JP3352946B2 - Adaptive sound quality volume control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound source signal to be loudspeaked in a sound field such as a vehicle interior, a listening room, and a public space. The present invention relates to an adaptive sound quality volume control device used for controlling a frequency characteristic and a volume of a sound.

[0002]

2. Description of the Related Art Conventionally, as this kind of sound field control device,
JP-A-55-30240, JP-A-5-11036
No. 2, JP-A-6-334457, and the like are known. FIG. 6 shows a configuration example of a conventional adaptive sound quality volume control device.

In FIG. 6, reference numeral 601 denotes a sound source such as a CD;
602 is a microphone, 603 is a frequency characteristic adjuster such as an equalizer, 604 is a volume adjuster such as a volume,
Reference numeral 605 denotes an amplifier, 606 denotes a speaker, 607 denotes a sound source signal analyzer, 608 denotes a microphone signal analyzer, 609 denotes a noise signal calculator, 610 denotes a compensation amount calculator, 611 denotes an adjustment amount updater, and 612 denotes a control amount calculator. is there.

Next, the operation of the above conventional example will be described.
In FIG. 6, a sound source signal such as an announcement or music output from a sound source 601 such as a CD is adjusted in frequency characteristics by changing gains of a plurality of frequency bands by a frequency characteristic adjuster 603 such as an equalizer, and the volume and the like are adjusted. The volume is adjusted by the volume controller 604, amplified by the amplifier 605, and emitted to the space by the speaker 606. The output signal of the sound source 601 is also input to a sound source signal analyzer 607, and a sound source signal level for each of one or more frequency bands is analyzed at regular time intervals.
One input to the noise signal calculator 609 and the compensation amount calculator 610.

[0005] In the space where the speaker 606 is installed, a microphone 602 is installed near a place where the sound output from the speaker 606 is received, or in a place where noise having a high correlation with ambient noise can be detected at the listening place.
The microphone signal level of one or more frequency bands is analyzed by the microphone signal analyzer 608 at regular time intervals by the microphone signal analyzer 608, and the noise signal calculator 60
9 is the other input. The signal detected by the microphone 602 includes the speaker 60 in addition to the ambient noise signal.
6 is also included. for that reason,
The noise signal calculator 609 converts the microphone signal analyzed by the microphone signal analyzer 608 into a sound source signal analyzer 607.
By subtracting the source signal analyzed by
Only the noise signal is calculated. When calculating the noise signal, the noise signal is calculated in consideration of the current control state, that is, the adjustment amount of the frequency characteristic adjuster 603 and the adjustment amount of the volume adjuster 604. The compensation amount calculator 610 includes a sound source signal level, which is an output signal of the sound source signal analyzer 607, and a noise signal calculator 609.
The amount to be compensated for the sound source signal is calculated using the noise signal level which is the output signal of. The compensation amount calculator 610 determines the compensation amount at regular time intervals based on, for example, the masking amount of the sound source signal by the noise signal and the energy ratio between the noise signal and the sound source signal.

Signals analyzed at regular time intervals by the sound source signal analyzer 607 and the microphone signal analyzer 608 have large temporal variations. Therefore, the compensation amount calculator 610
The compensation amount calculated by the above also varies greatly with time.
If the compensation amount is used as it is as the adjustment amount of the frequency characteristic adjuster 603 or the volume adjuster 604, the fluctuation amount within a short time is too large, and the sense of hearing becomes unnatural. Thus, the adjustment amount updater 611 smoothly adjusts the adjustment amounts of the frequency characteristic adjuster 603 and the volume adjuster 604 by integration of the output signal of the compensation amount calculator 610, averaging, LPF, or other methods. The sound quality and volume of the sound source signal are changed by the frequency characteristic 603 and the volume controller 604 so as to be updated.

As described above, even in the conventional adaptive sound quality volume control device, the frequency characteristic and the sound volume of the sound source signal are changed according to the characteristics of the detected sound source signal and the characteristics of the ambient noise. Even if the characteristics of the ambient noise change, the reproduction can be performed so that the user can hear the same sound volume as when there is no ambient noise.

[0008]

However, in the conventional adaptive sound quality volume control device, when the level of the sound source signal changes suddenly, for example, when the sound source signal is switched from BGM to an announcement, the sound quality and the volume are adjusted. There was a problem that the hearing became unnatural in time.

The present invention has been made to solve such a conventional problem, and provides an excellent adaptive sound quality volume control device that can be naturally heard in terms of audibility even when the level of a sound source signal changes rapidly. The purpose is to do so.

