JP6587401B2 - Sound quality adjusting device and sound quality adjusting method - Google Patents

Description

  The present invention relates to a sound quality adjusting device, a sound quality adjusting method, a sound quality adjusting program, and a recording medium on which the sound quality adjusting program is recorded.

  Conventionally, audio apparatuses that reproduce music content have been widely used. With the widespread use of acoustic devices, users in various countries and regions operate the acoustic device to listen to music in various countries and regions. In such a popular acoustic device, a sound engineer or user having advanced technology related to sound adjustment processing is required to reproduce and output music in a sound processing mode suitable for attributes such as a user's nationality and country or region of residence. May be necessary.

  For example, when a vehicle with an acoustic device is shipped, a sound engineer uses a Western musical composition as a reference before shipping, and adjusts the sound quality adjustment settings of the reproduced musical sound according to the vehicle interior characteristics of the vehicle. It is common to perform sound adjustment setting (tuning) of the apparatus. Here, the characteristics such as the sound quality of each music vary depending on the country or region. Therefore, when exporting a vehicle on which the sound device is arranged, if the destination country is a country different from the Western country (for example, an emerging country), the sound device tuned with reference to the Western music is used as the destination. The sound adjustment setting is not suitable for the playback output of national music. As a result, it is necessary to perform a tuning operation with reference to the music in the destination country, which greatly increases the load on the sound engineer.

  In addition, when the user continuously plays back and outputs music in various countries and regions, if the sound adjustment settings such as the sound quality adjustment settings are the same, the tendency of characteristics such as the sound quality of the music varies depending on the country or region. Because of differences, the balance of audio adjustment settings such as equalizer balance may be lost. In order to avoid such a state, it is necessary for the user to tune the audio device in accordance with the characteristics of the music to be reproduced and output.

  Therefore, in recent years, a technique for reproducing and outputting music that meets the user's preference in consideration of the user's nationality and the like has been proposed (see Patent Document 1: hereinafter referred to as “conventional example”). In this conventional technique, a sound engineer generates a plurality of sound processing parameters according to various environments or user preferences in advance. When the server device receives the user profile or the like indicated by the nationality, race, age, type, etc. of the user sent from the terminal device in a state where a plurality of such voice processing parameters are generated, Analyzing user preferences and selecting speech processing parameters based on the analysis results. Subsequently, the server device recommends the terminal device to use the voice processing parameter. Then, the terminal device executes the audio processing using the recommended audio processing parameter, and the reproduction device reproduces the audio processing result.

JP 2014-93577 A

  In the above-described conventional technology, the sound engineer needs to generate sound processing parameters corresponding to various environments in advance. For this reason, in order to provide users with sound processing parameters that take into account countries and regions, the sound engineer needs to generate sound processing parameters according to various countries and regions in advance. It takes a burden.

  Further, in the above-described conventional technique, a user who has listened to a sound processing result using a recommended sound processing parameter performs a “good” or “bad” evaluation, and the terminal device reports the evaluation result to the server device. To do. If the user evaluates “bad”, the server device selects the next voice processing parameter and recommends the terminal device to use the selected voice processing parameter. As described above, in the conventional technique, when determining the voice processing parameters in consideration of the country, the region, and the like, the user may perform evaluation several times, which may place a burden on the user.

  For this reason, the technique which can reduce the burden of operation of a sound engineer, a user, etc. and can perform the audio | voice adjustment process according to a user preference is desired. Meeting this requirement is one of the problems to be solved by the present invention.

The invention according to claim 1 includes an adjustment unit that adjusts the sound quality of the music to be reproduced using the sound quality adjustment information; and first area information related to the first area related to the setting of the adjustment unit Acquisition of second attribute information including first attribute information and second area information related to a second area different from the first area related to the setting of the adjustment unit, and transmitting the second attribute information to the management device parts and; wherein the adjustment unit uses the sound quality adjustment information which the management device is corrected using the correction value that has transmitted, the have line adjustment, the management device may include a region Attribute information and music characteristic information are stored in association with each other, based on the first music characteristic information corresponding to the first attribute information and the second music characteristic information corresponding to the second attribute information. Deriving a correction value for the music characteristic information, the sound quality adjustment device Transmitted to, it is the sound quality adjustment device according to claim.
The invention according to claim 2 is a sound quality adjustment system including the sound quality adjustment device according to claim 1, and a management device, wherein the management device includes attribute information including regional information, music characteristic information, A first storage unit that stores information in association with the first attribute information and the second attribute information transmitted from the sound quality adjustment device, and that corresponds to the first music characteristic information and the second attribute information corresponding to the first attribute information. And a derivation unit that derives a correction value for the first music characteristic information based on the second music characteristic information and transmits the correction value to the sound quality adjustment device.
Invention of Claim 3 is a management apparatus which communicates with the sound quality adjustment apparatus of Claim 1, Comprising: The memory | storage part which associates and memorize | stores the attribute information containing area information, and music characteristic information And using the first attribute information and the second attribute information transmitted from the sound quality adjusting device, the first music characteristic information corresponding to the first attribute information and the second music characteristic information corresponding to the second attribute information. And a derivation unit that derives a correction value for the first music characteristic information and transmits the correction value to the sound quality adjustment device.

The invention according to claim 9 is a sound quality adjustment method used in a sound quality adjustment apparatus including an adjustment unit that adjusts the sound quality of a piece of music to be reproduced using volume adjustment information, and relates to the setting of the adjustment unit. 1st attribute information including the 1st area information about the 1st area which is doing, and the 2nd area information about the 2nd area different from the 1st area related to the setting of the adjustment part An acquisition step of acquiring second attribute information and transmitting the second attribute information to the management device ; and the adjustment unit performs the adjustment using the sound quality adjustment information corrected using the correction value transmitted by the management device. The management device stores attribute information including regional information and music characteristic information in association with each other, and the first music characteristic information and the second attribute corresponding to the first attribute information. In the second music characteristic information corresponding to the information Zui and derives a correction value for the first music characteristic information is transmitted to the tone control device, a sound quality adjustment method characterized by.

