JP2006135489A - Reproduction balance adjusting method, program, and reproduction balance adjusting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a right/left-balanced audio reproduction environment by grasping optimum transfer characteristics matching physical characteristics of the external ears and internal ears that a listener has. <P>SOLUTION: A sound source section 1 outputs right and left identical or different reproduction signals to a correction processing section 2. The correction processing section 2 processes the right and left reproduction signals with respect to a right/left time difference, right and left sound pressure levels, etc., according to input from the listener. An audio output section 3 outputs the signals processed by the correction processing section 2 as audio and, in concrete, constitute right and left speakers of headphones or earphones. A time difference adjustment processing section 12 of the correction processing section 2 calculates a right/left time delay difference and a time-difference-by-band adjustment processing section 14 divides the processing by bands and makes adjustments and a sound pressure level adjustment processing section 13 calculates a right/left sound pressure level difference and a sound-pressure-level-by-band adjustment processing section 15 divides the right/left sound pressure level difference by bands and makes adjustments. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for grasping and correcting a right and left sound reproduction balance caused by a difference in wearing state of a listener when wearing headphones or a hearing characteristic.

  Ideally, headphones and earphones should be worn with the left and right speakers symmetrically with respect to both ears, but in reality, the left and right speakers are worn in an unbalanced state. Therefore, the right and left playback environments differ depending on the state when the headphones are worn.

  In addition, the listening sound has different auditory characteristics for each individual. That is, each listener has a different shape, size, etc. of the outer ear or the inner ear, so that there are individual differences in auditory characteristics caused by this. As a result, for example, even if the headphones are worn in an ideal state, the listener may perceive the left and right as unbalanced sound, and conversely, the left and right unbalanced sound is well balanced. It may be perceived as.

  In particular, many digital contents in recent years have recorded a plurality of sound signals, and by reproducing such a plurality of sound signals, a sound image can be generated so that the user can feel the direction in which the sound is grasped and the movement of the sound. In a three-dimensional sound reproduction device that performs localization, it is difficult to perform accurate sound image localization due to the left and right imbalance.

In order to eliminate such an imbalance between the left and right listening levels, there is one that adjusts the sound pressure level flowing from the left and right speakers during headphone playback (Patent Document 1 below). In addition, the reproduction sound emitted from the speaker is picked up by a microphone to obtain the signal level for each band and the signal level for each band of the audio source signal output from the audio device, and the sound field so as to cancel the relative difference of the frequency characteristic curve based on this. There is a sound field correction apparatus that faithfully reproduces a source by performing correction (Patent Document 2 below).
Japanese Patent Laid-Open No. 11-122060 Japanese Patent Laid-Open No. 5-184000

  By the way, although the said patent document 1 only adjusts the sound pressure level of a right-and-left speaker for the objective of the invention, in fact, the time difference which an audio | voice reaches | attains with the wearing state of a headphone, and the shape of a listener's outer ear or inner ear. Because the left and right sounds are different for each frequency, the left and right imbalances could not be resolved by simply correcting the sound pressure level.

  In Patent Document 2, although the reproduction sound is corrected for the sound pressure level for each band, the reproduction sound is picked up by the microphone. Therefore, the microphone is assumed to be in contact with the eardrum of the left and right ears with a dummy head that simulates the listener. Even if the sound is collected by providing the sound, it is impossible to consider the transmission characteristics based on the shape of the outer ear and inner ear of each listener. Therefore, in this case as well, it is impossible to eliminate the left and right imbalance and to realize accurate localization of the sound image by the left and right audio signals for the listener.

  The present invention has been proposed in order to solve the conventional problems as described above, and its purpose is to optimize the physical characteristics and perceptual characteristics of the outer and inner ears of individual listeners. It is an object of the present invention to provide a reproduction balance adjustment method, a program, and a reproduction balance adjustment apparatus capable of grasping a proper transfer characteristic and providing an audio reproduction environment in which right and left reproduction balance is achieved.

  In order to achieve the above-mentioned object, the invention of claim 1 performs predetermined processing on the audio signal output from the sound source unit, so that the listening position of the listener's headphones, the physical characteristics or the perception of the outer ear and the inner ear. A reproduction balance adjustment method that realizes a left / right reproduction balance corresponding to characteristics, a process of outputting an audio signal for adjusting the left / right reproduction balance, an audio signal for adjustment, and a band for each audio signal in the listener The computer executes a band-specific sound pressure level adjustment process for detecting, as a parameter, a left-right sound pressure level difference for each band corresponding to the listener based on a correction instruction for the left-right sound pressure level difference. .

  The invention of claim 9 captures the invention of claim 1 from the viewpoint of a computer program. By controlling the computer, a predetermined process is performed on the audio signal output from the sound source unit. A reproduction balance adjustment program for realizing right and left reproduction balance corresponding to a listener's headphone wearing position, physical characteristics or perceptual characteristics of the outer and inner ears, and outputting a sound signal for adjusting right and left reproduction balance, Based on a sound signal and a correction instruction for a left-right sound pressure level difference for each band of the sound signal in the listener, the left-right sound pressure level difference for each band corresponding to the listener is detected as a parameter. .

