JP2007158873A - Voice correcting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To eliminate the need for setting a hearing test and an equalizing characteristics, even when lines are turned into voices that are easy to hear. <P>SOLUTION: A spectrum detecting means 5 detects a difference between the signal level of a left channel voice signal and the signal level of a right channel voice signal about each of a plurality of frequency bands, and an equalizing means 2 makes the amplification factor of a frequency band, in which the detected difference is small increase, and makes the amplification factor of a frequency band in which a detected difference is large decrease. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a sound correction apparatus provided with equalization means in a sound signal path, and more specifically, by changing equalization characteristics in accordance with the spectrum of the sound signal, it is easy for a user with reduced hearing to hear the speech. The present invention relates to a sound correction device.

  When an elderly user is watching a TV drama or playing a DVD movie, the volume may be surprisingly high. This is because in dramas and movies, music is often played in the background of dialogue, and it is difficult to hear dialogue that is indispensable for enjoying dramas and movies because of the effect of hearing loss. . As described above, when the user's hearing is reduced, the volume is often increased. However, such an increase in volume may be perceived as noise by those around you, so a technique has been proposed that can mitigate the increase in volume even when making it easy to hear the dialogue.

  That is, in this technique (first conventional technique), the audio recorded on the disc is divided into priority signals (mainly including speech) and residual audio (mainly including background sounds and music). The equalizer is provided in the path of each signal on the playback device side. Also, the equalizer characteristics can be set by the user. Therefore, the characteristic of the equalizer provided in the priority signal path is set so as to increase the level of the frequency band (about 2 KHz) that increases the intelligibility of the dialogue, and the equalizer provided in the remaining audio path is set. It is disclosed that if the characteristic is set so as to lower the level of the frequency band around 2 KHz, the ease of listening to the dialogue can be improved (for example, see Patent Document 1).

Further, the following technique has been proposed (referred to as a second conventional technique). That is, in this technique, a filter that divides the band of the audio signal into a plurality of bands is provided. A gain variable amplifier is provided for each band. In addition, a means for detecting the user's hearing in each band is provided. Based on the detection result of the user's hearing, the gain of the variable gain amplifier in the band where the hearing is reduced is increased. For this reason, it is disclosed that when the user whose hearing characteristics are deteriorated is away from the playback speaker, the clarity of the voice can be increased without increasing the overall volume (for example, Patent Document 2).
JP 2003-524906 A (paragraph 0095-0098, FIG. 10) JP-A-11-103226

  However, when the first prior art is used, the following problems have occurred. That is, the setting of the frequency characteristics of the equalizer provided in the path of the priority signal (mainly including the dialogue) is performed by the user. On the other hand, the problem that dialogue is difficult to hear mainly occurs in the case of an elderly user. Accordingly, setting of the equalizer is extremely difficult for the user, so that the setting is rarely optimized, and the equalizer is used in a state of being deviated from the optimum characteristics. In other words, the dialogue is difficult to hear, which often leads to an increase in volume.

  The second prior art needs to detect hearing characteristics using means for detecting hearing in each of the bands. However, since this operation is a troublesome operation for an elderly user, the detection of the hearing characteristic is not performed, or the detection accuracy of the hearing characteristic is likely to be poor. Become a thing. As a result, the gain setting of the variable gain amplifier often becomes a setting that does not correspond to the hearing characteristic, and it becomes difficult to hear the dialogue, which leads to an increase in volume.

  The present invention was devised to solve the above problems, and its purpose is to eliminate the need for setting equalization characteristics and hearing test even when speech is easy to hear. , An audio correction device capable of suppressing the performance required for hardware (digital signal processor) for spectrum detection and equalization to a low level and more easily generating dialogue. Is to provide.

  Another object of the present invention is to change the equalization characteristic of the equalization means provided in the path of the audio signal according to the difference in spectrum between the left and right audio signals, so that the speech can be easily heard. An object of the present invention is to provide an audio correction device that can eliminate the need for setting and hearing test.

  In addition to the above purpose, by limiting all frequency bands subject to spectrum detection to frequency bands containing the main spectrum components of human voice, the number of bands subject to spectrum detection can be reduced. Another object of the present invention is to provide an audio correction apparatus capable of suppressing the performance required for hardware (digital signal processor) that performs spectrum detection and equalization to a low level.