[0010]

In order to achieve the above object, the present invention comprises a switch for switching between a sound source signal and control, and a switch controller for controlling the switch. The control method and control parameters are switched. According to the present invention, even when the sound source signal is switched to a sound source signal having a greatly different level, an audible natural sound quality volume control effect can be obtained.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention comprises a plurality of sound sources, a microphone for detecting ambient noise, a frequency characteristic adjuster for adjusting the frequency characteristics of the sound source signal, and a volume of the sound source signal. A volume controller that adjusts the frequency, a plurality of control amount calculators corresponding to each sound source that calculates the frequency characteristics and volume adjustment amounts from the characteristics of the sound source signal and the characteristics of the microphone input signal, and a switch for switching the output of the sound source signal Device, a switching device for switching the output of the control amount calculator,
Wherein are those in which a switching control unit for controlling the respective switch, wherein the control amount calculator that corresponds to each sound source, the frequency characteristic adjusting the ambient noise characteristics and source signal characteristics detected by the microphone The adjustment amount of the volume and volume control is always calculated and the sound source signal is switched.
Sometimes the control amount calculator output signal is also switched
The frequency of the sound source signal according to the control amount calculator output signal
The Rukoto to control the characteristics and volume, also vary greatly the level of the sound source signal can best control to each of the sound source,
This has the effect that natural control can be performed in terms of hearing.

[0012] According to a second aspect of the present invention, there are provided a plurality of sound sources, a microphone for detecting ambient noise, a frequency characteristic adjuster for adjusting the frequency characteristics of the sound source signal, and a volume control for adjusting the volume of the sound source signal. , A control amount calculator for calculating the adjustment amount of the frequency characteristics and the volume from the characteristics of the sound source signal and the characteristics of the microphone input signal, a switch for switching the output of the sound source signal, and a switch for switching the output of the control amount calculator A switching controller for controlling each of the switching devices, and a plurality of storage units for separately storing the output of the control amount calculator for each sound source signal, and the ambient noise detected by the microphone. to control the frequency characteristics and volume of the sound source signals from the characteristic and the sound source signal characteristics calculates the adjustment amount of the frequency characteristic adjuster and volume controller, cut when the sound source is switched At the same time stores the adjustment amount corresponding to the previous sound source is switched to the storage device corresponding to the previous sound source Waru, corresponding to the sound source after the switching that has been previously stored from the storage unit corresponding to the sound source after switching Tomorrow
It reads an integer amount, by the adjustment amount of the adjustment amount at that time, even if the level of the sound source signal is changed greatly can optimal control to each of the sound source, the effect of audibility can naturally control Have.

[0013]

[0014]

[0015]

[0016]

The invention described in claim 3 is the first invention.
Or a level adjuster for adjusting the level of the sound source signal in addition to the invention according to claim 2 , wherein the level adjuster controls the levels of the plurality of sound source signals to be substantially equal to each other, and then performs control. By doing so, there is no significant change in the level of the sound source signal, and even if the level of the sound source signal slightly changes, optimal control can be performed for each sound source, so that there is an effect that natural control can be performed in terms of audibility.

The invention described in claim 4 is the first invention.
The control amount calculator according to any one of claims 1 to 3 , further comprising: a sound source signal analyzer that analyzes characteristics of a sound source signal; a microphone signal analyzer that analyzes characteristics of a microphone signal; and the sound source signal analyzer. A noise signal calculator that calculates an ambient noise signal from the analysis result and the analysis result by the microphone signal analyzer; and / or a calculation result of the noise signal calculator and / or an analysis result of the sound source signal analyzer. And a compensation amount calculator for calculating a control amount by using the same. Even if the level of the sound source signal greatly changes, optimal control for each sound source can be performed, and natural control can be performed in terms of audibility.

The invention described in claim 5 is the same as the invention in claim 4.
In addition to the invention described in the above, when the control amount calculated by the compensation amount calculator is used as the adjustment amount of the frequency characteristic adjuster and the adjustment amount of the volume adjuster, a sudden change in the adjustment amount is suppressed and the update is performed smoothly. In this way, an adjustment amount updater for calculating the adjustment amount is provided, so that even if the level of the sound source signal greatly changes, the optimum control can be performed for each sound source and the control can be performed naturally in terms of audibility.