  The invention of claim 17 defines the invention of claim 1 or 9 as the invention of the device, and includes each processing unit that performs a plurality of processes on the audio signal output from the sound source unit. A reproduction balance adjustment device that realizes a right / left reproduction balance corresponding to a listening position of a listener's headphones, a physical characteristic or a perceptual characteristic of an outer ear and an inner ear by processing, and a sound source unit that outputs an audio signal for adjusting the right / left reproduction balance And the left and right sound pressure level difference for each band corresponding to the listener is detected as a parameter based on the adjustment audio signal and a correction instruction for the left and right sound pressure level difference for each band of the sound signal by the listener And a sound pressure level adjusting unit for each band.

  In these modes, when the listener wears headphones, the audio signal is divided into frequency bands, and the physical characteristics and perceptual characteristics of the listener's left and right ears in each band are determined, and then the sound pressure for each frequency is determined. Since the level can be set, the optimal transmission characteristics are realized according to the physical characteristics of the listener's individual headphone, the external or inner ear of the listener, and the listener's perceptual characteristics. An excellent audio reproduction environment can be provided.

  In addition, since the wearing state of the headphones does not vary greatly as long as the same headphones are used, the adjustment data when the headphones to be used are specified is obtained, and this is stored in the processing data storage unit. Even when playing various music media, it is possible to provide an optimal playback environment for the listener.

A second or tenth aspect of the invention is characterized in that, in the first or ninth aspect of the invention, left and right uncorrelated noise is used as the adjustment audio signal.
The invention of claim 18 prescribes the invention of claim 2 as an invention of the device, and in the invention of claim 17, the sound source unit outputs left and right uncorrelated noise as the audio signal for adjustment, The band-specific sound pressure level adjustment unit uses the left and right uncorrelated noise.

  In these aspects, since the left and right uncorrelated noise is used in the sound pressure level adjustment for each band, it is possible to listen to the left and right completely independent sounds and to easily perceive the difference between the left and right sound pressure levels.

  According to a third aspect of the present invention, in the first or second aspect of the invention, the left-right time difference corresponding to the listener is calculated based on the audio signal for adjustment and a correction instruction for the left-right time difference of the audio signal in the listener. It includes a time difference adjustment process detected as a parameter.

  The eleventh aspect of the present invention is the computer program according to the third aspect of the present invention. In the tenth or tenth aspect of the present invention, the audio signal for adjustment and the right and left of the audio signal of the listener Based on the correction instruction for the time difference, the left-right time difference corresponding to the listener is detected as a parameter.

  The invention of claim 19 defines the invention of claims 3 and 11 as an invention of the device. In the invention of claim 17 or 18, the audio signal for adjustment and the right and left of the audio signal of the listener A time difference adjustment unit that detects a left-right time difference corresponding to the listener as a parameter based on a correction instruction for the time difference is provided.

  In these aspects, in the state where the listener wears the headphones, in addition to the adjustment of the sound pressure level for each frequency described above, the left-right time difference can be adjusted. Therefore, for example, when the listener wears headphones, when playing back left and right audio signals from a sound source, if the left and right balance is the same, the sound image is localized in the middle of the listener, but the left and right balance must be the same. In this case, the sound image is biased to the right or left and is localized. Therefore, by adjusting this, it is possible to achieve optimal transfer characteristics that match the physical characteristics of the listener's individual headphones, the outer or inner ear of the listener, and the listener's perceptual characteristics, and balance left and right reproduction. A sound reproduction environment can be provided.

The invention of claim 4 or claim 12 is characterized in that, in the invention of claim 3 or claim 11, noise having the same left and right amplitude and phase is used as the audio signal for adjustment.
The invention of claim 20 defines the invention of claim 4 or 12 as an invention of the device, and in the invention of claim 19, the sound source section has the same left and right amplitude as the audio signal for adjustment. Noise of the same phase is output, and the time difference adjustment unit performs processing based on the noise of the same amplitude and phase of the same left and right.

  In these aspects, since noise with the same amplitude and phase on the left and right is used in the time adjustment process, it is easier to perceive the left / right phase difference than when using normal music or the like as the adjustment sound, and more accurate time difference adjustment is possible. .

  According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, the audio signal for adjustment and a correction instruction for a difference in right and left sound pressure levels of the audio signal in a listener are provided. And a sound pressure level adjustment process for detecting a left and right sound pressure level difference corresponding to the listener as a parameter.

  A thirteenth aspect of the invention is an invention according to the fifth aspect of the present invention, which is obtained from the viewpoint of a computer program. In the invention according to any one of the ninth to twelfth aspects, the audio signal for adjustment and a listener Based on the correction instruction for the difference between the left and right sound pressure levels of the audio signal, the left and right sound pressure level difference corresponding to the listener is detected as a parameter.

  The invention according to claim 21 defines the invention according to claim 5 or 13 as a device, and in the invention according to any one of claims 17 to 20, the audio signal for adjustment and a listener And a sound pressure level adjustment unit that detects a left and right sound pressure level difference corresponding to the listener as a parameter based on a correction instruction for the left and right sound pressure levels of the audio signal.

  In these aspects, the sound pressure level can be adjusted as a whole in addition to the adjustment of the sound pressure level for each frequency in the state where the listener wears the headphones. Therefore, for example, there may be a difference in the left and right signal levels due to the difference in the left and right shapes of the listener's outer ear or inner ear. In such a case, the sound image is localized to the right or left. Therefore, the left and right signal levels are adjusted to adjust the signal level so that the signal can be received at a position where the sound image is localized in the middle of the listener, and the left and right sound pressure level amounts perceived by the listener are identified. This realizes optimal transmission characteristics that match the physical characteristics of the listener's individual headphones or the listener's outer or inner ear, and the listener's perceptual characteristics, and provides a sound reproduction environment with a balanced left / right reproduction. Will be able to.