  In order to solve the above-described problem, an audio correction device according to the present invention, for an audio signal, spectrum detection means for detecting a signal level in each of a plurality of frequency bands, and an amplification factor in each of the plurality of frequency bands, The present invention is applied to a sound correction apparatus having equalizing means for setting a value corresponding to the detection result of the spectrum detecting means. All of the plurality of frequency bands are provided in a frequency band including a main spectrum component of a human voice, and the spectrum detecting means is configured to detect the signal level of the left channel audio signal and the right channel for each of the plurality of frequency bands. The difference between the signal level of the audio signal is detected, the equalizing means increases the amplification factor of the frequency band in which the detected difference is small, decreases the amplification factor of the frequency band in which the detected difference is large, and the plurality The frequency characteristics when the amplification factor in each of the frequency bands is not increased or decreased are characteristics having a large amplification factor in the frequency band in which the decrease in hearing due to aging is small.

  That is, in many cases, the speech is localized in the middle of the left and right. Therefore, for the dialogue, the spectrum component of the left audio signal and the spectrum component of the right audio signal are the same. On the other hand, for the background sound, there is a difference between the spectrum component of the left audio signal and the spectrum component of the right audio signal. Therefore, when the difference between the signal level of the left audio signal and the signal level of the right audio signal in a certain frequency band is very small, it is highly probable that the sound in that frequency band is a voice indicating speech. Moreover, when the difference becomes large, the probability that the sound in that frequency band is a background sound is very high. Therefore, when increasing the amplification factor in the frequency band with a small difference and decreasing the amplification factor in the frequency band with a large difference, the amplification factor in the dialogue frequency band becomes high and the amplification factor in the frequency band of the background sound becomes low. . That is, the volume of dialogue increases and the volume of background sound decreases. Further, the frequency band in which the main spectrum component of the human voice is included is narrower than the band of the audio signal. Therefore, even when each frequency band that is a spectrum detection target is, for example, one octave band, the number of spectrum detection targets can be reduced. Moreover, even when there is a decrease in hearing due to aging, only sound in a frequency band that is easy to hear is output.

  Further, the audio correction device according to the present invention provides a spectrum detection means for detecting a signal level in each of a plurality of frequency bands and an amplification factor in each of the plurality of frequency bands as a detection result of the spectrum detection means. The present invention is applied to a sound correction apparatus having equalizing means for setting a corresponding value. Then, the spectrum detecting means detects the difference between the signal level of the left channel audio signal and the signal level of the right channel audio signal for each of the plurality of frequency bands, and the equalizing means is for the frequency band in which the detected difference is small. The amplification factor is increased, and the amplification factor in the frequency band where the detected difference is large is reduced.

  That is, in many cases, the speech is localized in the middle of the left and right. Therefore, for the dialogue, the spectrum component of the left audio signal and the spectrum component of the right audio signal are the same. On the other hand, for the background sound, there is a difference between the spectrum component of the left audio signal and the spectrum component of the right audio signal. Therefore, when the difference between the signal level of the left audio signal and the signal level of the right audio signal in a certain frequency band is very small, it is highly probable that the sound in that frequency band is a voice indicating speech. Moreover, when the difference becomes large, the probability that the sound in that frequency band is a background sound is very high. Accordingly, when increasing the amplification factor of the frequency band with the small difference and decreasing the amplification factor of the frequency band with the large difference, the amplification factor of the frequency band of the dialogue becomes high and the amplification factor of the frequency band of the background sound becomes high. Lower. That is, the volume of dialogue increases and the volume of background sound decreases.

  Further, in addition to the above configuration, all of the plurality of frequency bands are provided in a frequency band in which main spectrum components of human voice are included. That is, the frequency band including the main spectrum component of the human voice is narrower than the band of the audio signal. Therefore, even when each frequency band that is a spectrum detection target is, for example, one octave band, the number of spectrum detection targets can be reduced.