A tenth aspect of the invention is a sound quality adjustment program that causes a computer included in the sound quality adjustment apparatus to execute the sound quality adjustment method according to the ninth aspect.

The invention described in claim 11 is a recording medium in which the sound quality adjusting program according to claim 10 is recorded so as to be readable by a computer included in the sound quality adjusting device.
According to a twelfth aspect of the present invention, there is provided a sound quality adjustment system, and a sound quality adjustment system including a management device including: a storage unit that associates and stores attribute information including regional information and music characteristic information; and a derivation unit. A management method used in the management device, wherein the derivation unit includes first attribute information including first region information relating to a first region related to the setting of the sound quality adjustment device, and the adjustment unit An acquisition step of acquiring, from the sound quality adjustment device, second attribute information including second area information relating to a second area different from the first area related to the setting of the first area; Using the first attribute information and the second attribute information transmitted from the adjustment device, based on the first music characteristic information corresponding to the first attribute information and the second music characteristic information corresponding to the second attribute information, First song A management method characterized in that it comprises a; deriving a correction value for sex information, a deriving step of transmitting to said tone control device.

It is a block diagram which shows roughly the structure of the management apparatus and sound quality adjustment apparatus which concern on 1st Embodiment of this invention. It is a figure for demonstrating the content of the music characteristic information memorize | stored in the memory | storage part of the management apparatus of FIG. FIG. 3 is a diagram (part 1) for explaining an example of octave band information included in the music characteristic information of FIG. 2; FIG. 6 is a diagram (part 2) for explaining an example of octave band information included in the music characteristic information of FIG. 2; It is a sequence diagram for demonstrating the update process of the sound quality adjustment setting value by the management apparatus and sound quality adjustment apparatus of FIG. It is a figure for demonstrating the example of the result of the derivation | leading-out process of the correction value of FIG. It is a figure for demonstrating the example of the sound quality adjustment value setting before performing the update process of the sound quality adjustment value setting of FIG. It is a figure for demonstrating the example of the result of the update process of the sound quality adjustment setting value of FIG. It is a block diagram which shows roughly the structure of the management apparatus and sound quality adjustment apparatus which concern on 2nd Embodiment of this invention. 10 is a flowchart for explaining processing for setting a correction value of a sound quality adjustment set value by the sound quality adjustment apparatus of FIG. 9.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description and drawings, the same or equivalent elements are denoted by the same reference numerals, and redundant description is omitted.

[First Embodiment]
First, a first embodiment of the present invention will be described with reference to FIGS.

<Configuration>
FIG. 1 is a block diagram illustrating a schematic configuration of the management device 100 and the sound quality adjustment device 200A according to the first embodiment. In the first embodiment, the management device 100 is disposed at a fixed position in a building, for example. The sound quality adjusting device 200A is disposed in the vehicle. The management apparatus 100 and the sound quality adjustment apparatus 200A can communicate with each other via a network.

  Although the management apparatus 100 can communicate with other sound quality adjustment apparatuses configured in the same manner as the sound quality adjustment apparatus 200A, only the sound quality adjustment apparatus 200A is representatively shown in FIG.

<< Configuration of Management Device 100 >>
The configuration of the management apparatus 100 will be described.

  As shown in FIG. 1, the management apparatus 100 includes a transmission / reception unit 110, a storage unit 120, and a processing control unit 130.

  The transmission / reception unit 110 receives the first attribute information PP1 and the second attribute information PP2 from the sound quality adjustment apparatus 200A via the network. Then, the transmission / reception unit 110 sends the first attribute information PP1 and the second attribute information PP2 to the processing control unit 130.

  In the first embodiment, the “first attribute information PP1” includes a sound engineer (predetermined person) at the time of shipment of the vehicle on which the sound quality adjusting device 200A is disposed (hereinafter also simply referred to as “shipment”). The information (first regional information) related to the region (first region) corresponding to the reference song used for the sound quality adjustment setting (also referred to as “tuning”) of the sound quality adjusting device 200A, and the production year information of the reference song include. In the first embodiment, the “second attribute information PP2” includes, for example, information (second area information) regarding an area (second area) in which the vehicle on which the sound quality adjusting device 200A is disposed is transferred to the user, And current year information is included.

  In addition, the transmission / reception unit 110 receives the correction value information α sent from the processing control unit 130. Then, the transmission / reception unit 110 transmits the correction value information α to the sound quality adjustment device 200A via the network.

  The storage unit 120 includes a nonvolatile storage device such as a hard disk device. Various information data used in the management apparatus 100 is stored in the storage unit 120. Such information data includes music characteristic information MSI (see FIG. 2 described later). The processing control unit 130 can access the storage unit 120.

In the music characteristic information MSI, as shown in FIG. 2, for each area AR _j (j = 1,...) And for each music production year YR _k (k = 1,...) Associated with the area AR _j. Octave band information OCB _{j, k} is included.

In the first embodiment, the octave band information OCB _{j, k} is _obtained by performing 1/1 octave analysis (frequency analysis) on a plurality of music pieces produced in the year YR _k in the area AR _j and averaging the analysis results. This is information about the frequency characteristics of the obtained music. Here, FIGS. 3 and 4 show examples of octave band information of different regions included in the music characteristic information MSI. As shown in FIGS. 3 and 4, in the first embodiment, the octave band information included in the music characteristic information MSI is expressed as a relative value when the level [dB] is set to “0” at 1000 [Hz]. It is information that.

  Returning to FIG. 1, the processing control unit 130 receives the first attribute information PP <b> 1 and the second attribute information PP <b> 2 sent from the transmission / reception unit 110. When receiving the first attribute information PP1 and the second attribute information PP2, the processing control unit 130 accesses the storage unit 120, and from the music characteristic information MSI, octave band information (first information) corresponding to the first attribute information PP1. Music characteristic information, hereinafter referred to as “first octave band information OCB1”), and octave band information corresponding to the second attribute information PP2 (second music characteristic information, hereinafter also referred to as “second octave band information OCB2”). read.