The invention of claim 6 or 14 is characterized in that, in the invention of claim 5 or 13, noise that is left and right uncorrelated is used as the audio signal for adjustment.
The invention of claim 22 defines the invention of claim 6 or 14 as a device, and in the invention of claim 21, the sound source unit generates left and right uncorrelated noise as the adjustment audio signal. And the sound pressure level adjustment unit uses the left and right uncorrelated noise.

  In these aspects, since the left and right uncorrelated noise is used in the sound pressure level adjustment, it is possible to listen to the sound completely independent of the left and right, and to easily perceive the difference between the left and right sound pressure levels.

  The invention according to claim 7 is the invention according to any one of claims 1 to 6, based on the audio signal for adjustment and an instruction to correct the left / right time difference for each band of the audio signal by the listener. And a time-dependent time difference adjustment process for detecting a time difference between left and right for each band corresponding to the listener as a parameter.

  The invention of claim 15 defines the invention of claim 7 from the viewpoint of a computer program. In the invention of any one of claims 9 to 14, the audio signal for adjustment and the reception are received. Based on the instruction to correct the left / right time difference for each band of the audio signal by the listener, the left / right time difference for each band corresponding to the listener is detected as a parameter.

  The invention of claim 23 defines the invention of claim 7 or claim 15 from the viewpoint of the device, and in the invention of any one of claims 17 to 22, the audio signal for adjustment And a time difference adjusting unit for each band that detects a left-right time difference for each band corresponding to the listener as a parameter based on a correction instruction for the left-right time difference for each band of the audio signal in the listener.

  In these aspects, it is possible to set the time delay amount after dividing the audio signal into frequency bands and grasping the physical characteristics and perceptual characteristics of the listener's left and right outer or inner ears in each band.

The invention of claim 8 or 16 is characterized in that, in the invention of claim 7 or 15, noise having the same amplitude on the left and right and the same phase is used as the audio signal for adjustment.
The invention of claim 24 defines the invention of claim 8 or 16 as a device, and in the invention of claim 23, the sound source unit has the same amplitude and phase as the sound signal for adjustment. Noise is output, and the time difference adjusting unit for each band uses noise having the same amplitude and phase on the left and right.

  In these aspects, since noise with the same amplitude and phase on the left and right is used in the time adjustment process, it is easier to perceive the left / right phase difference than when using normal music or the like as the adjustment sound, and more accurate time difference adjustment is possible. .

  According to the present invention as described above, it is possible to grasp the physical characteristics of the outer ear and the inner ear possessed by each individual listener and the optimum transmission characteristics in accordance with the perceptual characteristics, and to create a sound reproduction environment in which left and right reproduction is balanced. Can be provided.

  Next, the best mode for carrying out the correction processing apparatus (hereinafter referred to as “the present apparatus”), the corresponding correction processing method and program of the present invention will be described with reference to the drawings. It should be noted that the assumptions common to the prior art already described are not restated.

[1. Overview of this embodiment]
First, the process of the present embodiment will be explained most simply. As shown in FIG. 2, when audio signals A and B different from the left and right are input from the sound source unit 1 to the correction processing unit 2 of the present embodiment, they are received. The left and right transfer characteristics according to the listener, that is, the difference between the left and right sound pressure levels, the delay difference between the left and right voice arrival times, and the difference in the sound pressure level for each frequency band are measured and stored, and this is used as the transfer characteristic control parameter α. These are reflected in the input audio signals A and B, respectively, and output from the left and right speakers as audio signals A ′ and B ′. That is, as A ′ = A + α and B ′ = B−α, the left / right output balance is adjusted by time delay adjustment, sound pressure level adjustment, and band-specific sound pressure level adjustment.

  As described above, the control parameter “α” related to the time difference, level difference, etc. of the output signals A ′ and B ′ is adjusted to A and B and adjusted relatively, but the present invention is not limited to this. First, “A ′ = A + α and B ′ = B” or “A ′ = A and B ′ = B + α”, in which either A or B is set as an absolute value and a control parameter is added to any signal so as to match the absolute value. It is also possible to define as The same applies to the following embodiments.

[2. overall structure]
First, the overall configuration of the present apparatus is shown in FIG. In FIG. 1, the sound source unit 1 outputs the same or different reproduction signals on the left and right to the correction processing unit 2. The correction processing unit 2 is a part that performs processing such as a left / right time difference, left / right sound pressure level, and the like on the left and right reproduction signals in accordance with an input from the listener. The audio output unit 3 outputs the signal processed by the correction processing unit 2 as audio, and specifically constitutes left and right speakers of headphones and earphones.

  The display unit 5 is a part for displaying information such as predetermined processing contents and menus such as time difference adjustment and sound pressure level adjustment, and is constituted by, for example, a TFT liquid crystal panel. The input unit 6 is a part that receives input of various commands and information such as time difference adjustment and sound pressure level adjustment from the listener, and is configured by a dedicated switch or a touch panel, or a pointing device such as a mouse. In some cases. As the minimum necessary input unit of the present apparatus, for example, a unit comprising three switches in total, that is, two right / left difference adjustment switches and one band changeover switch are assumed.

