JP4089351B2 - Recording / reproducing method and recording / reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To alleviate user's load required for setting a DSP (digital signal processor). <P>SOLUTION: A sound recording/reproducing apparatus has an attribute information recording means 5 for recording attribute information of audio data of a musical piece on a recording means 3, a rule table producing means 6 for producing a rule table which makes the attribute information correspond to a DSP program parameter for indicating sound field processing or frequency characteristic processing to be performed to the DSP23 of an amplifier device 21, a DSP program parameter acquiring means 8 for acquiring the DSP program parameter which corresponds to the attribute information of audio data to be reproduced from the rule table and a control means 12 which sets up the DSP program parameter at the DSP of the amplifier device. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording / reproducing method and a recording / reproducing apparatus for digitally recording an audio signal in recording means such as a memory or a hard disk and reproducing the recorded audio signal.
[0002]
[Prior art]
2. Description of the Related Art In recent years, recording / reproducing apparatuses that can digitally record audio signals on recording means such as a memory or a hard disk and reproduce the recorded audio signals have become widespread.
[0003]
[Problems to be solved by the invention]
In the recording / playback apparatus as described above, if various sound field processes or frequency characteristic processes are performed according to the characteristics of the music to be played back using a digital signal processor (hereinafter referred to as DSP), the parameters of the DSP There is a problem that it is necessary to change the setting for each song, which is very complicated for the user.
[0004]
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a recording / reproducing method and a recording / reproducing apparatus that can reduce the burden on the user for setting the DSP.
[0005]
[Means for Solving the Problems]
  The present invention relates to a recording / playback method in a recording / playback apparatus for recording and playing back audio data on a recording means, and an attribute information recording procedure for recording attribute information of audio data of a song recorded on the recording means on the recording means A rule table creation procedure for creating a rule table in which DSP program parameters for designating a sound field process or a frequency characteristic process to be executed to a digital signal processor (DSP) of the amplifier device are associated with the attribute information; When reproducing the audio data read from the recording means to the amplifier device currently connected to the recording / reproducing apparatus, the attribute information of the audio data of the song to be reproduced is acquired from the recording means, and this attribute information is supported. A DSP program parameter obtaining procedure for obtaining a DSP program parameter to be obtained from the rule table; When the model of the amplifier device that is the control target at the time of creating the rule table and the amplifier device currently connected to the recording / playback device match, the DSP program parameter acquired from the rule table is the DSP program parameter after the acquisition process is completed, and If the model of the amplifier device currently connected to the recording / playback device and the amplifier device that was the control target at the time of creating the rule table are different from each other, the DSP program parameters acquired from the rule table and the recording / playback device are The DSP program parameters corresponding to the connected amplifier devices are acquired from the DSP program correspondence table in which the DSP program parameters of a plurality of types of amplifier devices are associated, and the DSP program parameters obtained from the DSP program correspondence table are acquired. And a DSP program parameter setting procedure for setting the DSP program parameter after completion of the acquisition process in the DSP of the amplifier apparatus currently connected to the recording / playback apparatus. It is what I did.
  The recording / playback method of the present invention also includes an attribute information recording procedure for recording attribute information of audio data of a song recorded in the recording means on the recording means, and a sound field process or a frequency characteristic process to be executed. A rule table creating procedure for creating a rule table in which a DSP program parameter designated for a digital signal processor (DSP), a process start time designating the process start time, and the attribute information are associated with each other; At the time of playback that outputs the read audio data to the amplifier device currently connected to the recording / playback device, the processing start time corresponding to the attribute information of the audio data of the song to be played back and matching the elapsed playback time of the audio data A DSP program parameter acquisition procedure for acquiring a DSP program parameter corresponding to the rule table from the rule table;The DSP program parameter obtained from the DSP table obtained from the rule table after completion of the obtaining process when the model of the amplifier device currently connected to the recording / playback device coincides with the amplifier device that was the control target when the rule table was created And the DSP program parameters acquired from the rule table and the recording / playback device are different from each other when the model of the amplifier device currently connected to the recording / playback device is different from the procedure to be controlled at the time of creating the rule table. The DSP program parameter corresponding to the currently connected amplifier device is obtained from the DSP program correspondence table in which the DSP program parameters of a plurality of types of amplifier devices are associated, and the DSP program parameter obtained from the DSP program correspondence table is acquired. And procedures to DSP program parameters after acquisition process terminates over data, after the acquisition process terminatesThe DSP program parameter setting procedure for setting the DSP program parameter in the DSP of the amplifier apparatus currently connected to the recording / reproducing apparatus is executed.
  The DSP program parameter acquisition procedure associates DSP program parameters of each model of the amplifier device when the model of the amplifier device to be controlled and the amplifier device at the time of reproduction are different at the time when the rule table is created. A DSP program parameter corresponding to the DSP program parameter obtained from the rule table and corresponding to the amplifier device at the time of reproduction may be obtained from the DSP program correspondence table.
[0006]
  In addition, one configuration example of the recording / playback method of the present invention is a DSP program that indicates the changed processing when the sound field processing or frequency characteristic processing of the amplifier device is changed during playback of the audio data of the song. A learning procedure for registering the parameter in the rule table in association with the attribute information of the audio data being reproduced is executed. If the sound field processing or frequency characteristic processing of the amplifier device is changed during playback of the audio data of the song, the elapsed playback time of the audio data of the song until this change is determined as the processing start time. A learning procedure for registering the DSP program parameter indicating the changed process, the determined process start time, and the attribute information of the audio data being played back in association with each other in the rule table may be executed.
  In one configuration example of the recording / playback method of the present invention, the attribute information of the audio data of the song includes song information for identifying the song, album information for identifying the album, artist information for identifying the artist, and a genre for identifying the genre. It contains information.
  In one configuration example of the recording / playback method of the present invention, the attribute information of the audio data of the song includes compression method information indicating a compression method when the audio data is recorded in the recording means..
[0007]
  Further, the recording / reproducing apparatus of the present invention comprises a recording means capable of recording / reproducing audio data, an attribute information recording means for recording attribute information of audio data of a song recorded in the recording means in the recording means, and execution A rule table creating means for creating a rule table in which a DSP program parameter for designating a sound field process or a frequency characteristic process to be performed to a digital signal processor (DSP) of an amplifier device is associated with the attribute information; and the recording means At the time of reproduction for outputting the audio data read out from the apparatus to the amplifier apparatus currently connected to the own apparatus, the attribute information of the audio data of the music to be reproduced is acquired from the recording means, and the DSP program parameter corresponding to the attribute information DSP program parameter acquisition means for acquiring the rule table from the rule table, and creation of the rule table Means for setting the DSP program parameter acquired from the rule table as a DSP program parameter after completion of the acquisition process when the model of the amplifier device currently connected to the recording device and the recording / playback device matches When the DSP program correspondence table in which the DSP program parameters of a plurality of types of amplifier devices are associated, and the amplifier device currently connected to the recording / playback device and the amplifier device that is the control target at the time of creating the rule table are different, The DSP program parameters obtained from the rule table and the DSP program parameters corresponding to the amplifier device currently connected to the recording / playback apparatus are obtained from the DSP program correspondence table, and the DSP program parameters obtained from the DSP program correspondence table are obtained. Means for setting a ram parameter as a DSP program parameter after completion of the acquisition process, and DSP program parameter setting means for setting the DSP program parameter after completion of the acquisition process in the DSP of the amplifier apparatus currently connected to the own apparatus It is.