Further, the invention according to claim 6 is the invention according to claim 1.
The control amount calculation of the invention according to any one of claims 5 to 5 ,
In order to hear the same sound quality and loudness as when there is no ambient noise, it is calculated by estimating the masking of the sound source signal due to the ambient noise, and the level of the sound source signal greatly changes Also has an effect that optimal control can be performed for each sound source, and natural control can be performed in terms of audibility.

The invention described in claim 7 is the first invention.
The control is performed using only one of the frequency characteristic adjuster and the volume adjuster of the invention according to any one of claims 6 to 7, and even if the level of the sound source signal greatly changes, This has an effect that optimal control for a sound source can be performed, and natural control can be performed in terms of audibility.

The invention described in claim 8 is the first invention.
To at least one of the processes other than the sound source, the microphone, the amplifier, and the speaker according to the invention according to any one of claims to 7 , is realized by software, and the level of the sound source signal greatly changes. Also has an effect that optimal control can be performed for each sound source, and natural control can be performed in terms of audibility.

The invention according to claim 9 is the first invention.
An audio device including the adaptive sound quality volume control device according to any one of claims 1 to 8 , wherein even if the level of the sound source signal greatly changes, optimal control can be performed for each sound source, and natural control can be performed in terms of audibility. Has an effect.

Hereinafter, an embodiment of the present invention will be described with reference to FIG.
This will be described with reference to FIG. (Embodiment 1) FIG. 1 is a block diagram showing a configuration of a first embodiment of the present invention.
03 is a switching controller, 104 is a microphone, 105
Is a switch for switching sound source signals, 106 is a frequency characteristic adjuster, 107 is a volume adjuster, 108 is an amplifier,
109 is a speaker, 110 and 111 are control amount calculators, 1
Reference numerals 12 and 113 denote switching devices for switching the calculated control amount.

Next, the operation of the first embodiment will be described. In FIG. 1, the operation of adjusting the frequency characteristics and the volume of the sound source signal and the operation of the control amount calculator for calculating the adjustment amount are the same as those of the above-described conventional example. Here, the operation when the sound source signal is switched will be described. The switching controller 103 includes switching units 105 and 11
The control signal is output to 2, 113. When a control signal is input, switch 105 switches the output signal of sound source 101 or 102 and selects one input signal to frequency characteristic adjuster 106. Similarly, the switching units 112 and 113 are connected to the output signal of the control amount calculator 110 or the control amount calculator 11.
1 is output. However, the switch 11
2 switches the control amount of the frequency characteristic adjuster 106 of the control amount calculators 110 and 111, and the switch 113 switches the control amount of the volume adjuster 107 of the control amount calculators 110 and 111. The control amount calculator 110 calculates a control amount for the output signal of the sound source 101, and the control amount calculator 111
Is always calculated. Further, the output signals of the sound sources 101 and 102 are kept in a state of being always output. Alternatively, the sound source 101,
When the signal is not output from 102, the control amount calculation operation of the control amount calculators 110 and 111 is stopped.

As described above, according to the first embodiment, the control amounts for a plurality of sound sources are always calculated,
Since the control amount is also switched when the sound source signal is switched, even when the sound source signal level suddenly increases or vice versa, the sound quality and volume can be adjusted with the optimal control amount, which gives a natural sense of hearing. This has the effect of performing an appropriate control.

(Embodiment 2) FIG. 2 is a block diagram showing a configuration of a second embodiment of the present invention.
2 is a sound source, 203 is a switching controller, 204 is a microphone, 205 is a switch for switching sound source signals,
206 is a frequency characteristic adjuster, 207 is a volume adjuster, 20
8 is an amplifier, 209 is a speaker, 210 is a sound source signal analyzer, 211 is a microphone signal analyzer, 212 is a noise signal calculator, 213 is a compensation amount calculator, 214 is an adjustment amount updater, 2
15 is a switch for switching the calculated control amount,
216 and 217 are storage units for storing the control amounts, and 218 is a control amount calculator.