  According to the present invention, when the difference between the signal level of the left audio signal and the signal level of the right audio signal in a certain frequency band is very small, it is assumed that the sound in that frequency band has a very high probability of being speech indicating speech. The amplification factor is increased. Further, when the difference becomes large, it is assumed that the sound of the frequency band is a background sound, and the amplification factor is decreased. Therefore, the amplification factor of the line frequency band is increased, the amplification factor of the frequency band of the background sound is decreased, the volume of the dialogue is increased, and the volume of the background sound is decreased. Further, even when each frequency band that is a spectrum detection target is, for example, one octave band, the number of spectrum detection target bands can be reduced. Moreover, even when there is a decrease in hearing due to aging, only sound in a frequency band that is easy to hear is output. For this reason, when making speech easy to hear, it is possible to eliminate the need to set equalization characteristics and a hearing test, and the performance required for hardware (digital signal processor) that performs spectrum detection and equalization. Can be suppressed to a low level, and the ease of listening to the dialogue can be more suitably generated.

  Further, according to the present invention, when the difference between the signal level of the left audio signal and the signal level of the right audio signal in a certain frequency band is very small, it is highly probable that the sound in that frequency band is a voice indicating speech. As a result, the amplification factor is increased. Further, when the difference becomes large, it is assumed that the sound of the frequency band is a background sound, and the amplification factor is decreased. Therefore, the amplification factor of the line frequency band is increased, the amplification factor of the frequency band of the background sound is decreased, the volume of the dialogue is increased, and the volume of the background sound is decreased. For this reason, even when the speech is easy to hear, it is possible to eliminate the need for setting equalization characteristics and a hearing test.

  Furthermore, even when each frequency band to be detected by the spectrum is set to one octave band, for example, the number of bands to be detected by the spectrum can be reduced, so that the spectrum is detected and equalized. The performance required for hardware (digital signal processor) can be suppressed to a low level.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing an electrical configuration of a DVD player provided with an embodiment of a sound correction apparatus according to the present invention.

  In the figure, the disc reproducing means 1 is a block for reproducing the video / audio information recorded on the DVD 18, and outputs the analog video signal 22 obtained by the reproduction to the television receiver 15. Further, the left audio signal (digital audio signal) 21L obtained by reproduction is output to the equalizer 3L, the b contact of the switch 4L and the spectrum detecting means 5, and the right audio signal (digital audio signal) obtained by reproduction is output. 21R is output to the equalizer 3R, the b contact of the switch 4R, and the spectrum detecting means 5.

  The spectrum detection means 5 detects the signal level in each of a plurality of frequency bands for the audio signal. Note that all of the plurality of frequency bands are provided in a frequency band in which main spectrum components of a human voice are included.

  That is, the spectrum detection means 5 has a frequency band of about 350 Hz, 700 Hz, 1.4 KHz, and 2.8 KHz for each of the left audio signal 21L and the right audio signal 21R (250 Hz to 500 Hz, 500 Hz to 1 KHz, 1 KHz to 2KHz and 2KHz to 4KHz signal levels are detected. Then, a difference between the signal level of the left audio signal 21L and the signal level of the right audio signal 21R is detected for each frequency band. Next, a predetermined calculation (described in detail later) is performed on the detected difference, and a value obtained by the calculation (a detection result described in claims) is sent to the equalizers 3L and 3R.

  The equalizing means 2 determines the amplification factor of the left audio signal 21L and the amplification factor of the right audio signal 21R in each of a plurality of frequency bands (frequency bands in which the signal level is detected by the spectrum detection means 5). Set to a value corresponding to the detection result. For this reason, an equalizer 3L for the left audio signal 21L and an equalizer 3R for the right audio signal 21R are provided.

  Specifically, the equalizer 3L sets the amplification factor of the frequency band with a small detected difference for each amplification factor of the frequency band having 350 Hz, 700 Hz, 1.4 KHz, and 2.8 KHz as the center frequency in the left audio signal 21L. Increase and decrease the amplification factor in the frequency band where the detected difference is large (detailed later). Further, the equalizer 3R increases the amplification factor of the frequency band in which the detected difference is small with respect to each amplification factor of the frequency band having the center frequency of 350 Hz, 700 Hz, 1.4 KHz, and 2.8 KHz in the right audio signal 21R. The amplification factor in the frequency band where the detected difference is large is reduced (detailed later).