  Further, the recording / reproducing apparatus of the present invention comprises a recording means capable of recording / reproducing audio data, an attribute information recording means for recording attribute information of audio data of a song recorded in the recording means in the recording means, and execution Rule table associating DSP program parameters that specify sound field processing or frequency characteristic processing to be performed with respect to a digital signal processor (DSP) of an amplifier device, processing start time that specifies the start time of the processing, and the attribute information Corresponding to the attribute information of the audio data of the song to be played back, and the rule table creating means for creating the audio data read from the recording means to the amplifier device currently connected to the device, A DSP program parameter corresponding to the processing start time that matches the elapsed playback time of the audio data is acquired from the rule table. A DSP program parameter acquisition unit,The DSP program parameter obtained from the DSP table obtained from the rule table after completion of the obtaining process when the model of the amplifier device currently connected to the recording / playback device coincides with the amplifier device that was the control target when the rule table was created A DSP program correspondence table in which DSP program parameters of a plurality of types of amplifier devices are associated with each other, and a model of an amplifier device that is currently connected to the amplifier device and the recording / playback device to be controlled when the rule table is created Are different from each other, the DSP program parameter corresponding to the DSP program parameter obtained from the rule table and the amplifier device currently connected to the recording / playback device is obtained from the DSP program correspondence table, and the DSP program correspondence table is obtained. It means for the DSP program parameters after the acquisition process terminates DSP program parameters obtained from, after the acquisition process terminatesDSP program parameter setting means for setting the DSP program parameter in the DSP of the amplifier apparatus currently connected to the own apparatus.
  The DSP program parameter acquisition means associates DSP program parameters of each model of the amplifier device when the model of the amplifier device to be controlled at the time of creation of the rule table is different from the model of the amplifier device at the time of reproduction. A DSP program parameter corresponding to the DSP program parameter obtained from the rule table and corresponding to the amplifier device at the time of reproduction is obtained from the DSP program correspondence table, and the DSP program parameter is passed to the DSP program parameter setting means. It may be.
[0008]
  Also, one configuration example of the recording / playback apparatus according to the present invention is a DSP program that indicates the changed processing when the sound field processing or frequency characteristic processing of the amplifier device is changed during playback of the sound data of the song. Learning means for registering parameters in the rule table in association with attribute information of the audio data being reproduced is provided. If the sound field processing or frequency characteristic processing of the amplifier device is changed during playback of the audio data of the song, the learning means starts processing the elapsed playback time of the audio data of the song until the change. The DSP program parameter indicating the changed process, the determined process start time, and the attribute information of the audio data being reproduced may be associated with each other and registered in the rule table.
  In one configuration example of the recording / playback apparatus of the present invention, the attribute information of the audio data of the song includes song information for identifying the song, album information for identifying the album, artist information for identifying the artist, and a genre for identifying the genre. It contains information.
  In one configuration example of the recording / reproducing apparatus of the present invention, the attribute information of the audio data of the song includes compression method information indicating a compression method used when the audio data is recorded in the recording means..
[0009]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a recording / playback system according to the first embodiment of the present invention. The recording / playback system according to the present embodiment includes a recording / playback device 1 having a function of acquiring a status from an amplifier device and a control function for the amplifier device, and an amplifier device 21 capable of controlling sound field processing or frequency characteristic processing from the outside. And a speaker 31 driven by the amplifier device 21.
[0010]
The recording / reproducing apparatus 1 includes a CD drive device 2, recording means 3 such as a hard disk or a memory capable of recording / reproducing audio data, audio data recording means 4 for recording audio data in the recording means 3, and song attribute information. Is recorded in the recording means 3 in association with audio data in units of music, and the sound field processing or frequency characteristic processing to be executed is performed on the digital signal processor (hereinafter referred to as DSP) of the amplifier device 21. A rule table creation means 6 for creating a rule table in which DSP program parameters to be specified and song attribute information are associated with each other, a reproduction means 7 for reading audio data from the recording means 3 at the time of reproduction, and an audio data to be reproduced The attribute information is acquired from the recording means 3, and the DSP program parameter corresponding to the attribute information is acquired from the rule table. P program parameter acquisition means 8, input means 9 for the user to give instructions to the recording / playback apparatus 1, display means 10 for presenting information to the user, and network interface means for connecting to the Internet ( NI) 11, control means 12 for controlling the entire recording / reproducing apparatus and the amplifier apparatus 21, and communication interface means 13 for performing bidirectional communication with the amplifier apparatus 21.
The rule table creation means 6 serves as learning means for learning the rule table during reproduction. The control unit 12 serves as a DSP program parameter setting unit that sets a DSP program parameter in the DSP of the amplifier device 21.
[0011]
The amplifier device 21 includes an input selector 22 that selects a desired sound input from a plurality of sound sources, a DSP 23 that performs sound field processing or frequency characteristic processing on the sound data output from the input selector 22, and an output from the DSP 23. A power amplifier 24 that amplifies the analog audio signal, a communication interface means 25 for performing bidirectional communication with the recording / reproducing apparatus 1, a storage means 26, and a control means 27 for controlling the entire amplifier apparatus. Yes. An example of a communication protocol between the communication interface means 13 and 25 is RS-232C. Hereinafter, the sound field processing and frequency characteristic processing of the DSP 23 are collectively referred to as effect processing.
[0012]
Hereinafter, the recording operation of the recording / reproducing apparatus 1 of FIG. 1 will be described. FIG. 2 is a flowchart showing the recording operation of the recording / reproducing apparatus 1. First, a user inserts a CD into the CD drive device 2 and operates the input means 9 to request the recording means 3 to record the CD. The control means 12 controls the audio data recording means 4 in response to a user request, and the audio data recording means 4 reads the audio data from the CD inserted in the CD drive device 2 and records it in the recording means 3 (FIG. 2 step S1). The process of step S1 is performed for each song until the recording of the song designated by the user (all songs on the CD or a part thereof) is completed (YES in step S2).
Next, the attribute information recording means 5 registers the song attribute information in the attribute information database of the recording means 3 in association with the song-unit audio data recorded in step S1 (step S3). The song attribute information includes song information, artist information, album information, and genre information.
The song information includes a song ID that is a unique number for identifying the song and a song name. The album information includes an album ID, which is a unique number for identifying the album, and an album name. The artist information includes an artist ID that is a unique number for identifying the artist and an artist name. The genre information includes a genre ID that is a unique number for identifying the genre and a genre name.
[0013]
FIG. 3 is a diagram illustrating an example of a correspondence relationship between each piece of attribute information of song information, artist information, album information, and genre information registered in the attribute information database. The attribute information database is constructed according to the following rules.
(A) Audio data and music information in units of music correspond one-to-one.
(B) There is only one album information corresponding to song information (a song belongs to one album).
(C) There is only one piece of artist information corresponding to album information (album belongs to one artist. However, in the case of an omnibus album of a plurality of artists, there is also one belonging to a plurality of artists).
(D) There is only one genre information corresponding to album information (an album belongs to one genre).
For example, if the song with the song ID “m1” belongs to the album with the album ID “a1”, and this album belongs to the artist with the artist ID “r1” and the genre with the genre ID “j1”, the correspondence relationship 100 shown in FIG. Is registered in the attribute information database. In this way, the correspondence between each attribute information is registered in the attribute information database.
[0014]
The attribute information (song title, album name, artist name, genre name) of the song is stored in the music CD information data server on the Internet by the control means 12 via the network interface means 11 when the CD is inserted into the CD drive device 2. Can be obtained by accessing The control means 12 passes the attribute information acquired from the music CD information data server to the attribute information recording means 5.
The attribute information recording means 5 assigns the song ID, album ID, artist ID, and genre ID to the song name, album name, artist name, and genre name received from the control means 12, and registers them in the attribute information database of the recording means 3. To do. The user may operate the input unit 9 to input the attribute information of the song, and the attribute information recording unit 5 may record the input attribute information in the attribute information database.
[0015]
Next, the rule table creation means 6 sets the song attribute information, the DSP program parameters for designating the effect processing to be executed to the DSP 23 mounted on the amplifier device 21 to be controlled, and the amplifier device 21 to be controlled. A rule table is created on the recording means 3 in association with the model ID, which is a unique number for identification (step S4).
