RU2343562C1 - Way and electronic device of optimising reverberation time in transfer of sound signals - Google Patents

Abstract

FIELD: physics, communication.

SUBSTANCE: invention can be used for optimising reverberation time in transfer of sound signals. In compliance with proposed invention, starting signal is supplemented with the Gilbert-matching signal, and then the starting signal envelope is isolated to make a subsignal by determining square root of the sum of squares of every Gilbert-matching signal of a pair. Then, aforesaid envelope is size-limited, inverted, added to constant voltage and multiplied by the starting signal integrated envelope. Now, it is multiplied by the reverberator output signal, the resulted product is rescaled and added to delayed starting signal to produce output signal.

EFFECT: improved quality of sound signals, including increase of legibility of voice signals.

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Description

The group of inventions relates to the field of instrumentation and is intended for processing audio signals, mainly with the aim of optimizing the reverberation time when transmitting audio signals.

There is a method that allows you to change the reverberation time of sound signals in the room by treating its internal surfaces with sound-absorbing materials, as well as by placing various sound-absorbing structures in the room [1, p.131-170].

The reasons that impede the achievement of the required technical result when using the known method include the fact that for different sound signals the optimal reverberation time is not the same. For musical signals, the optimal reverberation time, determined by the criterion of the best subjective sound quality of the signals, is much larger than the optimal reverberation time for speech, determined by the maximum of its intelligibility [1, pp. 47-78]. Therefore, the acoustic processing of rooms for sound reproduction is performed differently for concert halls and lecture halls, since in this case the reverberation time cannot be changed operatively. As a result, in multi-purpose rooms with natural acoustics, in which speech and music can alternate (for example, theaters, cinemas, etc.), the reverberation time is chosen in a compromise, and since it is always the same, therefore, most often, it is not optimal.

The closest method of the same purpose to the method claimed in the group of inventions according to the totality of features is the method implemented in those reverbs that operate in real time and in which the reverberation time can be changed (see Appendix 1 at the end of the description).

The closest device of the same purpose to the claimed device in the group of inventions is a device for creating artificial reverb (reverb), implemented on a personal computer VST-module of the company Spin Audio Software called Room VerbM2 ver.1.0 build 100 (see Appendix 2 at the end of the description ), which works in real time and in which the reverberation time can be changed.

The reasons that impede the achievement of the required technical result when using the known method and device for its implementation, adopted as a prototype, include the fact that when they are used, the reverberation time cannot be made a function of the signal properties, it is impossible to control the reverberation time so that it changes automatically, becoming optimal for every new sound. In the prototype, the selected reverberation time is set for the entire fragment of the phonogram as a whole.

The invention consists in the following.

The single task to be solved by the claimed group of inventions is to improve the sound quality of audio signals and, mainly, to increase the intelligibility of speech signals transmitted in the presence of a reverb process. Improving speech intelligibility in the presence of a reverberation process is achieved by automatically optimizing the reverberation time for each individual sound. It was established [1] that the value of the optimal reverberation time depends on the duration of sounds and the duration of pauses between sounds. The smaller they are, the shorter is the optimal reverberation time.

The only technical result that can be obtained by implementing the group of inventions is that as a result of processing the transmitted signals, the time of their artificial reverb depends on the duration of the sound of the signals and the duration of the pauses between the sounds, changing automatically so that the time of artificial reverberation of the processed signal is always becomes close to the optimal value for each transmitted sound (as a result of which speech intelligibility grows), but does not remain the same and optim average on average, as at present.

The specified single technical result in the implementation of the group of inventions according to the object-method is achieved by the fact that, as in the known method, the reverb signal is created by a real-time reverb, but in contrast to the prototype, the original signal is supplemented by a Hilbert-conjugated signal, and then in the form of the sub-signal isolate the envelope of the original signal, determining the square root of the sum of the squares of each of the pair of Hilbert-conjugated signals, then this envelope is limited in magnitude, invert, the warehouse vayut constant voltage integrated over and multiplied with the original envelope signal, and then multiplied with the output of the reverberator obtained product scale change and folded with delayed original signal, thereby forming an output signal.

As an example of the implementation of the proposed method, a device is provided.