  Subsequently, the processing control unit 130 subtracts the frequency characteristic indicated by the first octave band information OCB1 from the frequency characteristic indicated by the second octave band information OCB2, and thereby sets the sound quality adjustment setting value (set in the sound quality adjustment apparatus 200A). Parameter) A correction value for correcting EQ is calculated. Then, the process control unit 130 sends the calculated correction value to the transmission / reception unit 110 as correction value information α. A specific example of the calculation processing result of the correction value of the sound quality adjustment setting value EQ by the processing control unit 130 will be described later.

<< Configuration of Sound Quality Adjustment Device 200A >>
The configuration of the sound quality adjusting apparatus 200A will be described.

  As shown in FIG. 1, the sound quality adjustment device 200A includes a music information supply unit 220A, a sound quality adjustment unit 230A, and a sound output unit 250. The sound quality adjustment apparatus 200A includes an input unit 260A, an attribute information acquisition unit 270A, a transmission / reception unit 280, and an update unit 290.

  Said music information supply part 220A produces | generates the music signal MUD based on music content data. The generated music signal MUD is sent to the sound quality adjustment unit 230A.

  The sound quality adjustment unit 230A receives the music signal MUD sent from the music information supply unit 220A. Then, the sound quality adjustment unit 230A performs sound quality adjustment processing on the music signal MUD based on the sound quality adjustment setting value EQ set therein, and generates the audio signal AOD. The audio signal AOD generated in this way is sent to the sound output unit 250.

  In the first embodiment, the sound quality adjustment setting value EQ set in the sound quality adjustment unit 230A is a sound engineer at the time of shipment of the vehicle on which the sound quality adjustment device 200A is placed (before the user uses the sound quality adjustment device 200A). However, the parameter values are tuned using the input unit 260A while playing the reference music. Then, at the time of shipment, the sound quality adjustment unit 230A internally retains the first attribute information PP1 including the first region information related to the region corresponding to the reference song used for the tuning and the production year information of the reference song. Yes.

  Here, the first attribute information PP1 held in the sound quality adjusting unit 230A at the time of shipment is acquired by the sound quality adjusting unit 230A from the content of the reference music when the sound engineer sets the sound quality adjustment setting value EQ. ing.

  In the first embodiment, the sound quality adjustment setting value EQ set in the sound quality adjustment unit 230A is updated by the update unit 290, as will be described later. When the sound quality adjustment setting value EQ is updated, the first attribute information PP1 is also updated.

  The sound output unit 250 includes a speaker SP. The sound output unit 250 receives the audio signal AOD sent from the sound quality adjustment unit 230A. And the sound output part 250 outputs the music sound according to the audio | voice signal AOD from the speaker SP.

  The input unit 260A includes a key unit provided in the sound quality adjusting device 200A and / or a remote input device including the key unit. When the user operates the input unit 260A, setting of operation contents and operation commands of the sound quality adjusting device 200A are performed. For example, the user designates reproduction of music content using the input unit 260A.

  In the first embodiment, the sound engineer adjusts the sound quality to the sound quality adjusting unit 230A while playing the reference music using the input unit 260A before the vehicle on which the sound quality adjusting device 200A is arranged is shipped. A set value EQ is set.

  In the first embodiment, the user uses the input unit 260A to input the region where the vehicle on which the sound quality adjusting device 200A is placed, that is, the region where the user uses the sound quality adjusting device 200A. It has become. Information regarding the region thus input is sent to the attribute information acquisition unit 270A as second region information.

  The attribute information acquisition unit 270A has a clock function. The attribute information acquisition unit 270A receives the second area information sent from the input unit 260A. When receiving the second area information, the attribute information acquisition unit 270A generates second attribute information PP2 including the second area information and the current year information. Subsequently, when the attribute information acquisition unit 270A generates the second attribute information PP2, the attribute information acquisition unit 270A acquires the first attribute information PP1 held in the sound quality adjustment unit 230A. Then, the attribute information acquisition unit 270A sends the first attribute information PP1 and the second attribute information PP2 to the transmission / reception unit 280.

  In addition, when the attribute information acquisition unit 270A transmits the information, the attribute information acquisition unit 270A transmits the second attribute information acquired this time to the sound quality adjustment unit 230A as new first attribute information. As a result, the first attribute information held in the sound quality adjustment unit 230A is updated.

  The transmission / reception unit 280 receives the first attribute information PP1 and the second attribute information PP2 sent from the attribute information acquisition unit 270A. Then, the transmission / reception unit 280 transmits the first attribute information PP1 and the second attribute information PP2 to the management apparatus 100 via the network.

  Further, the transmission / reception unit 280 receives the correction value information α from the management device 100 via the network. Then, the transmission / reception unit 280 sends the correction value information α to the update unit 290.

  The update unit 290 receives the correction value information α sent from the transmission / reception unit 280. When receiving the correction value information α, the updating unit 290 first acquires the sound quality adjustment setting value EQ currently set in the sound quality adjusting unit 230A. Subsequently, the updating unit 290 updates the sound quality adjustment setting value EQ by adding the correction value indicated by the correction value information α to the acquired current sound quality adjustment setting value EQ. Then, the update unit 290 sets the updated sound quality adjustment setting value EQ for the sound quality adjustment unit 230A. A specific example of the result of updating the sound quality adjustment setting value EQ by the updating unit 290 will be described later.

<Operation>
The operation performed jointly by the management apparatus 100 and the sound quality adjustment apparatus 200A configured as described above will be described mainly focusing on the update process of the sound quality adjustment setting value EQ set in the sound quality adjustment apparatus 200A. To do.

  Here, when the sound quality adjusting device 200A is shipped, the sound quality adjusting unit 230A of the sound quality adjusting device 200A is set with the sound quality adjustment setting value EQ that is tuned by the sound engineer while playing the reference music. To do. In the sound quality adjustment unit 230A, it is assumed that the first attribute information PP1 related to the reference music used for tuning is held. In the first embodiment, the content of the first attribute information PP1 is different from the content of the second attribute information PP2.

  FIG. 5 is a sequence diagram showing operations performed by the management apparatus 100 and the sound quality adjustment apparatus 200A in cooperation.