  The user interface unit 4 is a part that connects the display unit 5 and the input unit 6 and the correction processing unit 2 to perform signal transmission, conversion, timing control, and the like. The processing data storage unit 7 is a drive such as a hard disk, a DVD-ROM, or a CD-ROM, and plays a role of reading and storing an audio signal processed by the correction processing unit 2.

[3. Configuration and processing of correction processing unit]
The correction processing unit 2 is a main CPU that controls the entire system and its peripheral circuits, and includes means for realizing and executing the following functional actions and processes according to a program. That is, the time difference adjustment processing unit 12 accepts a listener's left / right time difference adjustment input via the input unit 6 with respect to the sound flowing from the left and right sound output units 3R, 3L, and based on this, the left / right time delay difference is calculated. It is a means for calculating.

  For example, when the listener wears headphones, when a signal having the same left and right amplitude and phase from the sound source unit 1 is reproduced from the sound output units 3R and 3L, if the left and right balance is the same, a sound image is displayed in the middle of the listener. If the left and right balance is not the same, the sound image is localized to the right or left side. Therefore, in the time difference adjustment processing unit 12, the listener detects a left / right bias through the input unit 6, and calculates this as a control parameter. Then, the control parameter calculated by the time difference adjustment processing unit 12 is added to the sound signal from the sound source unit 1 in the arithmetic processing unit 11 and further temporarily stored in the calculation result storage unit 16 via the calculation result storage unit 16. . The calculation result storage unit 16 is a work storage area for storing a program for the CPU of the correction processing unit 2 and data processed by the CPU.

  In this case, as described above, the time difference adjustment processing unit 12 reproduces the same audio signal from the left and right and adjusts whether or not the sound image is localized in the middle of the listener. There is also a technique in which white noise or pink noise is virtually reproduced alternately at a position of 90 degrees spread and a position of left spread 90 degrees, and a time difference adjustment is performed by the listener inputting a left and right time difference based on this.

  Further, the time difference adjustment processing unit 14 for each band is a means for adjusting the above processing separately for each band. When the time difference adjustment processing unit 12 calculates the time difference between the left and right, the time difference in the entire frequency band of the signal is adjusted. However, the transfer characteristics of the listener actually depend on the wearing state of the headphones and the shape of the outer ear or inner ear. The time difference is different for each of the high frequency range and the low frequency range, and the time difference between the left and right is also different for each band. Therefore, the left and right time difference is calculated for each specific frequency band, and the left and right frequency characteristic balance is adjusted.

  Specifically, the audio signal from the sound source unit 1 is reproduced for each band, and the listener inputs the right and left bias for each band through the input unit 6 in the time difference adjustment processing unit 14 for each band, and these are controlled parameters. Calculate as Then, the control parameter calculated by the time difference adjustment processing unit 14 for each band is added to the sound signal from the sound source unit 1 in the arithmetic processing unit 11 or the sound signal to which the control parameter calculated by the time difference adjustment processing unit 12 is added. Further, the result is temporarily stored in the calculation result storage unit 16 via the calculation result storage unit 16.

  The sound pressure level adjustment processing unit 13 accepts adjustment of the left / right sound pressure level difference of the listener input via the input unit 6 with respect to the left and right uncorrelated measurement noise flowing from the left and right audio output units 3R and 3L. Based on this, the sound pressure level difference between the left and right is calculated. Similar to the measurement of the time delay data, there may be a difference in the left and right signal levels due to the difference in the left and right shapes of the listener's outer ear or inner ear. In this case, the sound image is localized to the right or left. Therefore, the left and right signal levels are adjusted to adjust the signal level so that the signal can be received at a position where the sound image is localized in the middle of the listener, and the left and right sound pressure level amounts perceived by the listener are identified.

  Specifically, similar to the time difference adjustment processing unit 12 described above, the listener inputs the deviation of the left and right sound pressure levels through the input unit 6 and calculates this as a control parameter. The control parameter calculated by the sound pressure level adjustment processing unit 13 is added to the audio signal from the sound source unit 1 or the audio signal added with the control parameter calculated by the time difference adjustment processing unit 12 in the arithmetic processing unit 11. The result is temporarily stored in the operation result storage unit 16 via the operation result storage unit 16.

  The sound pressure level adjustment processing unit 15 for each band is means for adjusting the difference between the sound pressure levels on the left and right for each band. In this method, there is a method in which the measurement noise that is uncorrelated with the left and right is reproduced while being band-limited, and the sound pressure level is obtained.

  When the left and right signal levels are adjusted in the sound pressure level adjustment processing unit 13 described above, the strength of the signal is adjusted with respect to the level in all frequency bands. Depending on the wearing state and the shape of the outer ear or the inner ear, there is a difference in the way of hearing in the high range or the low range, and the way of hearing on the left and right is also different for each band. Therefore, left and right level adjustment is performed for each specific frequency band, the left and right frequency characteristic balance is adjusted, and the left and right frequency band level is identified.

  Also in this case, as described above, the listener inputs the deviation of the left and right sound pressure levels for each band through the input unit 6, and calculates these as control parameters. The control parameter calculated by the band-specific sound pressure level adjustment processing unit 15 is calculated by the arithmetic processing unit 11 by the sound signal from the sound source unit 1 or the time difference adjustment processing unit 12 and the sound pressure level adjustment processing unit 13. It is added to the audio signal to which the control parameter is added and is temporarily stored in the calculation result storage unit 16 via the calculation result storage unit 16.