The specified single technical result in the implementation of the invention is achieved by the fact that the known device, which is a real-time reverb, is additionally equipped with a phase shifter, two squaring units, two multipliers, three adders, a square root extraction unit, an integrator, a comparator, an inverter , a delay unit and a scale amplifier, the input of the device being connected to the inputs of the reverb, phase shifter and delay unit, the first and second phase outputs the rotator are connected to the inputs of the first and second squaring units, respectively, the outputs of which are connected to the inputs of the first adder, the output of the first adder is connected to the input of the square root extraction unit, the output of which is connected through the comparator and inverter to the first input of the second adder, to the second input of which DC voltage, the output of the second adder is connected to the first input of the first multiplier, the second input of which is connected to the output of the square root extraction unit through the integrator, the output the first multiplier is connected to the first input of the second multiplier, the second input of which is connected to the output of the reverb, the output of the second multiplier through a scale amplifier is connected to the first input of the third adder, the second input of which is connected to the output of the delay unit, the output of the third adder forms the output of the device.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information, made it possible to establish that the applicant did not find an analogue for both the method and the device, characterized by features identical to all the essential features of both the method and device of the claimed group of inventions , and the determination of the number of identified analogues of the prototype, as the closest in the set of features, allowed us to determine the set of essential in relation to the technical result when characters in the claimed object set forth in the claims.

Therefore, each of the objects of the claimed group of inventions meets the requirement of "novelty" of the current legislation.

To verify the conformity of the claimed invention to the requirements of the inventive step, the applicant conducted an additional search for solutions in order to identify features that match the features that are distinctive from the prototype, the results of which showed that each of the objects of the invention does not follow explicitly from the prior art, as the prior art defined by the applicant, the effect of the transformations provided for by the essential features of the claimed invention on the achievement of technical Skog result.

Therefore, the claimed invention meets the requirement of "inventive step" of the current legislation.

Figure 1 presents the structural diagram of the inventive device, where 1 is a reverb; 2 - phase shifter; 3, 4 - squaring blocks; 5, 14, 15 - adders; 6 - block extract square root; 7 - a comparator; 8 - block delay signal; 9 - integrator; 10 - inverter; 11, 12 - multipliers; 13 is a large-scale amplifier.

Information confirming the possibility of carrying out the invention with obtaining the above technical result are as follows.

The inventive method and device can increase speech intelligibility, in the presence of a reverb process. An increase in intelligibility is achieved by automatically changing the duration of the artificial reverb process, the time of which becomes close to the optimal reverberation time for each transmitted sound.

As a mathematical model of the original sound signal processed by the claimed device (figure 1), the expression

where s _in (t) is the original sound signal; S (t), φ (t) is the envelope and the current phase of the sound signal, respectively, at each moment of time they determine the change in the amplitude and phase of the original speech signal. 2a, tonal pulses of different magnitude and duration are shown.

As a mathematical model of the signal at the output of the reverb, we take the expression

where k _i s _in (t-τ _i ) is one of the terms of the reverberation process; k _i is the transfer coefficient determining the decrease in the i-th term; τ _i is the delay time of the i-th term of the reverberation process.

The illustration obtained using a computer, a variant of the signal at the output of the reverb (for the signal shown in figa) is shown in figb.

We show that an audio signal is formed at the output of the device, in which the duration of the reverb process depends on the properties of the signal itself:

The proposed device operates as follows.

The input sound signal is fed to the phase shifter PV (2 in figure 1), where it is supplemented by a signal coupled to it according to Hilbert

The input and associated signals are fed to the squaring blocks (3 and 4 in FIG. 1). Using the adder C1 (5 in FIG. 1) and the square root extraction unit (6 in FIG. 1), the envelope is calculated using the well-known formula:

For the input signal shown in FIG. 2a, an envelope waveform (5) obtained by a computer is shown in FIG. 2c.

The envelope signal (5) is fed to the comparator (7 in figure 1) and the integrator (9 in figure 1).

The comparator with this signal generates a pulse signal, shown in figa

the duration of each pulse shown in FIG. 3a depends on the duration of the sounds in the original signal. The signal is inverted (Fig.3b) by an inverter (10 in Fig.1). In this case, a signal of the form is formed:

He goes to the adder C2 (14 in figure 1), where the constant component U _post is added to it. In the considered example, U _post . = 0.

The output of the adder C2 (14 in figure 1) generates a signal:

The signal generated at the output of the integrator (9 in figure 1) is calculated by the formula

where T is the integration constant.

An illustration obtained using a computer is shown in FIG.

The signals from the outputs of the adder C2 (14 in Fig. 1) and the integrator (9 in Fig. 1) are multiplied by the multiplier P1 (11 in Fig. 1), which forms the control signal of the reverb signal (Fig. 4a)

This signal is designed to automatically change the duration of the reverberation process at the output of the device. For this, the reverb signal is multiplied with the control signal (Fig.4b) by the multiplier P2 (12 in Fig.1), and then it is fed to a large-scale amplifier (13 in Fig.1). Signal from the output of a large-scale amplifier

where k _mu is the gain of a large-scale amplifier; summed by the adder C3 (15 in figure 1) with an input signal that is delayed for a time τ by the delay unit (8 in figure 1):

Thus, an output signal is generated.