  In addition, the basic frequency characteristics of the equalizers 3L and 3R (frequency characteristics when the amplification factor in each of the plurality of frequency bands is not increased or decreased) have a large amplification factor in the frequency band in which the decrease in hearing due to aging is small. Band pass characteristics. This bandpass characteristic is a characteristic based on general data on hearing loss due to aging. As shown in FIG. 2A, the center frequency is about 1.2 KHz and the frequency is about 300 Hz. The amplification factor decreases rapidly toward 100 Hz, and the amplification factor decreases rapidly from 3 KHz to 10 KHz.

  The switch 4L switches between the left audio signal 21L input to the equalizer 3L and the left audio signal output from the equalizer 3L, and outputs the signal to the D / A converter 6L. The switch 4R switches between the right audio signal 21R input to the equalizer 3R and the right audio signal output from the equalizer 3R, and outputs the signal to the D / A converter 6R. The D / A converter 6L converts the left audio signal output from the switch 4L into an analog audio signal and outputs the analog audio signal to the television receiver 15. The D / A converter 6R converts the right audio signal output from the switch 4R into an analog audio signal and outputs the analog audio signal to the television receiver 15.

  The equalizers 3L and 3R, the switches 4L and 4R, and the spectrum detection means 5 described above are configured by a digital signal processor 7. Therefore, the equalization characteristics of the equalizers 3L and 3R change in real time according to the spectrum of the input left audio signal 21L and right audio signal 21R.

  The input circuit unit 9 includes a key switch such as a power key provided on a front panel (not shown) of the apparatus main body, a light receiving unit that receives an infrared signal transmitted from the remote controller 10, and the like. An instruction is entered. Then, the input instruction is output to the main control means 8.

  The main control means 8 is constituted by a microcomputer as a main part, and controls main operations as a DVD player. That is, for example, when a playback instruction is input to the remote controller 10 or the like, the video playback information recorded on the DVD 18 is played back and displayed on the television receiver 15 by causing the disc playback means 1 to perform a playback operation.

  In addition, the correction mode is a correction mode that is a mode that makes it easy for elderly people to hear the speech by correcting the frequency characteristic of the audio signal output to the television receiver 15, and a normal mode that does not correct the frequency characteristic. Then, the respective c contacts of the switches 4L and 4R are connected to the a contact. In the normal mode, the respective c contacts of the switches 4L and 4R are connected to the b contact.

  Note that switching between the correction mode and the normal mode is provided as a setting item in the initial setting, and the remote controller 10 is used to instruct which mode is used.

The following is a supplementary explanation. The increase / decrease value K indicating the amount when the amplification factor of each of the plurality of frequency bands is increased or decreased is set such that the signal level of the left audio signal 21L is SL and the signal level of the right audio signal 21R in each frequency band Is SR, and the difference between SL and SR (the absolute value of the difference) is D,
K = N × (MD) × (SL + SR)
It is the value shown as. However, the value N is a coefficient for setting the rate of change of the amplification factor. The value M is a constant indicating the difference when the amplification factor is not increased or decreased. Therefore, when the difference is smaller than the value M, the amplification factor increases, and when the difference is larger than the value M, the amplification factor decreases.

  In the above calculation formula (hereinafter referred to as the first formula), a value (N− (M−D)) is added to the signal level of the left audio signal 21L and the signal level of the right audio signal 21R ( The reason for multiplying (SL + SR) is when both the signal level of the left audio signal 21L and the signal level of the right audio signal 21R are very small (for example, approximate to silence or silence) when the addition value is not multiplied. This is to prevent this unnecessary increase because the difference in all of the plurality of frequency bands becomes small and an unnecessary increase occurs in all the amplification factors of the plurality of frequency bands. .

  Further, the difference in the nature of the dialogue part and the background sound in the left and right two-channel audio signals will be described. In many cases, the speech is localized at the center of the left and right. Therefore, for the line portion, the spectrum component of the left audio signal 21L and the spectrum component of the right audio signal 21R are the same.

  On the other hand, as for the background sound, for example, when the car runs from the left to the right of the screen, the signal level in the left audio signal 21L changes from the strong signal level in the left audio signal 21L to the strong signal level in the right audio signal 21R. When music is the background sound, a certain instrument (eg, drum) has a strong signal level in the left audio signal 21L, and another instrument (eg, trumpet) has a strong signal level in the right audio signal 21R. is there. That is, in the case of the background sound, a relatively large difference occurs between the spectrum component of the left audio signal 21L and the spectrum component of the right audio signal 21R.