  As shown in FIG. 5, first, in step S11, the attribute information acquisition unit 270A of the sound quality adjustment apparatus 200A performs the acquisition process of the first attribute information PP1 and the second attribute information PP2. With regard to such acquisition processing, the attribute information acquisition unit 270A is sent from the input unit 260A by using the input unit 260A to input the region to which the vehicle on which the sound quality adjustment device 200A is placed is assigned. Start when you receive local information. When receiving the second region information, the attribute information acquisition unit 270A generates second attribute information PP2 including the second region information and the current year information.

  Further, when the attribute information acquisition unit 270A generates the second attribute information PP2, the attribute information acquisition unit 270A acquires the first attribute information PP1 held in the sound quality adjustment unit 230A. When the first attribute information PP1 is acquired in this way, the attribute information acquisition unit 270A sends the first attribute information PP1 and the second attribute information PP2 to the transmission / reception unit 280. Then, the transmission / reception unit 280 transmits the first attribute information PP1 and the second attribute information PP2 to the management apparatus 100 via the network.

  When the management apparatus 100 receives the first attribute information PP1 and the second attribute information PP2, a correction value derivation process is performed in step S12. In the correction value derivation process, first, the transmission / reception unit 110 sends the received first attribute information PP1 and second attribute information PP2 to the process control unit 130.

  Upon receiving the first attribute information PP1 and the second attribute information PP2, the processing control unit 130 accesses the storage unit 120, and from the music characteristic information MSI of the storage unit 120, the first octave corresponding to the first attribute information PP1. The band information OCB1 is read, and the second octave band information OCB2 corresponding to the second attribute information PP2 is read. Subsequently, the process control unit 130 derives a correction value by subtracting the frequency characteristic indicated by the first octave band information OCB1 from the frequency characteristic indicated by the second octave band information OCB2. When the correction value is derived in this way, the processing control unit 130 sends the correction value to the transmission / reception unit 110 as the correction value information α. And the transmission / reception part 110 transmits correction value information (alpha) to the sound quality adjustment apparatus 200A via a network.

  When the sound quality adjusting device 200A receives the correction value information α, the sound quality adjustment setting value EQ is updated in step S13. In the update process of the update process of the sound quality adjustment setting value EQ, the transmission / reception unit 280 sends the received correction value information α to the update unit 290.

  When the correction value information α is received, the updating unit 290 first acquires the sound quality adjustment setting value EQ currently set in the sound quality adjusting unit 230A. Subsequently, the updating unit 290 adds the correction value indicated by the correction value information α to the acquired sound quality adjustment setting value EQ, and updates the sound quality adjustment setting value EQ. Then, the update unit 290 sets the updated sound quality adjustment setting value EQ for the sound quality adjustment unit 230A. When the sound quality adjustment set value EQ is updated in this way, the update process of the sound quality adjustment set value EQ set in the sound quality adjustment apparatus 200A is completed.

  Here, in FIG. 6, when the octave band information shown in FIG. 3 is the first octave band information OCB1, and the octave band information shown in FIG. 4 is the second octave band information OCB2, step S12 is performed. The correction value derived in is shown. FIG. 7 shows an example of the sound quality adjustment setting value EQ set by the sound engineer for the sound quality adjustment unit 230A. FIG. 8 shows an example of the sound quality adjustment setting value EQ updated from the sound quality adjustment setting value EQ shown in FIG. 7 based on the correction value shown in FIG. 6 in step S13.

  When the music information supply unit 220A supplies the music signal MUD to the sound quality adjustment unit 230A with the sound quality adjustment setting value EQ updated in this way, the sound quality adjustment unit 230A sets the updated sound quality adjustment setting value EQ to the updated sound quality adjustment setting value EQ. Based on this, sound quality adjustment processing is performed on the music signal MUD to generate an audio signal AOD. Then, the sound quality adjustment unit 230 </ b> A sends the generated audio signal AOD to the sound output unit 250. As a result, the music sound suitable for the sound quality adjustment setting in the area specified by the user is output from the speaker SP of the sound output unit 250.

  Here, in the first embodiment, when the vehicle in which the sound quality adjustment device 200A is arranged is transferred from the first user who updated the sound quality adjustment setting value EQ of the sound quality adjustment unit 230A to another second user. Even when the area assigned to the second user is different from the area assigned to the first user, the sound quality adjustment setting value EQ set in the sound quality adjustment apparatus 200A is updated. Can do.

  The update process of the sound quality adjustment setting value EQ is performed when the second user uses the input unit 260A to input a region where the sound quality adjustment apparatus 200A is used. When the second user inputs the area in this way, the above-described processing of steps S11 to S13 is executed. When the process of step S13 ends, the sound quality adjustment setting value EQ of the sound quality adjustment unit 230A is updated to the sound quality adjustment setting value EQ corresponding to the area designated by the second user.

  As described above, in the first embodiment, the sound engineer sets the sound quality adjustment setting value EQ of the sound quality adjusting unit 230A while playing the reference music before the vehicle on which the sound quality adjusting device 200A is arranged is shipped. Then, the sound quality adjusting unit 230A holds the first attribute information PP1 including the first area information related to the area corresponding to the reference song and the production year information of the reference song.

  When the vehicle in which the sound quality adjustment device 200A is arranged is transferred to the user and the area to which the user is transferred is input using the input unit 260A, the attribute information acquisition unit 270A includes the second area information about the area input by the user and Second attribute information PP2 including current year information is generated. Subsequently, the attribute information acquisition unit 270A acquires the first attribute information PP1 held in the sound quality adjustment unit 230A. Then, the attribute information acquisition unit 270A transmits the first attribute information PP1 and the second attribute information PP2 to the management apparatus 100.

  In the management apparatus 100, when the first attribute information PP1 and the second attribute information PP2 are received, the processing control unit 130 determines from the music characteristic information MSI in the storage unit 120 the first octave band information OCB1 corresponding to the first attribute information PP1. And second octave band information OCB2 corresponding to the second attribute information PP2. Subsequently, the process control unit 130 derives a correction value by subtracting the frequency characteristic indicated by the first octave band information OCB1 from the frequency characteristic indicated by the second octave band information OCB2. Then, the process control unit 130 transmits the correction value as correction value information α to the sound quality adjustment apparatus 200A.