FIG. 4 is a diagram showing an example of the rule table. The rule table includes a song rule table 101 in which song information (song ID), a DSP program parameter, and a model ID are associated with each other, and an album rule table in which album information (album ID), a DSP program parameter, and a model ID are associated with each other. 102, an artist rule table 103 that associates artist information (artist ID), a DSP program parameter, and a model ID, and a genre rule table 104 that associates genre information (genre ID), a DSP program parameter, and a model ID. There are four. Details of the DSP program parameters illustrated in FIG. 4 will be described later.
[0016]
The user operates the input means 9 to select a desired song from the attribute information database, and the effect process to be executed during the reproduction of this song is the effect process that can be executed by the amplifier device 21 to be controlled. Select from. The rule table creation means 6 registers the song ID of the selected song and the DSP program parameter of the selected effect processing in the song rule table 101 in association with the model ID of the amplifier device 21 to be controlled. A method for acquiring the model ID will be described later.
Further, the user operates the input means 9 to select a desired album from the attribute information database, and the amplifier device 21 to be controlled can execute effect processing to be executed during the reproduction of the music belonging to this album. Select from various effect processing. The rule table creating means 6 registers the album ID of the selected album and the DSP program parameter of the selected effect processing in the album rule table 102 in association with the model ID of the amplifier device 21 to be controlled.
In addition, the user operates the input unit 9 to select a desired artist from the attribute information database, and the amplifier device 21 to be controlled can execute effect processing to be executed during the reproduction of a song belonging to this artist. Select from various effect processing. The rule table creation means 6 registers the artist ID of the selected artist and the DSP program parameter of the selected effect processing in the artist rule table 103 in association with the model ID of the amplifier device 21 to be controlled.
Further, the user operates the input means 9 to select a desired genre from the attribute information database, and the amplifier device 21 to be controlled can execute effect processing to be executed during playback of a song belonging to this genre. Select from various effect processing. The rule table creation means 6 registers the genre ID of the selected genre and the DSP program parameter of the selected effect processing in the genre rule table 104 in association with the model ID of the amplifier device 21 to be controlled.
[0017]
Each rule table has a high priority in the order of the song rule table 101, the album rule table 102, the artist rule table 103, and the genre rule table 104. If a rule table is necessary, the rule tables are referred to in the order of high priority. Note that it is not necessary to register DSP program parameters for all songs, albums, artists, and genres in the attribute information database, and there may be songs, albums, artists, and genres for which corresponding DSP program parameters are not registered.
In addition, the genre names provided by the music CD information data server are not innumerable, but are known names. Therefore, a default genre rule table 104 is created by associating a known genre with a DSP program parameter suitable for this genre. The default genre rule table 104 may be created and recorded in advance in the recording means 3 at the time of factory shipment, for example. By registering the default genre rule table 104, the user's registration work can be reduced.
[0018]
Next, the operation at the time of reproduction of the recording / reproducing apparatus 1 will be described. FIG. 5 is a flowchart showing the operation of the recording / playback apparatus 1 during playback. First, the user operates the input means 9 of the recording / playback apparatus 1 to select a song to be played, and requests playback of the selected song (step S11 in FIG. 5).
In order to select a song to be played, the user directly designates a desired song and creates a playlist, or designates a desired album, artist or genre. When the user designates an album, an artist, or a genre, the control unit 12 refers to the attribute information of the song recorded in the recording unit 3 through the reproduction unit 7, and selects a song name corresponding to the album, artist, or genre designated by the user. It is displayed on the display means 10. The user selects all or a part of the music displayed on the display means 10 with the input means 9.
[0019]
Next, the control means 12 of the recording / reproducing apparatus 1 checks whether or not the input selector 22 of the amplifier device 21 to be controlled has selected the own apparatus (recording / reproducing apparatus 1) (step S12). Whether or not the input selector 22 has selected the recording / reproducing apparatus 1 can be determined based on the status acquired from the amplifier apparatus 21. 6A is a diagram showing a format of a control command sent from the recording / playback apparatus 1, and FIG. 6B is a diagram showing a format of a message sent from the amplifier device 21 in response to the status acquisition command.
[0020]
As shown in FIG. 6A, the control command sent from the recording / playback apparatus 1 includes, for example, a 1-byte STX delimiter 201 indicating the start of the control command, and a command field storing a value indicating the type of the control command. 202, an option field 203 in which an argument of the control command is stored, and a 1-byte ETX delimiter 204 indicating the end of the control command.
The control command is a status acquisition command for acquiring the status of the amplifier device 21 when the value of the command field 202 is “1”, for example. When the value of the field is “4”, for example, the effect processing of the DSP 23 of the amplifier device 21 is performed. This is an effect on / off command for turning on or off, and when the value of the field is “5”, for example, it is a DSP program parameter setting command for setting a DSP program parameter for the DSP 23.
In the case of the effect on / off command for turning on the effect processing of the DSP 23, “1” is stored in the option field 203, and in the case of turning off the effect processing, “0” is stored in the option field 203.
[0021]
In the case of a DSP program parameter setting command, a DSP program code corresponding to a DSP program parameter set from the recording / playback apparatus 1 to the amplifier apparatus 21 is stored in the option field 203. The recording means 3 of the recording / playback apparatus 1 stores in advance a DSP program code table 105 as shown in FIG. 7 in which DSP program codes common to all models of the amplifier device 21 are associated with DSP program parameters of each model. Yes.
On the other hand, the storage unit 26 of the amplifier device 21 stores in advance a DSP program code table 106 as shown in FIG. 8 in which the DSP program code and the DSP program parameters of the own device are associated with each other. In the example of FIG. 8, as an example of the DSP program code table 106, the table 106 of the amplifier device 21 with the model ID “1” is illustrated.
[0022]
The correspondence relationship between the DSP program code and the DSP program parameter is determined for each model of the amplifier device 21. For example, in the amplifier device 21 whose model ID is “1”, the DSP program code “0” is the DSP program parameter “HALL A”. In the amplifier device 21 with the model ID “2”, the DSP program code “1” corresponds to the DSP program parameter “CHURCH”.
When the DSP program parameters “HALL A” and “HALL B” are set, the DSP 23 of the amplifier device 21 having the model ID “1” performs sound field processing for reproducing the sound field of a predetermined concert hall. The same applies when the DSP program parameter “HALL” is set in the amplifier device 21 of the model ID “2”.
When the DSP program parameters “CHURCH A” and “CHURCH B” are set, the DSP 23 of the amplifier device 21 having the model ID “1” performs sound field processing for reproducing the sound field of a predetermined church. The same applies when the DSP program parameter “CHURCH” is set in the amplifier device 21 of the model ID “2”.
When the DSP program parameter “JAZZ” is set, the DSP 23 of the amplifier device 21 with the model IDs “1” and “2” performs sound field processing to reproduce the sound field of the live house, and the amplifier with the model ID “1”. When the DSP program parameter “ROCK” is set, the DSP 23 of the device 21 performs sound field processing for reproducing the sound field of the rock concert.
When the DSP program parameter “SCI-FI” is set, the DSP 23 of the amplifier device 21 having the model IDs “1” and “2” reproduces a sound field suitable for a movie using special effect shooting. If the DSP program parameter “ADVENTURE” is set, sound field processing is performed to reproduce the sound field that separates dialogue, music, and sound effects, and if the DSP program parameter “GENERAL” is set, Sound field processing that reproduces the sound field suitable for a movie with a realistic depiction.
[0023]
As shown in FIG. 6B, the message transmitted from the amplifier device 21 indicates the STX delimiter 301 indicating the start of the message, the model ID field 302 in which the model ID is stored, and the current state of the input selector 22. An input selector field 303 in which an input code to be stored is stored, an effect on / off field 304 in which an effect status indicating whether the DSP 23 is executing an effect process is stored, and a DSP program indicating an effect process being executed by the DSP 23 It comprises a DSP program field 305 in which a code is stored, and an ETX delimiter 306 indicating the end of the message.