Next, the operation of the second embodiment will be described. In FIG. 2, the operation of adjusting the frequency characteristics and volume of the sound source signal and the basic operation of the control amount calculator for calculating the adjustment amount are the same as the operations of the conventional example. Here, the switching controller 2 when the sound source signal is switched
03, switching devices 205 and 215, adjustment amount updating device 21
4. The operation of the storage units 216 and 217 will be described by taking as an example a case where the sound source 201 is switched to the sound source 202. The switching controller 203 outputs a control signal to the switching unit 205, and the switching unit 205 converts input signals to the frequency characteristic adjuster 206 and the sound source signal analyzer 210 from the output signal of the sound source 201 to the output signal of the sound source 202. And switch. The switching controller also outputs a control signal to the control amount updating unit 214 and the switching unit 215. Switching controller 20
The adjustment amount updater 214 that has received the control signal from the frequency adjuster 206 and the volume adjuster 2 at that time.
The adjustment amount of 07 is output. The switch 215 receives the output signal of the adjustment amount updater 214 and outputs the signal to the storage 216 corresponding to the sound source 201. The storage unit 216 stores the input adjustment amount. The switch 215 also controls the sound source 20.
The adjustment amount stored in the storage 217 corresponding to No. 2 is received and output to the adjustment amount updater 214. The adjustment amount updater 214 converts the adjustment amount received from the switch 215 into the frequency characteristic adjuster 206 and the volume adjuster 2 at that time.
The adjustment amount is 07.

As described above, according to the second embodiment, when the sound source is switched, the control state at that time is stored in the corresponding storage, and the control for the sound source after the switching is performed. Since the amount is read from the storage unit and the control amount is switched, the sound quality and volume can be adjusted with the optimum control amount even when the sound source signal level suddenly increases or vice versa. This has the effect that natural control can be performed.

(Embodiment 3) FIG. 3 is a block diagram showing a configuration of a third embodiment of the present invention.
2 is a sound source, 303 is a switching controller, 304 is a microphone, 305 is a switch for switching sound source signals,
306 is a frequency characteristic adjuster, 307 is a volume adjuster, 30
8 is an amplifier, 309 is a speaker, 310 is a parameter changer, 311 is a sound source signal analyzer, 312 is a microphone signal analyzer, 313 is a noise signal calculator, 314 is a compensation amount calculator, 315 is an adjustment amount updater, 316 Is a switch for switching the calculated control amount, 317 and 318 are storages for storing the control amount, and 319 is a control amount calculator.

Next, the operation of the third embodiment will be described. In FIG. 3, the operation of adjusting the frequency characteristic and volume of the sound source signal and the basic operation of the control amount calculator for calculating the adjustment amount are the same as those of the above-described conventional example. Here, the switching controller 3 when the sound source signal is switched
03, switches 305 and 316, parameter changer 3
10, the operation of the adjustment amount updater 315 and the storages 317 and 318 will be described by taking the case where the sound source 301 is switched to the sound source 302 as an example. The switching controller 303 outputs a control signal to the switching unit 305, and the switching unit 305 converts the input signals to the frequency characteristic adjuster 306 and the sound source signal analyzer 311 from the output signal of the sound source 301 to the output signal of the sound source 302. And switch. The switching controller 303 also outputs a control signal to the parameter changer 310, the control amount updater 315, and the switch 316. Adjustment amount updater 31
5. The operations of the switching unit 316 and the storage units 317 and 318 are the same as the operations described in the second embodiment.
Upon receiving the control signal from the switching controller 303, the parameter changer 310 changes the parameters of the sound source signal analyzer 311, the microphone signal analyzer 312, and the adjustment amount updater 315. Sound source signal analyzer 311, microphone signal analyzer 3
The changing parameters for 12 are the analysis time interval,
The analysis length, the frequency band to be analyzed, the filter characteristics for frequency analysis, and the like, and the parameters to be changed for the adjustment amount updater 315 are the update time interval, the update width, and the like. The changed parameters are held until the next switching control signal is received. FIG. 3 illustrates the case where the control amount storage and the parameter change are performed at the same time, but only the parameter change may be performed.

As described above, according to the third embodiment, when the sound source is switched, the control state at that time is stored in the corresponding storage unit, and the control for the switched sound source is performed. Since the amount is read from the storage unit, the control amount is switched, and the parameters of the analysis and control method are further switched, so when the sound source signal level suddenly increases and vice versa, it is possible to respond to the switched sound source signal. The sound quality and the sound volume can be adjusted by the optimal control, and there is an effect that a natural control can be performed in terms of audibility.

(Embodiment 4) FIG. 4 is a block diagram showing a configuration of a fourth embodiment of the present invention.
2 is a sound source, 403 is a switching controller, 404 is a microphone, 405 is a switch for switching sound source signals,
406 is a frequency characteristic adjuster, 407 is a volume adjuster, 40
8 is an amplifier, 409 is a speaker, 410 is a parameter changer, 411 is a sound source signal analyzer, 412 is a microphone signal analyzer, 413 is a noise signal calculator, 414 is a compensation amount calculator, 415 is an adjustment amount updater, 416 Is a switch for switching the calculated control amount, 417 and 418 are storage units for storing the control amount, 419 is a delay unit, and 420 is a control amount calculator.