  In the sound quality adjustment device 200A that has received the correction value information α, the update unit 290 first acquires the sound quality adjustment setting value EQ currently set in the sound quality adjustment unit 230A. Subsequently, the updating unit 290 adds the correction value indicated by the correction value information α to the acquired sound quality adjustment setting value EQ, and updates the sound quality adjustment setting value EQ.

  As described above, in the first embodiment, the sound engineer needs to perform the sound quality adjustment setting of the sound quality adjustment apparatus 200A only once. Further, when updating the sound quality adjustment setting value EQ of the sound quality adjustment device 200A, the user only has to input the area where the vehicle on which the sound quality adjustment device 200A is placed is transferred.

  For this reason, while reducing the operation load of sound engineers and users, and reflecting the sound engineer's sound quality adjustment technology and philosophy, the sound quality adjustment setting that matches the sound quality characteristics of the music specified by the user, This can be performed on the sound quality adjustment apparatus 200A.

  Further, in the first embodiment, even when the vehicle in which the sound quality adjustment device 200A is arranged is transferred to another user, the other user can make the input unit 260A have the region information of the other user. The sound quality adjustment setting value EQ set in the sound quality adjustment device 200A can be updated only by performing an input operation.

  For this reason, even when the vehicle on which the sound quality adjustment device 200A is arranged is transferred to another user, the burden on the other user is reduced, and the sound engineer's sound quality adjustment technology and idea are reflected. The sound quality adjustment apparatus 200A can perform sound quality adjustment setting in accordance with the sound quality characteristics of the music in the area designated by the other user.

  Therefore, according to the first embodiment, it is possible to reduce the operation load of a sound engineer, a user, and the like, and perform a sound adjustment process that matches the preference of the user corresponding to the region to which the sound engineer belongs.

[Second Embodiment]
Next, a second embodiment of the present invention will be described with reference to FIGS.

<Configuration>
FIG. 9 is a block diagram illustrating schematic configurations of the management device 100 and the sound quality adjustment device 200B according to the second embodiment. In the second embodiment, the management device 100 is configured in the same manner as in the first embodiment described above, and the sound quality adjustment device 200B is used as a constituent element instead of the sound quality adjustment device 200A in the first embodiment described above. Is different.

  In the second embodiment, the management device 100 is arranged at a fixed position in a building, for example, as in the case of the first embodiment described above. Also, the sound quality adjustment device 200B is arranged in the vehicle, as in the case of the sound quality adjustment device 200A of the first embodiment described above.

  The management device 100 and the sound quality adjustment device 200B can communicate with each other via a network. Although the management apparatus 100 can communicate with other sound quality adjustment apparatuses configured in the same manner as the sound quality adjustment apparatus 200B, only the sound quality adjustment apparatus 200B is representatively shown in FIG.

<< Configuration of Sound Quality Adjustment Device 200B >>
The configuration of the sound quality adjusting apparatus 200B will be described.

  As shown in FIG. 9, the sound quality adjustment apparatus 200 </ b> B includes a music information supply unit 220 </ b> B, a sound quality adjustment unit 230 </ b> B, a sound quality adjustment correction unit 240, and a sound output unit 250. The sound quality adjustment apparatus 200B includes an input unit 260B, an attribute information acquisition unit 270B, and a transmission / reception unit 280. Hereinafter, the description will be given mainly focusing on differences from the sound quality adjusting apparatus 200A according to the first embodiment described above.

  The music information supply unit 220B generates a music signal MUD based on the music content data. Then, the music information supply unit 220B sends the generated music signal MUD to the sound quality adjustment unit 230B. In the second embodiment, the music information supply unit 220B sends the music signal MUD to the sound quality adjustment unit 230B when receiving the supply instruction sent from the attribute information acquisition unit 270B or the sound quality adjustment correction unit 240. It has become.

  In the second embodiment, when the sound engineer or user uses the input unit 260B to set the sound quality adjustment setting value EQ of the sound quality adjustment unit 230B, the music information supply unit 220B sets the reference music used for tuning. The first area information related to the corresponding area and the production year information of the reference music are sent to the sound quality adjustment unit 230B as the first attribute information PP1.

  In the second embodiment, the music information supply unit 220B reads the area corresponding to the music of the music content data and the year of creation of the music from the music content data. Information regarding the area corresponding to the music read in this way and the year information of the music are sent to the attribute information acquisition unit 270B as the second attribute information PP2.

  The sound quality adjustment unit 230B receives the music signal MUD sent from the music information supply unit 220B. Then, the sound quality adjustment unit 230B performs a sound quality adjustment process on the music signal MUD based on the sound quality adjustment setting value EQ set therein to generate a sound quality adjustment signal AFD. The sound quality adjustment signal AFD generated in this way is sent to the sound output unit 250.

  In the second embodiment, the sound quality adjustment setting value EQ set in the sound quality adjustment unit 230B is a parameter value tuned by the sound engineer or user using the input unit 260B. It should be noted that the sound quality adjustment setting value EQ is a parameter value tuned by a sound engineer when the vehicle on which the sound quality adjustment device 200B is arranged is shipped. Further, after the vehicle is transferred, the user can tune the sound quality adjustment set value EQ. The sound quality adjustment unit 230B holds therein first attribute information PP1 including first area information related to the area corresponding to the reference music used for the tuning and production year information of the reference music.

  The sound quality adjustment correction unit 240 receives the correction value information α sent from the transmission / reception unit 280. Subsequently, the sound quality adjustment correction unit 240 sets the correction value indicated by the correction value information α to a correction setting value for sound quality adjustment. When the correction set value is set in this way, the sound quality adjustment correction unit 240 sends a supply instruction to the music information supply unit 220B.

  When the sound quality adjustment correction unit 240 receives the sound quality adjustment signal AFD sent from the sound quality adjustment unit 230B, the sound quality adjustment correction unit 240 performs a sound quality adjustment correction process on the sound quality adjustment signal AFD based on the set correction setting value of the sound quality adjustment. Thus, the audio signal AOD is generated. The audio signal AOD generated in this way is sent to the sound output unit 250.

  In the second embodiment, the correction setting value set in the sound quality adjustment correction unit 240 is cleared every time reproduction output of one music piece is completed.