[4. Effect]
The operation of the present apparatus configured as described above will be described with reference to FIG. First, when the listener receives designation of the time difference adjustment mode at the input unit 6 and an instruction to start audio output, an audio signal is output from the sound source unit 1. Then, unprocessed sound is reproduced from the sound output units 3R and 3L via the arithmetic processing unit 11. From the audio output units 3R and 3L, white noise having the same amplitude and phase in the left and right directions and the same sound pressure level is first reproduced, and then the white noise is located at the right spread 90 ° position and the left spread 90 ° position from the median line. Are played back virtually. Based on this, the listener performs left / right time difference adjustment using a left / right difference adjustment switch provided in the input unit 6.

  Specifically, when it is determined that the sound image is localized with a bias toward the left, for example, the “R” button of the left / right difference adjustment switch is designated. In response to this input, the time difference adjustment processing unit 12 performs predetermined control on the amount of time delay with respect to “A” (right) and “B” (left) which are the left and right audio signals input from the arithmetic processing unit 11. The parameter “α” is adjusted to obtain “A + α” and “B−α”. As a result, the audio signal “A” is delayed, and the audio signal “B” is advanced by this delay amount. The listener designates the left / right difference adjustment switch button a plurality of times until the listener perceives that the sound image has been localized in the middle, and each time the designation is made, the time difference adjustment processing unit 12 is relative to the audio signals “A” and “B”. Adjust the control parameters and identify the left / right delay amount.

  When the listener perceives that the sound image is localized in the middle and inputs a determination instruction, the arithmetic processing unit 11 adds or subtracts the control parameter “α” at that time to the audio signals “A” and “B”. Then, the audio signals “C” and “D” with the left-right delay difference adjusted are obtained.

  Next, when the listener selects the sound pressure level adjustment mode from the input unit 6 and receives an instruction to start sound output, uncorrelated white noise is reproduced at the same sound pressure level. While listening to the white noise, the listener adjusts the left and right levels with a left and right difference adjustment switch provided in the input unit 6 so that the left and right sound pressure levels are equal. Specifically, when the left voice is loud, the “R” button of the left / right difference adjustment switch is designated to relatively lower the left level and raise the right level. In response to this input, the sound pressure level adjustment processing unit 13 adjusts the sound pressure level with respect to “C” (right) and “D” (left) which are the left and right audio signals input from the arithmetic processing unit 11. The control parameter “β” is adjusted to obtain “C + β” and “D−β”. By adjusting the control parameter “β”, in the above example, the left sound pressure level is relatively lowered and the right sound pressure level is raised. The listener designates either the “R” or “L” button of the left / right difference adjustment switch until the left and right sound pressure levels are equal, and the sound pressure level adjustment processing unit 13 A predetermined parameter “β” is added to or subtracted from the signals “C” and “D”.

  When the listener perceives that the left and right sound pressure levels are equal and inputs a determination instruction with the balance, the arithmetic processing unit 11 sets the control parameter “β” at that time to the audio signals “C” and “C”. The audio signals “E” and “F” with the left and right sound pressure levels equalized are obtained.

  Subsequently, the time difference adjustment processing unit 14 for each band and the sound pressure level adjustment processing unit 15 for each band perform time difference adjustment and sound pressure level adjustment for each band. This is the same as the pressure level adjustment processing unit 13. However, in the band-specific adjustment process, the output signal of the sound source unit 1 is processed by a band limiting filter and reproduced. In this case, after the start instruction by the listener, the time difference adjustment or the sound pressure level adjustment is performed from the lowest frequency band. The number of frequency bands to be adjusted is arbitrary, but in the present embodiment, for example, it is assumed that the band is divided into octave bands based on 1 KHz, for example, and is divided into 9 bands from 63 Hz to 16 KHz.

  The listener listens to the white noise reproduced for each band, performs the time difference adjustment process and the sound pressure level adjustment process using the left / right difference adjustment switch provided in the input unit 6, and performs the left / right difference for each band. When it is perceived that they are equal, the band changeover switch is designated to adjust the next lower band.

  When the time difference adjustment for all the bands is completed by such processing, the time difference adjustment processing unit for each band 14 sets the control parameter γ to the left and right audio signals “E” (right) and “ “E + γ” and “F−γ” are calculated by adding or subtracting from “F” (left), and left and right audio signals “G” (right) and “H” (left) are obtained based on this. Further, when the sound pressure level adjustment for the entire region is completed based on these sound signals, the sound pressure level adjustment processing unit 15 for each band sets the control parameter ε to the left and right sound signals “G” according to the listener's determination instruction. “G + ε” and “H−ε” are calculated by adding / subtracting to “H” and “H”, and left and right audio signals “I” (right) and “J” (left) are obtained based on this.

  The control parameters “α” to “ε” obtained as a result of the time difference adjustment, the sound pressure level adjustment, the time difference adjustment for each band, and the sound pressure level adjustment for each band are stored in the process data storage unit 7. The Rukoto. By recalling the stored processing data, it is possible to process and reproduce an audio signal in a state where the left / right time difference and the left / right sound pressure level are set even when other music media is reproduced. Become.

