycle in accordance with the time interval set using timer 1, a hang-up command is sent to synchronizer 2, as a result of which all elements and blocks of the device return to their original state.

 Blocks 1.8, 10.13, 15.17, 21.24, 26 and 27 do not differ from those used in the prototype.

The block 19 of the switches is, for example, a device containing two blocks of electronic keys having control inputs. If one of the blocks is brought to the control input from the output of comparator 18 of a positive potential, the electronic keys contained in it are unlocked and information from the outputs of blocks 12 and 13 is transmitted, for example, to the inputs of block 201, and when the negative potential is supplied from the output of comparator 18 keys of the second block and the corresponding information is supplied to the inputs of the block 20 ₂ .

Claims (4)

 1. A DEVICE FOR MEASURING THE VARIABILITY OF VOIDED AND UNAUDONATED SPEAKERS, containing a timer, the output of which is connected to the input of the synchronizer, a display unit, a series-connected artificial ear, a block of bandpass filters, a block of amplitude detectors, a block of synchronous integrators, a block of analog-to-digital converters and a block of analog-to-digital converters and a block of analog-to-digital converters and a block of analog-to-digital converters and a block of analog-to-digital converters and , the synchronization inputs of which, as well as the display unit are connected to the corresponding outputs of the synchronizer, characterized in that the signal isolator is introduced into it noisy speech and noise, a tone-to-noise signal isolator, a block of switches, formant intelligibility selectors for coherent and uncoordinated speech sounds and an adder, while a group of 1 ... n inputs of a noisy speech and noise signal separator is connected to the outputs of the quad block, and the first and second groups 1 ... n of outputs of the isolator of signals of noisy speech and noise are connected respectively to the first and second groups of inputs of the isolator of the signal tone-noise and to the first and second groups of inputs of the switch block, the control input of which is connected to the output of the highlight tone-noise signal, and the first and second, third and fourth groups of 1 ... n outputs of the switch block are connected respectively to the first and second groups of 1 ... n inputs of the isolator of the formant intelligibility of the agreed speech sounds and to the first and second groups 1. .. n inputs of the separator of the formant intelligibility of uncoordinated speech sounds, the outputs of which are connected respectively to the first and second inputs of the adder and the first and second inputs of the display unit, the third input of which is connected to the output of the adder, the synchronization inputs being Ithel noisy speech and noise, signal extractor tone and noise formant intelligibility highlighters voiced and unvoiced speech sounds are connected to respective outputs of the synchronizer.  2. The device according to claim 1, characterized in that the separator of noisy speech and noise signals contains a block of threshold comparison circuits, a block for measuring levels, 1 ... n inputs of which are combined with the first group of inputs of a block of threshold comparison circuits, are group 1. .. n inputs of the isolator of signals of noisy speech and noise, the first and second blocks of electronic keys, the first groups of inputs of which are connected respectively to the first and second groups of inputs of the block of threshold comparison circuits, the second group of inputs of which is connected to the group of 1 ... n outputs of the block and level measurements, and a group of 1 ... n outputs of a block of threshold comparison circuits is connected to the second groups of inputs of the first and second blocks of electronic keys, 1 ... n outputs of each of which are respectively the first and second groups of 1 ... n outputs of the isolator noisy speech and noise signals, and the synchronization inputs of the level measuring unit, the threshold comparison circuit block, and the first and second electronic key blocks are the corresponding synchronization inputs and a noisy speech and noise signal selector.  3. The device according to claims 1 and 2, characterized in that the tone-noise separator contains a block of subtractors, the first and second adders and a comparator, the output of which is the output of the tone-noise separator, and the first and second inputs of the comparator are connected to the outputs, respectively the first and second adders, the inputs of which are respectively connected to the first group 1 ... k and the second group m. .. n outputs of the block of subtractors, the first and second groups of inputs of which are respectively the first and second groups of inputs of the signal-to-noise separator, the synchronization inputs of the block of subtractors, the first and second adders, and the comparator are the corresponding synchronization inputs of the signal-to-noise separator. 4. The device according to claim 1, characterized in that each of the separators of the formant intelligibility of the agreed and uncoordinated speech sounds contains the first and second integrators, the first and second blocks of the logarithm, the block of calculators of the ratio 10lg _{S i} / N _i , where S _i and N _i - respectively, the power of noisy speech and noise in the i-th frequency band, the level correction unit and the formant intelligibility calculator of the agreed and uncoordinated speech sounds, respectively, whose output is the output of the formant intelligibility highlighter, while the inputs of the first second integrators are respectively first and second groups of inputs 1 ... n extractor formant intelligibility, and outputs the first and second integrators through the first and second blocks logarithm respectively connected to first and second inputs of block groups calculators relationship 10lg _{S i} / N _i, 1. .. n outputs of which, through the level correction block, are connected to 1 ... n inputs of the formant intelligibility calculator of agreed (uncoordinated) speech sounds, and the synchronization inputs of the first and second integrators, the first and second blocks the logarithm shafts, the 10lg _{S i} / N _i ratio calculators block, the level correction blocks and the formant intelligibility calculator of the coherent (uncoordinated) speech sounds are the corresponding synchronization inputs of the formant intelligibility separators of the coherent and uncoordinated speech sounds.