  The input unit 260B includes a key unit provided in the sound quality adjustment device 200B and / or a remote input device including the key unit. When the user operates the input unit 260B, setting of operation contents and operation commands of the sound quality adjusting apparatus 200B are performed. For example, the user designates reproduction of music content using the input unit 260B.

  In the second embodiment, as in the case of the first embodiment described above, the sound engineer plays the reference music using the input unit 260B before shipping the vehicle on which the sound quality adjusting device 200B is arranged. The sound quality adjustment setting value EQ is set to the sound quality adjustment unit 230B.

  In the second embodiment, the user can set the sound quality adjustment setting value EQ for the sound quality adjustment unit 230B while playing the reference music using the input unit 260B.

  The attribute information acquisition unit 270B receives the second attribute information PP2 sent from the music information supply unit 220B. Each time the attribute information acquisition unit 270B receives the second attribute information PP2, the attribute information acquisition unit 270B acquires the first attribute information PP1 from the sound quality adjustment unit 230B, and the contents of the first attribute information PP1 and the contents of the second attribute information PP2 are obtained. It is determined whether or not they are the same. If the result of the determination is affirmative, the attribute information acquisition unit 270B sends a supply instruction to the music information supply unit 220B. On the other hand, when it is determined that the content of the first attribute information PP1 and the content of the second attribute information PP2 are not the same, the attribute information acquisition unit 270B sends a supply standby instruction to the music information supply unit 220B, and first The attribute information PP1 and the second attribute information PP2 are sent to the transmission / reception unit 280.

<Operation>
With regard to the operations performed by the management apparatus 100 and the sound quality adjustment apparatus 200B configured as described above, mainly focusing on the setting process of the correction value of the sound quality adjustment set value EQ set in the sound quality adjustment apparatus 200B. I will explain.

  It is assumed that the sound quality adjustment unit 230B of the sound quality adjustment apparatus 200B is set with a sound quality adjustment setting value EQ that is tuned by the user while reproducing the reference music. In addition, it is assumed that the sound quality adjustment unit 230B holds first attribute information PP1 related to the reference music used for tuning.

  It is assumed that the correction setting value set in the sound quality adjustment correction unit 240 is cleared. Further, when the music information supply unit 220B supplies the music signal MUD to the sound quality adjustment unit 230B when the music piece is reproduced and output, the music information supply unit 220B receives the second attribute information PP2 of the music to be reproduced. , And sent to the attribute information acquisition unit 270B.

  Under such circumstances, as shown in FIG. 10, first, in step S21, it is determined whether or not the attribute information acquisition unit 270B has acquired the second attribute information PP2 when playing a new song. To do. If the result of this determination is negative (step S21: N), the process of step S21 is repeated.

  If the attribute information acquisition unit 270B acquires new second attribute information PP2 during the repetition of step S21 and the determination result in step S21 is affirmative (step S21: Y), the process proceeds to step S22. In step S22, the attribute information acquisition unit 270B determines whether or not the content of the newly acquired second attribute information PP2 is the same as the content of the first attribute information PP1 acquired from the sound quality adjustment unit 230B. If the result of this determination is affirmative (step S22: Y), the attribute information acquisition unit 270B sends a supply instruction to the music information supply unit 220B. And a process progresses to step S26 mentioned later.

  If the result of the determination in step S22 is negative (step S22: N), the process proceeds to step S23. In step S23, the attribute information acquisition unit 270B sends the first attribute information PP1 and the second attribute information PP2 to the transmission / reception unit 280. Then, the transmission / reception unit 280 transmits the first attribute information PP1 and the second attribute information PP2 to the management apparatus 100 via the network.

  When the first attribute information PP1 and the second attribute information PP2 are thus transmitted to the management apparatus 100, the process control unit 130 performs the same process as in the first embodiment described above, and derives a correction value. Then, the management apparatus 100 transmits the derived correction value as correction value information α to the sound quality adjustment apparatus 200B via the network.

  Subsequently, in step S24, the sound quality adjustment correction unit 240 determines whether or not the correction value information α has been received. If the result of this determination is negative (step S24: N), the process of step S24 is repeated.

  When the correction value information α is received and the result of determination in step S24 becomes affirmative (step S24: Y), the process proceeds to step S25. In step S25, the sound quality adjustment correction unit 240 sets the correction value indicated by the correction value information α as a correction setting value for sound quality adjustment by the sound quality adjustment correction unit 240. Next, the sound quality adjustment correction unit 240 sends a supply instruction to the music information supply unit 220B.

  Subsequently, in step S26, the music information supply unit 220B supplies the music signal MUD to the sound quality adjustment unit 230B. Thereafter, the process returns to step S21.

  When the music signal MUD is thus supplied to the sound quality adjustment unit 230B, the sound quality adjustment unit 230B performs a sound quality adjustment process on the music signal MUD based on the tuned sound quality adjustment setting value EQ to generate a sound quality adjustment signal AFD. Then, the sound quality adjustment unit 230B sends the generated sound quality adjustment signal AFD to the sound quality adjustment correction unit 240.

  Next, the sound quality adjustment correction unit 240 performs a sound quality adjustment correction process on the sound quality adjustment signal AFD based on the correction setting value set this time to generate an audio signal AOD. Then, the sound quality adjustment correction unit 240 sends the generated audio signal AOD to the sound output unit 250. As a result, the music sound suitable for the sound quality adjustment setting of the region and production year corresponding to the music is output from the speaker SP of the sound output unit 250.

  Here, the first octave band information OCB1 corresponding to the first attribute information PP1 is the octave band information shown in FIG. 3 described above, and the second octave band information OCB2 corresponding to the second attribute information PP2 is shown in FIG. 4 described above. When the octave band information shown is used, the correction setting value set in the sound quality adjustment correction unit 240 is as shown in FIG. 6 described above.

  Thereafter, each time a new piece of music is played, the above-described steps S21 to S26 are executed.

  As described above, in the second embodiment, the sound engineer or user sets the sound quality adjustment setting value EQ of the sound quality adjusting unit 230B while playing the reference music. Then, the sound quality adjustment unit 230B holds the first attribute information PP1 including the first region information regarding the region corresponding to the reference song and the production year information of the reference song.