  According to the present embodiment that operates as described above, when the listener wears the headphones, the time delay adjustment, the sound pressure level adjustment, the time difference adjustment for each band, and the sound pressure level adjustment for each band are performed. Realize optimal transmission characteristics that match the physical characteristics of the listener's individual headphones, the outer or inner ear of the listener, and the perceptual characteristics of the listener, and provide a sound reproduction environment that balances left and right reproduction it can.

  In particular, the sound signal is divided into frequency bands, and the sound pressure level or the left / right time difference can be set after grasping the physical characteristics and perceptual characteristics of the listener's left and right ears in each band.

  In addition, since the wearing state of the headphones does not vary greatly as long as the same headphones are used, the adjustment data when the headphones to be used are specified is obtained and stored in the processing data storage unit 7. When reproducing other various music media, it is possible to provide an optimal reproduction environment for the listener.

  Also, since noise with the same left and right amplitude and phase is used in the time adjustment process or the time adjustment process for each band, it is easier to perceive the left / right phase difference than when using normal music or the like as the adjustment sound, and more accurate time difference adjustment is possible. It becomes possible. Furthermore, in the sound pressure level adjustment or the band-specific sound pressure level adjustment, by using left and right uncorrelated noise, it is possible to listen to the left and right completely independent sounds, so that the difference between the left and right sound pressure levels can be easily perceived. .

  In the above-described embodiment, the sound signal correction processing is performed in the order of time difference adjustment, sound pressure level adjustment, time difference adjustment for each band, and sound pressure level adjustment for each band. However, these correction processing procedures are arbitrarily changed. In addition, it is possible to adopt a configuration in which two or more processes are performed by arbitrarily combining other adjustments with the sound pressure level adjustment for each band.

[5. Example]
Next, a specific example of the processing of the program executed in the apparatus in the above embodiment will be described with reference to the screen examples shown in FIGS.
First, when the program is started, a “File Loader” screen which is a playback file setting screen as shown in FIG. 4A is displayed. Here, when the “Open file” button is designated, a file selection screen as shown in FIG. 5 is displayed. Here, an “INOISE 60 sec.wav” file (a non-correlated white noise continuous reproduction file) is selected. If the selection is correct, the screen displays the selected file name in the “FILENEME” column, as shown in FIG.

  When the “wavPlayer” button is designated, a detailed setting screen as shown in FIG. 6 is displayed. In this screen, 61 indicates a time difference adjustment setting, 62 indicates a sound pressure level setting, 63 indicates a sound pressure level setting for each band, and 64 indicates an equalizer linked to the sound pressure level setting for each band. Is a menu window that displays

  Next, when the “Auto” button is designated on the “File Loader” screen shown in FIG. 4A, an “Auto Measurement” screen, which is a correction processing screen shown in FIG. 7A, is displayed. In this screen, the “PowerLevel” tab is a screen for adjusting the sound pressure level, and is a screen for instructing the sound pressure level adjustment processing unit 13 in the above-described embodiment. The “Frequency” tab is a screen for performing sound pressure level adjustment for each band, and is a screen for instructing the sound pressure level adjustment processing unit for each band 15 in the above embodiment. The “Time delay” tab is a screen for performing time difference adjustment, and is a screen for instructing the time difference adjustment processing unit 12 in the above-described embodiment to perform processing.

  Note that the program shown in the present example does not provide an adjustment function corresponding to the time difference adjustment processing unit 14 for each band in the above embodiment. Each adjustment screen is provided with a “<==” button or a “==>” button left / right difference adjustment button 71 and an “(O)” button 72 for determining an adjustment value for each adjustment function. Is provided. By this determination button, the adjustment value (control parameter) grasped by each function is temporarily stored in the calculation result storage unit 16 in the above embodiment.

  In this screen, in addition to the above buttons for signal reproduction (PLAY) and stop (STOP), parameters for storing (SAVE) and reading (LOAD) parameters in the processing data storage unit 7, and signal processing switches (EQ on and EQ) off) buttons are provided.

  Here, first, the “Power Level” tab is selected to adjust the sound pressure level. In this program, the “PowerLevel” tab may be selected in advance at the start-up without requiring the listener to select the “Auto Measurement” screen.

  First, the listener presses the “PLAY” button. As described above, since the “INOISE60sec.wav” file is selected on the “File Loader” screen in FIG. 4A, uncorrelated noise is reproduced from the audio output units 3R and 3L. While listening to the reproduced sound, the listener designates either the left / right difference adjustment button 71R or 71L and adjusts the sound pressure level so that the left and right sound pressure levels are equal. For example, when it is perceived that the sound heard by the right ear is larger than the left ear, the output level from the sound output unit L is relatively increased and the output level from the sound output unit R is relatively decreased by designating the button 71L. be able to.

  Further, at this time, the sound pressure level setting 62 bar on the detailed setting screen shown in FIG. 6 moves up and down in accordance with how the right / left difference adjustment button 71 is specified. It is possible to visually check whether the adjustment is made with the bias.

  As a result of the adjustment of the left and right sound pressure levels, when the listener perceives that the left and right levels are equal, the decision button 72 is designated. Then, the sound pressure level adjustment processing unit 13 adds or subtracts the control parameter related to the left / right level difference to the left / right audio signals output from the sound source unit 1, and the result is stored in the calculation result storage unit 16.