[0024]
The recording means 3 of the recording / reproducing apparatus 1 stores in advance an input code table 107 as shown in FIG. 9 in which input codes common to all models of the amplifier device 21 are associated with input terminals of each model. On the other hand, the storage means 26 of the amplifier device 21 stores in advance an input code table 108 as shown in FIG. 10 in which input codes are associated with input terminals of the own device. In the example of FIG. 10, as an example of the input code table 108, the table 108 of the amplifier device 21 with the model ID “1” is illustrated.
The correspondence between the input code and the input terminal of the amplifier device 21 is determined for each model. For example, in the amplifier device 21 with the model IDs “1” and “2”, the input code “0” ”Indicates that the input terminal is selected, and in the amplifier device 21 with the model ID“ 1 ”, the input code“ 6 ”indicates that the input selector 22 selects the“ V-AUX ”input terminal. .
[0025]
The effect on / off field 304 stores the effect status “1” when the DSP 23 is executing the effect processing, and stores the effect status “0” when the effect processing is not being performed.
[0026]
The DSP program code stored in the DSP program field 305 is as described in Table 1. For example, in the amplifier device 21 with the model ID “1”, when the DSP 23 is executing the sound field processing of the DSP program parameter “HALL A”, the DSP program code stored in the DSP program field 305 is “0”.
[0027]
The control means 12 of the recording / playback apparatus 1 periodically transmits a status acquisition command to the amplifier apparatus 21 via the communication interface means 13 in order to confirm the state of the amplifier apparatus 21.
When receiving the status acquisition command via the communication interface unit 25, the control unit 27 of the amplifier device 21 responds to the model ID of the own device, the input code indicating the current state of the input selector 22, and the current operation of the DSP 23. The message storing the effect status and the DSP program code indicating the effect process being executed is returned to the recording / reproducing apparatus 1 via the communication interface means 25.
The control means 27 determines an input code corresponding to the input terminal selected by the input selector 22 based on the input code table 108 of the storage means 26, and selects a DSP program code corresponding to the DSP program parameter set in the DSP 23. The determination is made based on the DSP program code table 106 of the storage means 26.
[0028]
The control unit 12 of the recording / playback apparatus 1 acquires the model ID from the model ID field 302 of the message received via the communication interface unit 13. In this way, the model ID of the amplifier device 21 to be controlled that is currently connected to the recording / reproducing apparatus 1 can be acquired.
Then, the control means 12 acquires the input code from the input selector field 303 of the received message, and confirms whether or not the input selector 22 of the amplifier device 21 has selected its own device (recording / playback device 1) (step in FIG. 5). S12).
In the example of FIGS. 9 and 10, there is no input code corresponding to the recording / playback apparatus. However, if the audio output of the recording / playback apparatus 1 is connected to the “V-AUX” input terminal of the amplifier device 21, for example, “V-AUX” may be registered in the control means 12 as an input terminal for the recording / reproducing apparatus 1.
Thereby, when the control means 12 acquires the model ID and the input code from the received message, if the input terminal corresponding to the model ID and the input code is “V-AUX” on the input code table 107, the amplifier When it is determined that the input selector 22 of the device 21 has selected its own device and the corresponding input terminal is not “V-AUX”, it can be determined that the input selector 22 has not selected its own device. .
[0029]
When the input selector 22 selects the own device in step S12, the control means 12 acquires a DSP program parameter corresponding to the attribute information of the music to be reproduced (hereinafter referred to as the music with the music ID “m”). The DSP program parameter acquisition means 8 is instructed (step S13). FIG. 11 is a flowchart showing details of the DSP program parameter acquisition processing.
[0030]
In the DSP program parameter acquisition processing, the DSP program parameter acquisition means 8 refers to the rule table of the recording means 3, and as described above, the song rule table 101, album rule table 102, artist rule table 103, and genre rule table 104. Each rule table is referred to in descending order of priority.
First, the DSP program parameter acquisition unit 8 refers to the song rule table 101 having the highest priority to check whether the DSP program parameter corresponding to the song with the song ID “m” is registered (step in FIG. 11). S101) When the DSP program parameter corresponding to the song with the song ID “m” is registered, the DSP program parameter is acquired (step S102).
Subsequently, the DSP program parameter acquisition means 8 acquires the model ID corresponding to the acquired DSP program parameter from the song rule table 101, and from this model ID and the message of the amplifier device 21 currently connected to the recording / reproducing apparatus 1. The acquired model ID is compared (step S103).
The DSP program parameter acquisition unit 8 determines that the model ID matches, that is, the amplifier device 21 when the DSP program parameter is registered in the music rule table 101 matches the currently connected amplifier device 21 (in step S103). YES), it is determined that the acquisition of the DSP program parameters is completed, and the DSP program parameter acquisition process is terminated.
[0031]
On the other hand, if the model IDs do not match, the DSP program parameter acquisition unit 8 refers to the DSP program correspondence table 109 as shown in FIG. The DSP program correspondence table 109 is a table in which a large classification of DSP program parameters including the same type of DSP program parameters is associated with the DSP program parameters of each model of the amplifier device 21.
[0032]
The DSP program parameter acquisition means 8 refers to the DSP program correspondence table 109 and the amplifier device to which the DSP program parameter corresponding to the model ID and the DSP program parameter acquired from the song rule table 101 on a one-to-one basis is currently connected. 21 is prepared (step S104), and if there is a corresponding DSP program parameter, the DSP program parameter is acquired instead of the DSP program parameter in step S102, and the DSP program parameter acquisition process is terminated. (Step S105).
For example, if the model ID acquired from the song rule table 101 is “2” and the DSP program parameter is “HALL”, the model ID does not match if the model ID of the currently connected amplifier device 21 is “1”. . At this time, the DSP program parameter acquisition means 8 acquires the DSP program parameter “HALL A” of the model ID “1” as the DSP program parameter corresponding to the DSP program parameter “HALL” of the model ID “2” on a one-to-one basis. To do.
[0033]
When there is no DSP program parameter corresponding to the model ID and the DSP program parameter acquired from the song rule table 101 on a one-to-one basis, the DSP program parameter acquisition unit 8 uses the DSP program correspondence table for the currently connected amplifier device 21. Among the DSP program parameters registered in 109, the DSP program parameters belonging to the same type as the DSP program parameters acquired from the song rule table 101 are acquired instead of the DSP program parameters in step S102, and the DSP program parameters are acquired. The process ends (step S106).
For example, when the model ID acquired from the song rule table 101 is “2” and the DSP program parameter is “CHURCH”, the DSP program parameter corresponding to this “CHURCH” on a one-to-one basis is the amplifier device with the model ID “1”. 21 does not exist. Therefore, the DSP program parameter acquisition unit 8 belongs to the same large classification “CHURCH system” as the DSP program parameter “CHURCH” among the DSP program parameters prepared for the amplifier device 21 having the model ID “1”. The DSP program parameter “CHURCH A” is acquired as a substitutable DSP program parameter.
When there are a plurality of DSP program parameters belonging to the same type of major classification, such as “CHURCH A” and “CHURCH B”, a representative DSP program parameter (usually, among these DSP program parameters) The first DSP program parameter of the major category) is acquired.
[0034]
In step S101, when the DSP program parameter corresponding to the song with the song ID “m” is not registered in the song rule table 101, the DSP program parameter obtaining unit 8 refers to the attribute information database of the recording unit 3 to Album information corresponding to the song with ID “m” (hereinafter referred to as album information with album ID “a”) is acquired (step S107).
Subsequently, the DSP program parameter acquisition unit 8 refers to the album rule table 102 having the second highest priority, and confirms whether or not the DSP program parameter corresponding to the album information of the album ID “a” is registered (step S108) If a DSP program parameter corresponding to the album information is registered, the DSP program parameter is acquired (step S102). Subsequently, the process of step S103 described above is performed.
[0035]
In step S108, when the DSP program parameter corresponding to the album information of the album ID “a” is not registered in the album rule table 102, the DSP program parameter obtaining unit 8 refers to the attribute information database of the recording unit 3 and The artist information corresponding to the album information with the album ID “a” (hereinafter referred to as artist information with the artist ID “r”) is acquired (step S109).