Next, the operation of the third embodiment will be described. In FIG. 4, operations other than the parameter changer 410 and the delayer 419 are the same as those in the third embodiment. Here, when the switching controller 403 outputs the switching signal to switch the sound source signal,
The operation of the parameter change unit 410 and the delay unit 419 will be described. The switching controller 403 includes the switching unit 40
5, 416, a parameter changer 410, and a delayer 419 to output a switching control signal. Parameter changer 410
Receives the control signal from the switching controller 403,
The parameters of the sound source signal analyzer 411, the microphone signal analyzer 412, and the adjustment amount updater 415 are changed. Delay unit 419
Outputs the switching control signal output from the switching controller 403 with a certain delay. The switching control signal delayed by the delay unit 419 is input to the parameter change unit 410. When the parameter changer 410 receives the delayed switching signal, the parameter changer 410
11, the parameters of the microphone signal analyzer 412 and the adjustment amount updater 415 are returned to the original parameters.

As described above, according to the fourth embodiment, the parameters of the analysis and the control method are switched for a fixed time when the sound source is switched. In the transient state, the control parameters can be set to the optimal state, so that even when the sound source signal level suddenly increases or vice versa, the sound quality and volume can be adjusted with the optimal control. This has the effect that natural control can be performed in terms of hearing.

(Embodiment 5) FIG. 5 is a block diagram showing a configuration of a fifth embodiment of the present invention.
2 is a sound source, 503 is a level adjuster, 504 is a switching controller, 505 is a microphone, 506 is a switch for switching sound source signals, 507 is a frequency characteristic adjuster, 5
08 is a volume controller, 509 is an amplifier, 510 is a speaker, 511 is a sound source signal analyzer, 512 is a microphone signal analyzer, 513 is a noise signal calculator, 514 is a compensation amount calculator,
515 is an adjustment amount updater, and 516 is a control amount calculator.

Next, the operation of the fifth embodiment will be described. The operation of adjusting the frequency characteristics and volume of the sound source signal and the operation of the control amount calculator for calculating the adjustment amount are the same as those of the above-described conventional example. Here, the operation of the level adjuster 503 will be described. Level adjuster 5
03 adjusts the average level of the sound source signal output from the sound source 502 to be the same as the average level of the sound source signal output from the sound source 501. Therefore, input signals to the switch 506 are input at the same level even if they are signals from different sound sources.

As described above, according to the fifth embodiment, even when a plurality of sound source signals having different output levels are switched, the same control state can be always maintained, and natural control can be performed in terms of audibility. It has the effect of.

[0039]

As described above, according to the invention described in each claim, when a plurality of sound source signals having different output levels are switched, the control state after the switching is quickly set to the optimum state, or the switching is performed. In the transient state, the control can be optimized, or the same control can be performed even when the sound source signal is switched. Therefore, the optimum control can be performed even when the sound source signal is switched, and there is an effect that natural control can be performed in terms of audibility. .

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an adaptive sound quality volume control device according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of an adaptive sound quality volume control device according to a second embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of an adaptive sound quality volume control device according to a third embodiment of the present invention.

FIG. 4 is a block diagram illustrating a configuration of an adaptive sound quality volume control device according to a fourth embodiment of the present invention.

FIG. 5 is a block diagram illustrating a configuration of an adaptive sound quality volume control device according to a fifth embodiment of the present invention.

FIG. 6 is a block diagram showing a configuration of a conventional sound field control device.

[Explanation of symbols]

101, 102, 201, 202, 301, 302, 4
01, 402, 501, 502, 601 ... sound source 103, 203, 303, 403, 504 ... switching controller 104, 204, 304, 404, 505, 602 ...
・ Microphones 105, 112, 113, 205, 215, 305, 3
16, 405, 416, 506... Switchers 106, 206, 306, 406, 507, 603,.
-Frequency characteristic adjusters 107, 207, 307, 407, 508, 604-
-Volume controllers 108, 208, 308, 408, 509, 605-
・ Amplifiers 109, 209, 309, 409, 510, 606
・ Speakers 110, 111, 218, 319, 420, 516, 6
12: control amount calculator 210, 311, 411, 511, 607 ... sound source signal analyzer 211, 312, 412, 512, 608 ... microphone signal analyzer 212, 313, 413, 513, 609 ..Noise signal analyzers 213, 314, 414, 514, 610: compensation amount calculators 214, 315, 415, 515, 611: adjustment amount updaters 216, 217, 317, 318, 417, 418・
-Storage units 310, 410-Parameter changer 419-Delay unit 503-Level adjuster