  When the sound pressure level adjustment is completed, the “Frequency” tab is then selected to adjust the sound pressure level for each band. This setting screen is shown in FIG. This setting screen is provided with a “CHANGE BAND” button as a band changeover switch 73 for changing the frequency band to be adjusted. The listener uses the left / right difference adjustment button 71 and the band changeover switch 73 to adjust the sound pressure level for each band.

  More specifically, when the listener designates the “PLAY” button on the “Auto Measurement” screen (see FIG. 7B), uncorrelated noise is reproduced from the audio output units 3R and 3L as described above. While listening to this sound, the listener adjusts the left and right sound pressure levels for each band. In this program, the set frequency is divided into 9 bands from 63 Hz to 16 KHz centering on 1 KHz. It is set so that the lowest frequency of 63 Hz can be adjusted at startup. Then, the left and right sound pressure levels for each frequency band are adjusted by the left / right difference adjustment button 71 in the same manner as the sound pressure level adjustment described above, and when the adjustment of one band is completed, the band changeover switch 73 is designated. To move to the next higher band and adjust the band.

  Further, at this time, the adjustment status by the left / right difference adjustment button 71 is displayed on the detailed setting screen 63 shown in FIG. 6A for each band in the sound pressure level settings 63L and 63R for each band. It is possible to visually recognize whether the band is adjusted or how much the left / right difference is generated (FIG. 6B). In addition, the bar indicating the maximum level of the equalizer 64 changes in conjunction with the adjustment of the sound pressure level for each band, so that it is possible to visually recognize which band the listener is adjusting.

  The above operation is repeated to adjust the sound pressure level in all frequency bands, and when completed, the enter button 72 is designated. Then, the control parameter related to the difference between the left and right levels is added to or subtracted from the left and right audio signals output from the sound source unit 1 in the band-specific sound pressure level adjustment processing unit 15, and the result is stored in the calculation result storage unit 16.

  When the sound pressure level adjustment for each band is completed, the “Time Delay” tab is then selected to adjust the time difference. This setting screen is shown in FIG. In this setting screen, the left / right difference adjustment button 71 is used to adjust the left / right localization balance of the reproduced sound. Since the time difference adjustment is performed by reproducing white noise in the left and right in-phase, first, the “Open file” button is designated on the “File Loader” screen shown in FIG. 4A, and the “File selection” screen shown in FIG. Select the “CHKCT2LR2CT2h.wav” file. This file first reproduces the monaural noise from the center, then localized it by virtual reproduction 90 degrees to the left of the midline, and then localized it by virtual reproduction 90 degrees to the right several times each. It is configured to reproduce, and finally reproduce the monaural noise from the center again.

  The listener adjusts the time difference adjustment between the left and right by specifying either the left / right difference adjustment buttons 71R or 71L, and adjusts the localization position of the center noise signal and the localization positions of the left and right noises. Further, since this adjusted information is displayed as the number of delay taps “L” or “R” in the time delay setting 61 of the detailed setting screen shown in FIG. 6, the listener visually recognizes the adjustment amount based on this. be able to.

  When the left / right time difference adjustment is completed in this way, the listener designates the decision button 72. Then, in the time difference adjustment processing unit 12, the control parameter related to the left and right time difference is added to or subtracted from the left and right audio signals output from the sound source unit 1, and the result is stored in the calculation result storage unit 16.

  When the sound pressure level adjustment, the band-specific sound pressure level adjustment, and the time difference adjustment are completed as described above, if the “SAVE” button is designated on the “Auto measurement” screen shown in FIG. A screen is displayed. Here, the listener inputs the save instruction with the desired file name, and the settings are stored in the processing data storage unit 7.

It is a block diagram which shows the whole structure of the apparatus in embodiment of this invention. It is a conceptual diagram which shows the outline | summary of the process in embodiment of this invention. It is a block diagram which shows the process of the apparatus in embodiment of this invention. It is an example of the screen in the specific Example of this invention. It is an example of the screen in the specific Example of this invention. It is an example of the screen in the specific Example of this invention. It is an example of the screen in the specific Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Sound source part 2 ... Correction process part 3, 3R, 3L ... Audio | voice output part 4 ... User interface part 5 ... Display part 6 ... Input part 7 ... Process data storage part 11 ... Arithmetic process part 12 ... Time difference adjustment process part 13 ... Sound pressure level adjustment processing unit 14 ... Time difference adjustment processing unit 15 for each band ... Sound pressure level adjustment processing unit 16 for each band ... Calculation result processing unit 61 ... Time delay setting 62 ... Sound pressure level setting 63 ... Sound pressure level setting 64 for each band ... Equalizers 71, 71R, 71L ... Left / right difference adjustment button 72 ... Determination button 73 ... Bandwidth switch

Claims (24)