  As described above, when the signal level of the left audio signal 21L and the signal level of the right audio signal 21R in a certain frequency band are close to each other, it is highly probable that the sound in that frequency band is a voice indicating speech. Means that. Further, when the difference between the signal level of the left audio signal 21L and the signal level of the right audio signal 21R in a certain frequency band becomes large, the sound in that frequency band has a very high probability of being a background sound, not a dialogue. Means.

  Therefore, when increasing the amplification factor in the frequency band where the difference between the signal level of the left audio signal 21L and the signal level of the right audio signal 21R is small and decreasing the amplification factor in the frequency band where the difference is large, the frequency band of the dialogue Becomes higher, and the gain of the background sound frequency band becomes lower. For this reason, the volume of the dialogue is increased and the volume of the background sound is reduced. Therefore, the ease of listening to the dialogue is increased without increasing the overall volume.

  2 and 3 are explanatory diagrams showing the relationship between the spectrum of the audio signal and the equalization characteristics. The operation of the embodiment will be described with reference to FIG. In the following description, the frequency band centered on 350 Hz is the band A, the frequency band centered on 700 Hz is the band B, the frequency band centered on 1.4 KHz is the band C, and the frequency centered on 2.8 KHz. The band is referred to as band D.

  Assume that the correction mode is set. At this time, the main control means 8 connects the respective c contacts of the switches 4L and 4R to the a contact. Accordingly, the left audio signal 21L is guided to the D / A converter 6L via the equalizer 3L, and the right audio signal 21R is guided to the D / A converter 6R via the equalizer 3R. Further, the spectrum detection means 5 detects the difference between the signal level of the left audio signal 21L and the signal level of the right audio signal 21R for each of the four bands A to D. Then, an increase / decrease value K obtained by applying the detected difference to the first equation is output to the equalizers 3L and 3R. The equalizers 3L and 3R increase or decrease the amplification factors of the bands A to D based on the increase / decrease value K.

  FIG. 2B shows a spectrum 211L of the left audio signal 21L and a spectrum 211R of the right audio signal 21R at a certain time when a drama recorded on the DVD 18 is being reproduced. At this time, the difference in the band A is small and the difference in the band C and the band D is large. In such a case, the sound of the band A is a voice indicating a line, and the sounds of the band C and the band D can be regarded as background sounds.

  Therefore, the equalization characteristics of the equalizers 3L and 3R are set so as to increase the amplification factor of the band A and decrease the amplification factors of the band C and the band D, as indicated by 311 in FIG. The That is, the signal level in the frequency band including the line spectrum component is set to be large, and the signal level in the frequency band including the spectrum component of the background sound is set to be small. As a result, the volume of the dialogue is increased and the volume of the background sound is reduced and output from the television receiver 15. Therefore, the speech is easy to hear without increasing the overall volume.

  3A shows the spectrum 212L of the left audio signal 21L and the spectrum 212R of the right audio signal 21R at different times when a drama recorded on the DVD 18 is being reproduced. At this time, the difference between the band B and the band C is small, and the difference between the band A and the band D is large. In such a case, the sounds in the band B and the band C are voices indicating lines, and the sounds in the band A and the band D can be regarded as background sounds.

  For this reason, the equalization characteristics of the equalizers 3L and 3R increase the amplification factor of the band B and the band C and decrease the amplification factor of the band A and the band D, as indicated by 312 in FIG. Is set as follows. In other words, the signal level of the frequency band including the spectrum component of the dialogue is increased, and the level of the frequency band including the spectrum component of the background sound is decreased. As a result, the volume of the dialogue is increased and the volume of the background sound is reduced and output from the television receiver 15. Therefore, the speech is easy to hear without increasing the overall volume.