Subsequently, the DSP program parameter acquisition unit 8 refers to the artist rule table 103 having the third highest priority, and confirms whether the DSP program parameter corresponding to the artist information of the artist ID “r” is registered ( If a DSP program parameter corresponding to the artist information is registered (step S110), the DSP program parameter is acquired (step S102), and the process proceeds to step S103 already described.
[0036]
In step S110, when the DSP program parameter corresponding to the artist information of the artist ID “r” is not registered in the artist rule table 103, the DSP program parameter obtaining unit 8 refers to the attribute information database of the recording unit 3, Genre information corresponding to the album information with the album ID “a” (hereinafter referred to as genre information with the genre ID “j”) is acquired (step S111).
[0037]
Subsequently, the DSP program parameter acquisition unit 8 refers to the genre rule table 104 having the lowest priority to check whether the DSP program parameter corresponding to the genre information of the genre ID “j” is registered (step S112). ) If the DSP program parameter corresponding to the genre information is registered, the DSP program parameter is acquired (step S102), and the process proceeds to step S103 already described.
[0038]
In step S112, when the DSP program parameter corresponding to the genre information of the genre ID “j” is not registered in the genre rule table 104, the DSP program parameter obtaining unit 8 selects the DSP program parameter corresponding to the attribute information of the reproduction target song. The DSP program parameter acquisition process is terminated.
[0039]
After completion of the DSP program parameter acquisition process, the control means 12 sets the DSP program parameter for the amplifier device 21 (step S14 in FIG. 5). FIG. 13 is a flowchart showing details of the DSP program parameter setting process.
First, the control unit 12 determines whether the DSP program parameter acquisition unit 8 has acquired the DSP program parameter (step S201 in FIG. 13). If the DSP program parameter is acquired in either step S105 or S106 instead of step S102 in FIG. 11 or step S102, the determination is YES.
[0040]
When the DSP program parameter can be acquired, the control unit 12 determines whether the DSP program parameter received from the DSP program parameter acquisition unit 8 is “OFF” (step S202). When the DSP program parameter is “OFF”, the control means 12 sends an effect on / off command storing “0” in the option field 203 via the communication interface means 13 in order to turn off the effect processing of the amplifier device 21. It transmits to the amplifier device 21 (step S203).
The control means 27 of the amplifier apparatus 21 that has received the effect on / off command via the communication interface means 25 sets the DSP program parameter “OFF” in the DSP 23 when the option field 203 of the effect on / off command is “0”. (Step S204).
[0041]
On the other hand, when the acquired DSP program parameter is not “OFF”, the control unit 12 sends an effect on / off command storing “1” in the option field 203 to turn on the effect processing of the amplifier device 21. (Step S205).
Subsequently, the control unit 12 acquires a DSP program code corresponding to the model ID of the amplifier device 21 currently connected to the recording / reproducing apparatus 1 and the acquired DSP program parameter from the DSP program code table 105 of the recording unit 3. The acquired DSP program code is stored in the option field 203 of the DSP program parameter setting command, and this DSP program parameter setting command is transmitted to the amplifier device 21 (step S206).
[0042]
The control means 27 of the amplifier device 21 that has received the DSP program parameter setting command via the communication interface means 25 acquires the DSP program code from the option field 203 of the DSP program parameter setting command, and the DSP corresponding to this DSP program code. Program parameters are acquired from the DSP program code table 106 of the storage means 26, and the acquired DSP program parameters are set in the DSP 23 (step S207). This is the end of the DSP program parameter setting process.
Needless to say, if the DSP program parameters cannot be acquired (NO in step S201), the processing is ended without setting the DSP program parameters.
[0043]
Next, the control means 12 instructs the playback means 7 to play the song with the song ID “m”, and the playback means 7 records the sound data corresponding to the song ID “m” according to the command of the control means 12. 3 is output to the amplifier device 21 (step S15 in FIG. 5).
[0044]
The audio data output from the recording / reproducing apparatus 1 is input to the DSP 23 through the input selector 22. The DSP 23 performs effect processing on the input audio data according to the set DSP program parameters, converts the audio data subjected to the effect processing into an analog audio signal, and outputs the analog audio signal. The analog audio signal output from the DSP 23 is amplified by the power amplifier 24 and output to the speaker 31. If the input selector 22 of the currently connected amplifier device 21 does not select the recording / playback device 1 (NO in step S12), the control means 12 performs the DSP program parameter acquisition process in step S13 and the DSP in step S14. Does not execute the program parameter setting process. However, the reproduction process of step S15 is continued unless the user separately instructs the reproduction stop.
[0045]
Next, the user can select the recording / reproducing apparatus 1 by operating the input selector 22 in a state where the input selector 22 of the amplifier device 21 does not select the recording / reproducing apparatus 1 during the reproduction of the music. . As described above, the control unit 12 of the recording / playback apparatus 1 periodically transmits a status acquisition command to the amplifier apparatus 21 and receives a message returned from the amplifier apparatus 21 in response thereto. When the user operates the input selector 22 during the reproduction of the music, the input code in the message periodically sent from the amplifier device 21 changes.
When the input code in the message received from the amplifier device 21 changes during playback of the song, the control means 12 acquires from the input code table 107 the model ID acquired from this message and the type of the input terminal corresponding to the input code. To do.
If this input terminal corresponds to the recording / reproducing apparatus 1, the control means 12 determines that the input selector 22 has switched the selection from another sound source to the recording / reproducing apparatus 1 (YES in step S16), and step S13. The same DSP program parameter acquisition process (step S17) and the same DSP program parameter setting process (step S18) as step S14 are executed.
[0046]
Further, the user can manually change the effect processing of the amplifier device 21 during the reproduction of the music. When the user changes the effect processing of the amplifier device 21 during the reproduction of the music, the DSP program code in the message periodically sent from the amplifier device 21 changes.
When the DSP program code in the message received from the amplifier device 21 changes during playback of the music piece, the control means 12 determines that the effect processing of the amplifier device 21 has changed (YES in step S19), and the received message. DSP program parameters corresponding to the model ID and DSP program code acquired from the above are acquired from the DSP program code table 105.
Then, the control unit 12 passes the song ID “m” of the song being reproduced, the DSP program parameter acquired based on the message from the amplifier device 21, and the model ID acquired from the message to the rule table creation unit 6. . The rule table creation unit 6 registers the song ID, DSP program parameter, and model ID received from the control unit 12 in the song rule table 101 in association with each other (step S20). If the DSP program parameter and model ID corresponding to the song ID “m” have already been registered, these are updated. Thus, automatic learning of the music rule table 101 can be performed in accordance with the user's operation.
[0047]
Until the reproduction of the song with the song ID “m” is completed (YES in step S21), the processes in steps S16 to S21 are repeated. After the reproduction is completed, the control means 12 determines whether or not all the music pieces to be reproduced have been reproduced (step S22). If all the music pieces have not been reproduced, the process returns to step S12 to reproduce the next music piece. In this way, the processing of steps S12 to S22 is performed for each song.
As described above, in this embodiment, the effect processing of the DSP 23 of the amplifier device 21 can be controlled according to the song attribute information, and the user does not need to change the setting of the DSP 23 for each song.
[0048]
[Second Embodiment]
FIG. 14 is a diagram showing a configuration of the music rule table 101a according to the second embodiment of the present invention. In the first embodiment, one DSP program parameter is registered for one song (song ID). However, a plurality of DSP program parameters may be registered for one song ID. .
The song rule table 101a of the present embodiment associates a song ID, a processing start time for designating the start time of the sound field processing or frequency characteristic processing of the DSP 23, a DSP program parameter, and a model ID. Also in this embodiment, the configuration of the recording / playback system is the same as that of the first embodiment, and therefore, description will be made using the reference numerals in FIG.
[0049]
The recording operation of the recording / reproducing apparatus 1 is almost the same as that of the first embodiment, but the operation is different when the rule table creating means 6 creates the music rule table 101a in the recording means 3.