A reproduction balance adjustment method that realizes a right / left reproduction balance corresponding to the listening position of the listener's headphones, physical characteristics or perceptual characteristics of the outer and inner ears by performing predetermined processing on the audio signal output from the sound source unit. There,
Processing to output audio signals for left / right playback balance adjustment;
A band for detecting the left and right sound pressure level difference for each band corresponding to the listener as a parameter based on the audio signal for adjustment and a correction instruction for the left and right sound pressure level difference for each band of the sound signal in the listener A reproduction balance adjustment method, wherein the computer executes a separate sound pressure level adjustment process.   2. The reproduction balance adjustment method according to claim 1, wherein left and right uncorrelated noise is used as the audio signal for adjustment.   2. A time difference adjustment process for detecting, as a parameter, a left / right time difference corresponding to a listener based on the audio signal for adjustment and an instruction to correct the left / right time difference of the sound signal in the listener. Or the reproduction balance adjustment method of 2.   4. The reproduction balance adjusting method according to claim 3, wherein noise having the same amplitude and phase is used as the audio signal for adjustment.   Including a sound pressure level adjustment process for detecting a left and right sound pressure level difference corresponding to the listener as a parameter based on the adjustment sound signal and an instruction to correct the left and right sound pressure level difference of the sound signal in the listener. 5. The reproduction balance adjustment method according to claim 1, wherein the reproduction balance is adjusted.   6. The reproduction balance adjustment method according to claim 5, wherein left and right uncorrelated noise is used as the audio signal for adjustment.   Including a time difference adjustment process for each band based on the audio signal for adjustment and a left / right time difference for each band corresponding to the listener based on an instruction to correct the left / right time difference for each band of the audio signal by the listener. The reproduction balance adjustment method according to any one of claims 1 to 6, characterized in that:   8. The reproduction balance adjustment method according to claim 7, wherein noise having the same amplitude and phase is used as the audio signal for adjustment. By controlling the computer and performing predetermined processing on the audio signal output from the sound source unit, the right / left reproduction balance corresponding to the listening position of the listener's headphones, the physical characteristics or the perceptual characteristics of the outer and inner ears is achieved. A reproduction balance adjustment program to be realized,
Output audio signal for left / right playback balance adjustment,
Based on the audio signal for adjustment and a correction instruction for the difference in the left and right sound pressure levels for each band of the sound signal in the listener, the difference in the left and right sound pressure levels for each band corresponding to the listener is detected as a parameter. Play balance adjustment program characterized by.   The reproduction balance adjustment program according to claim 9, wherein left and right uncorrelated noise is used as the audio signal for adjustment.   11. The reproduction according to claim 9, wherein a left-right time difference corresponding to the listener is detected as a parameter based on the adjustment audio signal and an instruction to correct the left-right time difference of the audio signal by the listener. Balance adjustment program.   12. The reproduction balance adjustment program according to claim 11, wherein noise having the same amplitude and phase is used as the audio signal for adjustment.   The left and right sound pressure level difference corresponding to the listener is detected as a parameter based on the adjustment sound signal and a correction instruction for the left and right sound pressure level difference of the sound signal in the listener. The left-right balance adjustment program according to any one of 9 to 12. ,   14. The reproduction balance adjustment program according to claim 13, wherein left and right uncorrelated noise is used as the audio signal for adjustment.   The left and right time difference for each band corresponding to the listener is detected as a parameter based on the audio signal for adjustment and a correction instruction for the left and right time difference for each band of the sound signal in the listener. The reproduction balance adjustment program according to any one of 9 to 14.   16. The reproduction balance adjustment program according to claim 15, wherein noises having the same amplitude and phase are used as the audio signal for adjustment. Each processing unit performs a plurality of processing on the audio signal output from the sound source unit, and the processing of this processing unit allows left and right corresponding to the listening position of the listener's headphones, physical characteristics or perceptual characteristics of the outer and inner ears. A reproduction balance adjusting device for realizing reproduction balance,
A sound source unit that outputs audio signals for left / right playback balance adjustment,
A band for detecting the left and right sound pressure level difference for each band corresponding to the listener as a parameter based on the audio signal for adjustment and a correction instruction for the left and right sound pressure level difference for each band of the sound signal in the listener And a separate sound pressure level adjustment unit. The sound source unit outputs left and right uncorrelated noise as the audio signal for adjustment,
18. The reproduction balance adjusting device according to claim 17, wherein the band-specific sound pressure level adjusting unit uses the left and right uncorrelated noise.   18. A time difference adjustment unit that detects a left-right time difference corresponding to a listener as a parameter based on the adjustment audio signal and a correction instruction for a left-right time difference of the audio signal in the listener. Or 18 playback balance adjusting device. The sound source unit outputs noise with the same amplitude and phase on the left and right as the audio signal for adjustment,
20. The reproduction balance adjusting apparatus according to claim 19, wherein the time difference adjustment unit performs processing based on the noise having the same amplitude and phase of the left and right.   A sound pressure level adjustment unit configured to detect, as a parameter, a difference between left and right sound pressure levels corresponding to the listener based on the sound signal for adjustment and an instruction to correct the sound signal left and right sound pressure levels in the listener; The reproduction balance adjusting device according to any one of claims 17 to 20. The sound source unit outputs left and right uncorrelated noise as the audio signal for adjustment,
The reproduction balance adjustment apparatus according to claim 21, wherein the sound pressure level adjustment unit uses the left and right uncorrelated noise.   Based on the audio signal for adjustment and an instruction to correct the left / right time difference for each band of the sound signal in the listener, a time difference adjustment unit for each band that detects the left / right time difference for each band corresponding to the listener as a parameter is provided. The reproduction balance adjusting device according to any one of claims 17 to 22, wherein The sound source unit outputs noise with the same amplitude and phase on the left and right as the audio signal for adjustment,
24. The reproduction balance adjusting apparatus according to claim 23, wherein the time difference adjusting unit for each band uses noise having the same amplitude and phase on the left and right.