  Before the music information supply unit 220B supplies the music signal MUD to the sound quality adjustment unit 230B, the attribute information acquisition unit 270B supplies the second attribute information PP2 of the music to be played back to the music information supply unit 220B. Get from. If the content of the first attribute information PP1 acquired from the sound quality adjustment unit 230B is the same as the content of the second attribute information PP2, the attribute information acquisition unit 270B sends a supply instruction to the music information supply unit 220B. . On the other hand, when the contents of the first attribute information PP1 and the contents of the second attribute information PP2 are not the same, the attribute information acquisition unit 270B transmits the first attribute information PP1 and the second attribute information PP2 to the management apparatus 100. To do.

  In the management apparatus 100, when the first attribute information PP1 and the second attribute information PP2 are received, the processing control unit 130 determines from the music characteristic information MSI in the storage unit 120 the first octave band information OCB1 corresponding to the first attribute information PP1. And second octave band information OCB2 corresponding to the second attribute information PP2. Subsequently, the process control unit 130 derives a correction value by subtracting the frequency characteristic indicated by the first octave band information OCB1 from the frequency characteristic indicated by the second octave band information OCB2. Then, the processing control unit 130 transmits the correction value as correction value information α to the sound quality adjustment apparatus 200B.

  In the sound quality adjustment device 200B that has received the correction value information α, the sound quality adjustment correction unit 240 sets the correction value indicated by the correction value information α as a correction setting value for sound quality adjustment. When the correction setting value is set in the sound quality adjustment correction unit 240 in this way, the music information supply unit 220B supplies the music signal MUD to the sound quality adjustment unit 230B, and the sound quality adjustment unit 230B uses the tuned sound quality adjustment setting value EQ. Based on this, sound quality adjustment processing is performed on the music signal MUD to generate a sound quality adjustment signal AFD. Then, the sound quality adjustment unit 230B sends the generated sound quality adjustment signal AFD to the sound quality adjustment correction unit 240. Next, the sound quality adjustment correction unit 240 performs a correction process on the sound quality adjustment signal AFD based on the correction setting value set this time, generates an audio signal AOD, and sends it to the sound output unit 250.

  For this reason, when the user tunes and continuously plays music from various countries and regions, the user's operation load is reduced, and the reproduction is output while reflecting the user's philosophy of sound quality adjustment. The sound quality adjustment setting according to the sound quality characteristics of the region corresponding to the music and the production year can be set for the sound quality adjustment apparatus 200B.

  In addition, when a sound engineer tunes and plays music from various countries and regions continuously, the user's operation load is reduced, and the sound engineer's sound quality adjustment techniques and ideas are reflected. A sound quality adjustment setting value EQ that matches the sound quality characteristics of the region and production year corresponding to the music to be output can be set for the sound quality adjustment apparatus 200B.

  Therefore, according to the second embodiment, it is possible to reduce the burden of operation by a sound engineer, a user, and the like, and perform sound adjustment processing that matches the user's preference.

[Modification of Embodiment]
The present invention is not limited to the above-described embodiment, and various modifications are possible.

  For example, in the first embodiment, the first first attribute information includes information related to the region corresponding to the reference song used by the sound engineer for tuning the sound quality adjusting device and the year information of the reference song. It was decided. On the other hand, the first first attribute information may be the region corresponding to the reference song used by the user or the like for tuning the sound quality adjusting device and the production year information of the reference song. In this case, the second attribute information may be information on the region and year designated by the user or the like.

  In the first embodiment described above, in the sound quality adjustment setting value update process, the user designates only the region as the second attribute information. However, in addition to the region, the year information may be designated. Good.

  In the first embodiment, the user designates the area as the second attribute information. However, at the time of exporting the vehicle on which the sound quality adjusting device is arranged, the engineer or the like of the exporting country is directed on behalf of the user. An area related to the country may be designated, or an engineer or the like in the destination country may designate the area on behalf of the user at the time of transfer of the vehicle on which the sound quality adjusting device is arranged.

  Moreover, in said 1st and 2nd embodiment, the music characteristic information memorize | stored in the management apparatus was used as the octave band information for every production area for every area and the music matched with the said area. On the other hand, the music characteristic information may be the octave band information for each region and each year of the music associated with the region and each music genre.

  In this case, the first attribute information includes the production year information of the music associated with the first area information and the genre information of the music, and the second attribute information is associated with the second area information. The production year information of the music and the genre information of the music can be included.

  Further, the music characteristic information may be octave band information for each area and for each genre of music associated with the area. In this case, the first attribute information includes the genre information of the music associated with the first area information, and the second attribute information includes the genre information of the music associated with the second area information. Can be included.

  Further, the music characteristic information may be octave band information associated with each region. In this case, the first attribute information can be composed of the first area information, and the second attribute information can be composed of the second area information.

  In the first and second embodiments, the storage device storing the music characteristic information is provided in the management device, and the management device derives the correction value. On the other hand, the sound quality adjustment apparatus may include a storage unit that stores music characteristic information, and derive a correction value for sound quality adjustment based on the first attribute information and the second attribute information.

  In the first embodiment, the first attribute information related to the reference music used for tuning is acquired from the content of the reference music, but may be input by a sound quality adjustment setter during tuning. . In the second embodiment, the first attribute information related to the reference music used for tuning is input using the input unit, but may be acquired from the content of the reference music during tuning. .

  In the first embodiment, the sound quality adjustment device 200A includes the sound quality adjustment unit 230A and the update unit 290. On the other hand, the sound quality adjustment apparatus 200A may include a sound quality adjustment unit and a sound quality adjustment correction unit configured in the same manner as the sound quality adjustment unit 230B and the sound quality adjustment correction unit 240 of the second embodiment. In this case, the update unit 290 is omitted from the constituent elements, and the attribute information acquisition unit holds the first attribute information.

  In the second embodiment, the sound quality adjustment device 200B includes the sound quality adjustment unit 230B and the sound quality adjustment correction unit 240. On the other hand, the sound quality adjustment apparatus 200B may include a sound quality adjustment unit and an update unit configured similarly to the sound quality adjustment unit 230A and the update unit 290 of the first embodiment. In this case, the sound quality adjustment correction unit 240 is omitted from the constituent elements, and the sound quality adjustment unit holds the first attribute information.