The user operates the input means 9 of the recording / playback device 1 to select a desired song from the attribute information database, and the amplifier device 21 to be controlled can execute the effect processing to be executed during playback of this song. The effect start time (the time from the beginning of the song) to be executed is selected.
The rule table creation unit 6 associates the song ID of the selected song, the designated processing start time, and the DSP program parameter of the selected effect processing with the model ID of the amplifier device 21 to be controlled, and the song rule table 101. (Step S4 in FIG. 2).
In the music rule table 101a that is first created by the rule table creating means 6, there may be a music for which no DSP program parameter is registered, and the processing start time is 0 minute 00 seconds (“0:00”). Only the DSP program parameters may be registered.
[0050]
FIG. 15 is a flowchart showing the operation during playback of the recording / playback apparatus 1 of the present embodiment. The same processes as those in FIG. The processes in steps S11 and S12 are the same as those in the first embodiment. The DSP program parameter acquisition processing in step S13a is almost the same as step S13 in the first embodiment, except that the DSP program parameters corresponding to the music to be played are registered in the music rule table 101a of the recording means 3. If so (YES in step S101 in FIG. 11), the DSP program parameter whose processing start time is “0:00” is acquired from the song rule table 101a in step S102.
Steps S14 to S16 and S18 are the same as those in the first embodiment, and step S17a is the same as step S13a. Next, the DSP program parameter acquisition means 8 of the recording / playback apparatus 1 stores a DSP program parameter corresponding to the song (song ID) being played back in the song rule table 101a and corresponding to a processing start time longer than 0:00. Is registered, when the elapsed playback time of the song matches the processing start time of the song rule table 101a (YES in step S23), the DSP program parameter corresponding to the matched time is acquired from the song rule table 101a. To the control means 12. The control means 12 executes a DSP program parameter setting process (step S24). The process of step S24 is the same as step S14.
For example, in the example of FIG. 14, when a song with the song ID “1” is reproduced, first, the DSP program parameter “SCI-FI” corresponding to the processing start time 0 minutes 00 seconds is set in the amplifier device 21. Next, when the playback elapsed time reaches 2 minutes 30 seconds, the DSP program parameter is set to “OFF”, and when the playback elapsed time reaches 4 minutes 10 seconds, the DSP program parameter “GENERAL” is set. Thus, it is possible to reproduce the music while changing the effect processing according to the elapsed reproduction time.
[0051]
Next, if there is a change in the effect processing of the amplifier device 21 during playback of a song (YES in step S19), the control means 12 of the recording / playback device 1 plays back from the playback start time of this song to the current time. The time is determined as the process start time, and the song ID of the song being played, the determined process start time, the DSP program parameter acquired based on the message of the amplifier device 21, and the model ID acquired from the message are rules It is passed to the table creation means 6.
The rule table creation means 6 registers the song ID, processing start time, DSP program parameter, and model ID received from the control means 12 in the song rule table 101a in association with each other (step S20a). Steps S21 and S22 are the same as those in the first embodiment.
[0052]
Thus, automatic learning can be performed in which the elapsed playback time when the user changes the effect processing and the changed DSP program parameters are registered in the music rule table 101a.
[0053]
[Third Embodiment]
FIG. 16 is a block diagram showing the configuration of a recording / playback system according to the third embodiment of the present invention. The same components as those in FIG. 1 are denoted by the same reference numerals. The recording / reproducing apparatus 1a according to the present embodiment includes a CD drive device 2, a recording unit 3, an audio data recording unit 4a that compresses audio data and records it in the recording unit 3, and compression method information as song attribute information. Obtaining attribute information including attribute information recording means 5a to be recorded in the recording means 3, reproduction means 7a for decompressing and outputting the compressed audio data read from the recording means 3, and compression method information of the music to be reproduced; DSP program parameter acquisition means 8a for acquiring DSP program parameters corresponding to the attribute information from the rule table, input means 9, display means 10, network interface means 11, control means 12a, and communication interface means 13 Have.
[0054]
Since the recording operation of the recording / reproducing apparatus 1a is almost the same as that of the recording / reproducing apparatus 1, the operation during recording will be described with reference to FIG. A user inserts a CD into the CD drive device 2 and operates the input unit 9 to request the recording unit 3 to record the CD after compressing the CD with a desired compression method. The control means 12 controls the audio data recording means 4a in response to a user request. The audio data recording unit 4 a has an encoder 41 inside, and delivers uncompressed audio data read from the CD to the encoder 41. The encoder 41 compresses uncompressed audio data by a compression method designated by the user. Then, the audio data recording unit 4a records the audio data compressed by the encoder 41 on the recording unit 3 (step S1 in FIG. 2).
[0055]
Next, the attribute information recording unit 5a registers the song attribute information in the attribute information database of the recording unit 3 in association with the song-unit audio data recorded in step S1 (step S3). The attribute information at this time includes compression method information (format, bit rate) indicating the compression method designated by the user and genre information. As described in the first embodiment, genre information can be acquired from a music CD information data server on the Internet.
[0056]
FIG. 17 is a diagram illustrating an example of a correspondence relationship between compression method information and genre information registered in the attribute information database. The attribute information database is constructed according to the following rules.
(E) There is only one compression method information corresponding to a song (a song is compressed with a specific format and bit rate).
(F) There is only one genre information corresponding to a song (a song belongs to one genre).
According to FIG. 17, for example, the song with the song ID “m1” is compressed by the compression method with the format “MP3” and the bit rate “128 kbps” and belongs to the genre with the genre ID “j1”. In this way, the correspondence between each attribute information is registered in the attribute information database.
[0057]
Next, the rule table creation means 6a includes the song attribute information, the DSP program parameters for designating the effect processing to be executed to the DSP 23 mounted on the amplifier device 21 to be controlled, and the amplifier device 21 to be controlled. A rule table in which the model ID is associated is created on the recording means 3 (step S4).
FIG. 18 is a diagram illustrating an example of a rule table. The rule table 110 according to the present embodiment associates a song ID, a format and bit rate as compression method information, genre information (genre ID), a DSP program parameter, and a model ID. In the example of FIG. 18, “Equalize A” and “Equalize B” are DSP program parameters that cause the DSP 23 of the amplifier device 21 to perform frequency characteristic processing for correcting the mid-high frequency component.
[0058]
The user operates the input means 9 to select a desired song from the attribute information database, and the effect process to be executed during the reproduction of this song is the effect process that can be executed by the amplifier device 21 to be controlled. Select from. The rule table creation means 6a acquires the compression method information and genre information corresponding to the selected song (song ID) from the attribute information database, the song ID, the acquired compression method information and genre information, and the selected effect. The DSP program parameter of the process is registered in the rule table 110 in association with the model ID of the amplifier device 21 to be controlled.
The compression methods that can be executed by the encoder 41 of the audio data recording means 4a are known, and the genre name provided by the music CD information data server is also a known name as described above. Therefore, the possible combinations of compression method information and genre information are known, a default rule table is created by associating the known combination with a DSP program parameter suitable for this combination, and this default rule table May be previously recorded in the recording means 3 at the time of factory shipment.
In this case, the rule table creation means 6a acquires the DSP program parameters corresponding to the compression method information and genre information acquired from the attribute information database from the default rule table, and uses the DSP program parameters, the song ID, and the model ID. The rule table 110 is created by accepting the correspondence. By registering the default rule table, the user's registration work can be reduced.
[0059]
Next, since the operation of the recording / reproducing apparatus 1a during reproduction is substantially the same as that of the recording / reproducing apparatus 1, the operation during reproduction will be described with reference to FIG. The processing in steps S11 and S12 is the same as that in the first embodiment. When the input selector 22 of the amplifier device 21 selects the own device (recording / playback device 1a) in step S12, the control means 12a acquires a DSP program parameter corresponding to the attribute information of the song to be played back. The parameter acquisition unit 8a is instructed (step S13). FIG. 19 is a flowchart showing details of the DSP program parameter acquisition processing. The same processing as in FIG. 11 is denoted by the same reference numeral.