The purpose of introducing a delay is to combine in time the original signal and the artificial reverb signal.

By decreasing the value of k _mu (making the value of this coefficient less than unity), one can reduce the reverberation time perceived by listeners. This should be done in small halls in order to bring the perceived reverberation time into subjective compliance with the size of the hall.

The DC voltage U _post can be adjusted. It is known that the visibility of the reverberation process increases in the process of sounding the signal. Therefore, the sound of a clean input signal, to which the reverb process is added in pauses, will not sound entirely natural. For a more natural sound, it is necessary that the sound of the input signal is accompanied by a certain amount of reverberant sound. This proportion in the proposed device is determined by the value of the constant voltage U _post , which, as a result of multiplication with the integrated envelope, will determine the transmission coefficient for the reverberation process during a continuous sound.

An automatic change in the duration of the reverberation process perceived by students is illustrated in FIG. It can be seen that when the duration of the sound decreases within certain limits, the integrated envelope (8) will not have time to reach the short sound duration

Δt _{sound box} = t _con2 -t _nach2 ,

steady-state value and the process of decay of this envelope after the signal ends to the auditorium noise level occurs in a shorter time Δt _roar2 , i.e.

Δt _rev1 = t _pev1 -t _con1 ; Δt _rev2 = t _pev2 -t _con2 ; Δt _rev2 <Δt _pev1 .

We can assume that the reverberation process, sounding at a level below the noise level of the auditorium, is almost not audible to the audience.

As you know, it is precisely in the pauses between sounds that the sound of the reverberation process is most noticeable. At the same time [1, p.32] for perception, the audible reverb process is mainly important.

Note. As a characteristic of the acoustic properties of a room, it is customary to use the standard reverberation time, which is defined as the time for which the signal level after its completion decreases by 60 dB in the room. The proposed device is planned to be used in rooms with a short standard reverberation time, in which the optimal reverberation time for sound transmission is not provided.

The integration time T of the integrator (9 in FIG. 1) is set so that for slower music the optimum reverberation time is obtained, and for faster music and for speech, the reverberation time is automatically reduced, as shown in FIG.

The authors also consider it necessary to clarify that high intelligibility will be achieved after processing the speech signals by the claimed device even with an erroneously long reverberation time set in the reverb, and even with an erroneous choice of too long envelope integration time, as a result of which the decay duration of the integrated envelope (9) can exceed the length of the pause between the sounds of speech. The intelligibility will remain high in these cases because for the duration of the sound of a pure input signal, it is possible, by choosing U _post = 0, to completely eliminate the sound of the reverb process. In addition, the level of reverberation sound in the pauses of the input signal can be adjusted by the magnitude of the gain of the scale amplifier k _mu .

Thus, the above information indicates the fulfillment of the following conditions when using the claimed invention:

- a tool embodying the claimed invention in its implementation, is intended for use in industry, namely in analog sound engineering;

- for the claimed invention, in the form described in the claims, the possibility of its implementation using the methods and methods described above or known prior to the priority date is confirmed.

Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Literature

1. Mankovsky B.C. Acoustics of studios and halls for sound reproduction. - M. Art, 1966. - 375 p.

Claims (2)

1. A method of optimizing the reverberation time when transmitting audio signals, in which the reverberation signal is created by a real-time reverb, characterized in that the original signal is supplemented by a Hilbert-conjugated signal, after which the envelope of the original signal is extracted as a sub-signal, determining the square root the sum of the squares of each of the pair of Hilbert-conjugated signals, then this envelope is limited in magnitude, inverted, added up with a constant voltage and multiplied with integro Anna envelope of the original signal, and then multiplied with the output of the reverberator obtained product scale change and folded with delayed original signal, thereby forming an output signal. 2. Device for optimizing the reverberation time when transmitting audio signals, which includes a real-time reverb, characterized in that it is additionally equipped with a phase shifter, two squaring units, two multipliers, three adders, a square root extraction unit, an integrator, a comparator, an inverter, a delay unit and a scale amplifier, the input of the device being connected to the inputs of the reverb, phase shifter and delay unit, the first and second phase-shifter outputs The carrier is connected to the inputs of the first and second squaring units, respectively, the outputs of which are connected to the inputs of the first adder, the output of the first adder is connected to the input of the square root extraction unit, the output of which is connected through the comparator and inverter to the first input of the second adder, to the second input of which DC voltage, the output of the second adder is connected to the first input of the first multiplier, the second input of which is connected to the output of the square root extraction unit through the integrator, output the first- multiplier connected to the first input of the second multiplier, a second input coupled to an output of the reverberator, the output of the second multiplier through a scaling amplifier connected to the first input of the third adder, the second input of which is connected to the output of the delay block, forms a third output of the adder unit output.

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