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-218769 (JP, A) JP-A-2-283107 (JP, A) JP-A-6-177677 (JP, A) 51513 (JP, U) Japanese Utility Model Hei 6-7312 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) H03G 5/16 H03G 3/32 H03G 9/00

Claims (9)

(57) [Claims] 1. A plurality of sound sources, a microphone for detecting ambient noise, a frequency characteristic adjuster for adjusting frequency characteristics of a sound source signal, a volume adjuster for adjusting a volume of the sound source signal,
Frequency and volume adjustments are calculated for each sound source based on the characteristics of the sound source signal and the characteristics of the microphone input signal.
A plurality of control amount calculators, a switch for switching the output of the sound source signal, a switch for switching the output of the control amount calculator, and a switching controller for controlling each of the switchers, wherein each of the sound sources When the sound source signal is switched , the control amount calculator corresponding to the above always calculates the adjustment amounts of the frequency characteristic adjuster and the volume adjuster from the ambient noise characteristics and the sound source signal characteristics detected by the microphone.
The control signal calculator output signal is also switched to before
The frequency characteristic of the sound source signal according to the output signal of the control variable calculator
And said that you control the volume and the adaptive sound volume control device. 2. A plurality of sound sources, a microphone for detecting ambient noise, a frequency characteristic adjuster for adjusting frequency characteristics of the sound source signal, a volume adjuster for adjusting the volume of the sound source signal,
A control amount calculator that calculates the frequency characteristic and volume adjustment amounts from the characteristics of the sound source signal and the characteristics of the microphone input signal, a switch that switches the output of the sound source signal, a switch that switches the output of the control amount calculator, A switching controller for controlling each switching device, and a sound output from the control amount calculator.
A plurality of storage units for separately storing each of the source signals, and calculating the adjustment amounts of the frequency characteristic adjuster and the volume adjuster from the ambient noise characteristics and the sound source signal characteristics detected by the microphone, and Controls the frequency characteristics and volume of the signal, and responds to the sound source before switching when the sound source switches
The storage unit stores the adjustment amount corresponding to the sound source before switching, and simultaneously stores the adjustment amount corresponding to the sound source after switching from the storage unit corresponding to the sound source after switching to the previously stored switched sound source.
Reads the amount of adjustment of response, adaptive tone volume control device, characterized in that the adjustment <br/> amount of the adjustment amount at that time. 3. A comprising a level adjuster for adjusting the level of the sound source signals, according to claim 1 or claim, characterized in that for controlling the levels of a plurality of sound source signals on that at approximately the same level by the level adjuster Item 3. The adaptive sound quality volume control device according to Item 2 . 4. A sound source signal analyzer for analyzing a characteristic of a sound source signal, a microphone signal analyzer for analyzing a characteristic of a microphone signal, an analysis result by the sound source signal analyzer and the microphone signal analysis. A noise signal calculator that calculates an ambient noise signal from the analysis result by the analyzer, and a control amount is calculated by using both or one of the calculation result of the noise signal calculator and the analysis result of the sound source signal analyzer. adaptive tone volume control apparatus according to any one of claims 1 to 3, characterized in that it consists of a compensation amount calculator. 5. When the control amount calculated by the compensation amount calculator is used as the adjustment amount of the frequency characteristic adjuster and the adjustment amount of the volume adjuster, a sharp change in the adjustment amount is suppressed and the update is performed smoothly. 5. The adaptive sound quality volume control device according to claim 4, further comprising an adjustment amount updater for calculating an adjustment amount. 6. The control amount calculation is performed by estimating masking of a sound source signal due to the ambient noise so that the sound quality and the sound volume are the same as when there is no ambient noise. The adaptive sound quality volume control device according to any one of claims 1 to 5 . 7. A frequency characteristic adjuster or adaptive tone volume control device according to any one of claims 1 to 6, characterized in that the control is performed using only one of the volume controller. 8. A sound source, microphone, amplifier, among the processes other than the speaker, the adaptive sound volume control apparatus according to any one of claims 1 to 7, characterized in that implemented in software at least one or more . 9. An audio apparatus including an adaptive tone volume control device as claimed in any one of claims 8.