  In the first and second embodiments described above, the present invention is applied to the sound quality adjusting device disposed in the vehicle. However, the present invention is also applied to the sound quality adjusting device disposed in a moving body other than the vehicle. You can also Further, the present invention can also be applied to a sound quality adjusting device disposed in the home.

  A part or all of the above sound quality adjusting device (excluding the input unit and the sound output unit) is configured as a computer as a calculation means including a central processing unit (CPU), and a program prepared in advance is configured. The function of the sound quality adjustment apparatus in the first and second embodiments may be realized by executing the program on the computer. This program is recorded on a computer-readable recording medium such as a hard disk, CD-ROM, or DVD, and is read from the recording medium and executed by the computer. The program may be acquired in a form recorded on a portable recording medium such as a CD-ROM or DVD, or may be acquired in a form distributed via a network such as the Internet. Also good.

200A, 200B ... Sound quality adjusting device 230A ... Sound quality adjusting unit (adjusting unit)
230B ... Sound quality adjustment unit (part of the adjustment unit)
240 ... Sound quality adjustment correction unit (part of the adjustment unit)
270A, 270B ... attribute information acquisition unit (acquisition unit)

Claims (12)

An adjustment unit that adjusts the sound quality of the music to be played using the sound quality adjustment information;
First attribute information including first area information related to a first area related to the setting of the adjustment unit, and a second area different from the first area related to the setting of the adjustment unit Obtaining second attribute information including second area information relating to and transmitting to the management device ;
The adjustment unit uses the sound quality adjustment information which the management device is corrected using the correction value sent, have lines the adjustment,
The management device stores attribute information including regional information and music characteristic information in association with each other, and the first music characteristic information corresponding to the first attribute information and the second music corresponding to the second attribute information. Based on the characteristic information, a correction value for the first music characteristic information is derived and transmitted to the sound quality adjusting device.
A sound quality adjusting device characterized by that. A sound quality adjustment system comprising: the sound quality adjustment device according to claim 1; and a management device;
The management device
A storage unit that stores attribute information including regional information in association with music characteristic information;
Using the first attribute information and the second attribute information transmitted from the sound quality adjusting device, based on the first music characteristic information corresponding to the first attribute information and the second music characteristic information corresponding to the second attribute information. A derivation unit that derives a correction value for the first music characteristic information and transmits the correction value to the sound quality adjustment device;
Sound quality adjustment system characterized by that. A management device that communicates with the sound quality adjustment device according to claim 1,
A storage unit that stores attribute information including regional information in association with music characteristic information;
Using the first attribute information and the second attribute information transmitted from the sound quality adjusting device, based on the first music characteristic information corresponding to the first attribute information and the second music characteristic information corresponding to the second attribute information. A derivation unit that derives a correction value for the first music characteristic information and transmits the correction value to the sound quality adjustment device;
A management device characterized by that. The first region is a region corresponding to the music used when a predetermined person sets the sound quality adjustment information of the adjustment unit before the user uses the sound quality adjustment device,
The second region is a region where the sound quality adjusting device is used by the user.
The sound quality adjusting device according to claim 1. The first region is a region corresponding to the music used when the sound quality adjustment information of the adjustment unit is set,
The second region is a region designated by the user.
The sound quality adjusting device according to claim 1. The first region is a region corresponding to the music used when the sound quality adjustment information of the adjustment unit is set,
The second region is a region corresponding to the music to be played back.
The sound quality adjusting device according to claim 1. The first music characteristic information and the second music characteristic information are information on frequency characteristics,
The adjustment unit uses the sound quality adjustment information corrected based on the correction information obtained by subtracting the characteristic indicated by the first music characteristic information from the characteristic indicated by the second music characteristic information, Adjusting the sound quality of the music to be played,
The sound quality adjusting apparatus according to claim 1, wherein the sound quality adjusting apparatus is any one of claims 1 to 4 . The first attribute information includes at least one of music production year information and music genre information associated with the first area information,
The second attribute information includes at least one of music production year information and music genre information associated with the second area information.
The sound quality adjusting apparatus according to claim 1, wherein the sound quality adjusting apparatus is any one of claims 1 to 4 . A sound quality adjustment method used in a sound quality adjustment apparatus including an adjustment unit that adjusts the sound quality of a music to be played using volume adjustment information,
First attribute information including first area information related to a first area related to the setting of the adjustment unit, and a second area different from the first area related to the setting of the adjustment unit Obtaining the second attribute information including the second area information regarding the information and transmitting it to the management device ;
It said adjusting unit, using said sound quality adjustment information which the management device is corrected using the correction value that has transmitted, the adjustment step carries out the adjustment; equipped with,
The management device stores attribute information including regional information and music characteristic information in association with each other, and the first music characteristic information corresponding to the first attribute information and the second music corresponding to the second attribute information. Based on the characteristic information, a correction value for the first music characteristic information is derived and transmitted to the sound quality adjusting device.
A sound quality adjustment method characterized by the above. A sound quality adjustment program for causing a computer included in the sound quality adjustment apparatus to execute the sound quality adjustment method according to claim 9 . 11. A recording medium on which the sound quality adjusting program according to claim 10 is recorded so as to be readable by a computer included in the sound quality adjusting device. A management method used in the management apparatus in a sound quality adjustment system comprising: a sound quality adjustment apparatus; and a storage unit that stores attribute information including regional information and music characteristic information in association with each other; and a derivation unit. Because
The derivation unit includes first attribute information including first region information related to a first region related to the setting of the sound quality adjustment device, and the first region related to the setting of the adjustment unit, Obtaining the second attribute information including the second area information on the different second area from the sound quality adjusting device;
The derivation unit uses the first attribute information and the second attribute information transmitted from the sound quality adjustment device, and the first music characteristic information corresponding to the first attribute information and the second music corresponding to the second attribute information A deriving step of deriving a correction value for the first music characteristic information based on the characteristic information and transmitting it to the sound quality adjusting device;
A management method comprising:

Images