  As described above, the equalization characteristics of the equalizers 3L and 3R are such that, according to the detection result of the spectrum detecting means 5, the amplification factor of the frequency band including the dialogue is increased and the amplification factor of the frequency band including the background sound is decreased. To change. Also, only the sound in the frequency band that is less affected by hearing loss caused by aging is amplified. Therefore, even when the user is aged and the hearing ability is reduced, the speech can be clearly heard at a relatively small volume. In other words, the drama can be fully enjoyed even at times when it is difficult to increase the volume, such as late at night or early morning.

  Note that the characteristic curve indicated by the broken line in FIG. 2C and the characteristic curve indicated by the broken line in FIG. 3B are the same as the characteristic curve shown in FIG. This shows the frequency characteristics when the gain is not increased or decreased. For this reason, when the signal levels of both the left audio signal 21L and the right audio signal 21R are close to 0, the increase / decrease value K is close to 0 according to the first equation. Therefore, the characteristics of the equalizers 3L and 3R at this time Corresponds to the characteristic indicated by the broken line.

  This is the end of the description of the operation when the correction mode is set, and the operation when the normal mode is set is described below.

  When the normal mode is set, the main control means 8 connects the c contacts of the switches 4L and 4R to the b contacts. Accordingly, the left audio signal 21L is guided to the D / A converter 6L without going through the equalizer 3L. Similarly, the right audio signal 21R is guided to the D / A converter 6R without going through the equalizer 3R. That is, the audio signal output from the disc reproducing means 1 is guided to the television receiver 15 through a path having a flat frequency characteristic.

  Note that the present invention is not limited to the above-described embodiment, and for example, a case has been described where a plurality of frequency bands are four frequency bands. However, the number of other frequency bands (for example, three frequency bands, or 5 Frequency bands, etc.).

  Further, each of the plurality of frequency bands can be set to any other frequency band as long as the frequency range includes the main spectrum component of the human voice.

  Further, although the case where the present invention is applied to a DVD player has been described, other devices that handle video signals and audio signals (other optical disk playback devices, HDD recording / playback devices, video cassette recorders, television receivers, etc.) ), The same can be applied.

  As for the calculation formula for obtaining the increase / decrease value K from the detected difference, other calculation formulas may be used as long as a result of increasing the amplification factor when the difference is small and decreasing the amplification factor when the difference is large can be obtained. it can.

It is a block diagram which shows the electric constitution of the DVD player to which one Embodiment of the audio | voice correction apparatus which concerns on this invention is applied. It is explanatory drawing which shows the relationship between the spectrum of an audio | voice signal, and an equalization characteristic. It is explanatory drawing which shows the relationship between the spectrum of an audio | voice signal, and an equalization characteristic.

Explanation of symbols

2 Equalizing means 5 Spectrum detecting means 7 Digital signal processor 21L Left audio signal 21R Right audio signal 211L Left audio signal 211R Right audio signal 212L Left audio signal 212R Right audio signal

Claims (3)

For audio signals, spectrum detecting means for detecting signal levels in each of a plurality of frequency bands,
In an audio correction apparatus comprising equalization means for setting the amplification factor in each of the plurality of frequency bands to a value corresponding to the detection result of the spectrum detection means,
All of the plurality of frequency bands are provided in a frequency band including a main spectrum component of a human voice,
The spectrum detection means detects the difference between the signal level of the left channel audio signal and the signal level of the right channel audio signal for each of the plurality of frequency bands,
The equalizing means increases the amplification factor in the frequency band where the detected difference is small, decreases the amplification factor in the frequency band where the detected difference is large, and increases or decreases the amplification factor in each of the plurality of frequency bands. A sound correction apparatus characterized in that frequency characteristics when not being used are characteristics with a large amplification factor in a frequency band in which a decrease in hearing due to aging is small. For audio signals, spectrum detecting means for detecting signal levels in each of a plurality of frequency bands,
In an audio correction apparatus comprising equalization means for setting the amplification factor in each of the plurality of frequency bands to a value corresponding to the detection result of the spectrum detection means,
The spectrum detection means detects the difference between the signal level of the left channel audio signal and the signal level of the right channel audio signal for each of the plurality of frequency bands,
The equalizing means increases the amplification factor in the frequency band where the detected difference is small, and decreases the amplification factor in the frequency band where the detected difference is large.   The audio correction apparatus according to claim 2, wherein all of the plurality of frequency bands are provided in a frequency band including a main spectrum component of a human voice.

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