[0060]
In the DSP program parameter acquisition process, the DSP program parameter acquisition means 8a acquires compression method information and genre information (genre ID) corresponding to the music to be played (song ID) from the attribute information database. Then, the DSP program parameter acquisition unit 8a refers to the rule table 110 of the recording unit 3 and confirms whether or not a DSP program parameter corresponding to the song ID of the reproduction target song and the acquired compression method information and genre information is registered. (FIG. 19, step S101a).
If the DSP program parameter corresponding to the rule table 110 is registered, the DSP program parameter acquiring unit 8a acquires the DSP program parameter (step S102a). The processing in steps S103 to S106 is the same as that in the first embodiment.
[0061]
The processing in step S14 is the same as that in the first embodiment. Next, the control means 12a instructs the reproduction means 7a to reproduce the music to be reproduced, and the reproduction means 7a reads out the compressed audio data of the music to be reproduced from the recording means 3 in accordance with the command from the control means 12a. The reproduction means 7 a has a decoder 71 inside, and passes the compressed audio data read from the recording means 3 to the decoder 71. The decoder 71 decompresses the compressed audio data. Then, the reproducing means 7a outputs the uncompressed audio data expanded by the decoder 71 to the amplifier device 21 (step S15 in FIG. 5).
Steps S16 and S18 are the same as those in the first embodiment, and step S17 is the same as step S13 described in the present embodiment. Next, the control unit 12a of the recording / reproducing apparatus 1a, when there is a change in the effect processing of the amplifier device 21 during reproduction of the music (YES in step S19), the compression method corresponding to the music (music ID) being reproduced. Information and genre information are acquired from the attribute information database.
Then, the control unit 12a obtains the song ID of the song being played, the acquired compression method information and genre information, the DSP program parameter acquired based on the message from the amplifier device 21, and the model ID acquired from the message. It is passed to the rule table creation means 6a. The rule table creation means 6a registers the song ID, compression method information, genre information, DSP program parameter, and model ID received from the control means 12a in the rule table 110 in association with each other (step S20). If the corresponding DSP program parameter and model ID are already registered, these will be updated. In this way, automatic learning of the rule table 110 can be performed in accordance with a user operation. Steps S21 and S22 are the same as those in the first embodiment.
[0062]
Next, effect processing suitable for compressed audio data will be described. The loss of audio data due to compression depends to some extent on the compression method, and actually depends on the target music signal component and the compression processing algorithm. In other words, it varies depending on how much high frequency components are included in the original music signal, but the tendency is that the lower the bit rate (the higher the compression ratio), the higher the high frequency components contained in the compressed audio data. descend.
[0063]
Therefore, basically, a frequency characteristic process for correcting the middle and high frequency components is appropriately selected according to the degree of data deterioration of the compression method, and a DSP program parameter corresponding to the selected frequency characteristic process is set in the rule table 110. It will be a good thing. Thereby, effect processing suitable for reproduction of compressed audio data can be automatically performed. Actually, only the frequency characteristic processing may be performed according to the combination of the compression method and the genre, or the sound field processing and the frequency characteristic processing may be combined.
[0064]
[Fourth Embodiment]
In the third embodiment, one DSP program parameter is registered for one song (song ID). However, a plurality of DSP programs are assigned to one song ID as in the second embodiment. You may make it register a parameter.
[0065]
In this case, the processing start time may be added to the rule table 110 as in the second embodiment. The operation at the time of reproduction is substantially the same as that of the second embodiment described with reference to FIG. (YES in step S23 in FIG. 15), the DSP program parameter corresponding to the time matched is acquired from the music rule table 110 and passed to the control means 12a. And the control means 12a performs DSP program parameter setting processing (step S24). In this way, the music can be reproduced while automatically changing the effect processing according to the elapsed reproduction time.
[0066]
Further, the control unit 12a of the recording / playback apparatus 1a compresses the song (song ID) corresponding to the song being played back when the effect processing of the amplifier device 21 is changed during song playback (YES in step S19 in FIG. 15). Method information and genre information are acquired from the attribute information database.
Then, the control means 12a determines the playback elapsed time from the playback start time of the song to the current time as the processing start time, the song ID of the song being played back, the determined processing start time, the acquired compression method information, and The genre information, the DSP program parameter acquired based on the message from the amplifier device 21, and the model ID acquired from the message are passed to the rule table creation means 6a.
The rule table creation means 6a registers the song ID, processing start time, compression method information, genre information, DSP program parameter, and model ID received from the control means 12a in the rule table 110 in association with each other (step S20). In this way, it is possible to perform automatic learning in which the elapsed playback time when the user changes effect processing and the changed DSP program parameters are registered in the rule table 110.
[0067]
【The invention's effect】
According to the present invention, the attribute information of the audio data of the song is recorded in the recording means, and the rule table in which the DSP program parameter and the attribute information are associated is prepared, and the attribute information of the audio data of the song to be reproduced is prepared. Since the corresponding DSP program parameters are obtained from the rule table and set in the DSP of the amplifier device, information that only the playback device or the recording / playback device can know (the playback device or the recording / playback device reports to the outside sequentially) Can be controlled in accordance with (non-attribute information), and the user does not need to change the setting of the DSP of the amplifier device for each piece of music audio data, so the burden on the user for setting the DSP can be reduced. In addition, since the playback device and the recording / playback device control the amplifier device, it is not necessary to prepare a separate device for controlling the amplifier device, and an existing amplifier device can be used. There is no need to add a DSP function.
[0068]
In addition, a processing start time for designating the start time of DSP sound field processing or frequency characteristic processing is added to the rule table, and it corresponds to the attribute information of the audio data of the song to be played back and matches the elapsed playback time of the audio data Since the DSP program parameter corresponding to the processed start time is obtained from the rule table, the audio data can be reproduced while changing the DSP processing according to the elapsed reproduction time of the audio data of the song. Control according to the scene becomes possible.
[0069]
Further, when the sound field processing or frequency characteristic processing of the amplifier device is changed during the reproduction of the sound data of the song, the DSP program parameter indicating the changed processing is associated with the attribute information of the sound data being reproduced. By executing the learning procedure to be registered in the rule table, the DSP program parameters changed by the user can be registered in the rule table, and the DSP process according to the user's preference can be learned.
[0070]
Further, by using song information, album information, artist information, and genre information as attribute information of the audio data of the song, sound field processing or frequency characteristic processing suitable for the song, album, artist, and genre can be performed. .
[0071]
In addition, by using compression method information indicating the compression method used when the sound data is recorded on the recording means as the attribute information of the sound data of the song, sound field processing or frequency characteristic processing suitable for reproduction of the compressed sound data is performed. Can be implemented.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a recording / playback system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing an operation during recording of the recording / reproducing apparatus of FIG. 1;
FIG. 3 is a diagram showing a correspondence relationship of song attribute information managed in an attribute information database of the recording / playback apparatus of FIG. 1;
4 is a diagram showing an example of a rule table of the recording / playback apparatus of FIG. 1. FIG.
FIG. 5 is a flowchart showing an operation at the time of reproduction of the recording / reproducing apparatus of FIG. 1;
FIG. 6 is a diagram showing a format of a control command sent from the recording / playback apparatus and a format of a message sent from the amplifier apparatus in the first embodiment of the present invention.
7 is a diagram showing an example of a DSP program code table of the recording / reproducing apparatus of FIG. 1. FIG.
FIG. 8 is a diagram illustrating an example of a DSP program code table of the amplifier device of FIG. 1;
FIG. 9 is a diagram showing an example of an input code table of the recording / playback apparatus of FIG. 1;
10 is a diagram illustrating an example of an input code table of the amplifier device of FIG. 1; FIG.
FIG. 11 is a flowchart showing details of a DSP program parameter acquisition process in the first embodiment of the invention.
12 is a diagram showing an example of a DSP program correspondence table of the recording / playback apparatus of FIG. 1. FIG.
FIG. 13 is a flowchart showing details of DSP program parameter setting processing in the first embodiment of the present invention;
FIG. 14 is a diagram showing a configuration of a music rule table according to the second embodiment of the present invention.
FIG. 15 is a flowchart showing an operation at the time of reproduction of the recording / reproducing apparatus in the second embodiment of the present invention.
FIG. 16 is a block diagram showing a configuration of a recording / reproducing system according to a third embodiment of the present invention.
17 is a diagram showing a correspondence relationship between song attribute information managed in the attribute information database of the recording / playback apparatus in FIG. 16;
18 is a diagram showing an example of a rule table of the recording / playback apparatus of FIG. 16. FIG.
FIG. 19 is a flowchart showing details of a DSP program parameter acquisition process in the third embodiment of the invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1, 1a ... Recording / reproducing apparatus, 2 ... CD drive apparatus, 3 ... Recording means 4, 4a ... Audio | voice data recording means 5, 5a ... Attribute information recording means, 6, 6a ... Rule table preparation means, 7, 7a ... Reproduction means 8, 8a ... DSP program parameter acquisition means, 9 ... input means, 10 ... display means, 11 ... network interface means, 12, 12a, 27 ... control means, 13, 25 ... communication interface means, 21 ... amplifier device 22 ... Input selector, 23 ... DSP, 24 ... Power amplifier, 26 ... Storage means.

Claims (10)

A recording / reproducing method in a recording / reproducing apparatus for recording and reproducing audio data on a recording means,
An attribute information recording procedure for recording the attribute information of the audio data of the song recorded in the recording means in the recording means;
A rule table creation procedure for creating a rule table that associates the DSP program parameters and the attribute information for designating the sound field processing or frequency characteristic processing to be executed to the digital signal processor (DSP) of the amplifier device;
When reproducing the audio data read from the recording means to the amplifier device currently connected to the recording / reproducing apparatus, the attribute information of the audio data of the song to be reproduced is acquired from the recording means, and this attribute information is supported. A DSP program parameter obtaining procedure for obtaining a DSP program parameter to be obtained from the rule table;
The DSP program parameter obtained from the DSP table obtained from the rule table after completion of the obtaining process when the model of the amplifier device currently connected to the recording / playback device coincides with the amplifier device that was the control target when the rule table was created And the procedure
When the amplifier device that is the control target at the time of creating the rule table is different from the model of the amplifier device that is currently connected to the recording / playback device, the DSP program parameters acquired from the rule table and the current recording device are connected to the recording / playback device. A DSP program parameter corresponding to the amplifier device is acquired from a DSP program correspondence table in which DSP program parameters of a plurality of types of amplifier devices are associated, and the DSP program parameter acquired from the DSP program correspondence table is obtained after the completion of the acquisition process. The procedure to be a program parameter,
And a DSP program parameter setting procedure for executing a DSP program parameter setting procedure for setting the DSP program parameter after completion of the acquisition process in the DSP of the amplifier apparatus currently connected to the recording / reproducing apparatus. A recording / reproducing method in a recording / reproducing apparatus for recording and reproducing audio data on a recording means,
An attribute information recording procedure for recording the attribute information of the audio data of the song recorded in the recording means in the recording means;
A rule in which a DSP program parameter that designates a sound field process or a frequency characteristic process to be executed for a digital signal processor (DSP) of an amplifier device, a process start time that designates the start time of the process, and the attribute information are associated with each other Rule table creation procedure to create a table,
When playing back audio data read from the recording means to the amplifier device currently connected to the recording / playback device, it corresponds to the attribute information of the audio data of the song to be played back and matches the elapsed playback time of the audio data A DSP program parameter acquisition procedure for acquiring a DSP program parameter corresponding to the processed start time from the rule table;
The DSP program parameter obtained from the DSP table obtained from the rule table after completion of the obtaining process when the model of the amplifier device currently connected to the recording / playback device coincides with the amplifier device that was the control target when the rule table was created And the procedure
When the amplifier device that is the control target at the time of creating the rule table is different from the model of the amplifier device that is currently connected to the recording / playback device, the DSP program parameters acquired from the rule table and the current recording device are connected to the recording / playback device. A DSP program parameter corresponding to the amplifier device is acquired from a DSP program correspondence table in which DSP program parameters of a plurality of types of amplifier devices are associated, and the DSP program parameter acquired from the DSP program correspondence table is obtained after the completion of the acquisition process. The procedure to be a program parameter,
And a DSP program parameter setting procedure for executing a DSP program parameter setting procedure for setting the DSP program parameter after completion of the acquisition process in the DSP of the amplifier apparatus currently connected to the recording / reproducing apparatus. The recording / reproducing method according to claim 1 or 2,
When the sound field processing or frequency characteristic processing of the amplifier device is changed during reproduction of the audio data of the song, the DSP program parameter indicating the changed processing corresponds to the attribute information of the audio data being reproduced. And a learning procedure for registering in the rule table. The recording / reproducing method according to claim 1 or 2,
The audio data attribute information of the song includes song information for identifying a song, album information for identifying an album, artist information for identifying an artist, and genre information for identifying a genre. The recording / reproducing method according to claim 1 or 2,
The attribute information of the audio data of the song includes a compression method information indicating a compression method used when the audio data is recorded on the recording means. Recording means capable of recording and reproducing audio data;
Attribute information recording means for recording the attribute information of the audio data of the music recorded in the recording means in the recording means;
A rule table creating means for creating a rule table in which a DSP program parameter for designating a sound field process or a frequency characteristic process to be executed to a digital signal processor (DSP) of the amplifier device and the attribute information are associated with each other;
When reproducing the audio data read from the recording means to the amplifier apparatus currently connected to the own apparatus, the attribute information of the audio data of the music to be reproduced is acquired from the recording means, and this attribute information is supported. DSP program parameter acquisition means for acquiring DSP program parameters from the rule table;
The DSP program parameters obtained from the DSP program parameters obtained from the rule table when the amplifier device that is the control target at the time of creating the rule table matches the model of the amplifier device that is currently connected to the recording / playback device. And means to
A DSP program correspondence table in which DSP program parameters of a plurality of types of amplifier devices are associated;
When the amplifier device that is the control target at the time of creating the rule table is different from the model of the amplifier device that is currently connected to the recording / playback device, the DSP program parameters acquired from the rule table and the current connection to the recording / playback device Means for obtaining a DSP program parameter corresponding to an amplifier device from the DSP program correspondence table, and setting the DSP program parameter obtained from the DSP program correspondence table as a DSP program parameter after completion of the obtaining process;
A recording / reproducing apparatus comprising: a DSP program parameter setting means for setting a DSP program parameter after completion of the acquisition process in a DSP of an amplifier apparatus currently connected to the own apparatus. Recording means capable of recording and reproducing audio data;
Attribute information recording means for recording the attribute information of the audio data of the music recorded in the recording means in the recording means;
A rule in which a DSP program parameter that designates a sound field process or a frequency characteristic process to be executed for a digital signal processor (DSP) of an amplifier device, a process start time that designates the start time of the process, and the attribute information are associated with each other A rule table creation means for creating a table;
When reproducing the audio data read out from the recording means to the amplifier device currently connected to the own device, it corresponds to the attribute information of the audio data of the music to be reproduced and coincides with the elapsed reproduction time of the audio data DSP program parameter acquisition means for acquiring a DSP program parameter corresponding to the processing start time from the rule table;
The DSP program parameter obtained from the DSP table obtained from the rule table after completion of the obtaining process when the model of the amplifier device currently connected to the recording / playback device coincides with the amplifier device that was the control target when the rule table was created And means to
A DSP program correspondence table in which DSP program parameters of a plurality of types of amplifier devices are associated;
When the amplifier device that is the control target at the time of creating the rule table is different from the model of the amplifier device that is currently connected to the recording / playback device, the DSP program parameters acquired from the rule table and the current recording device are connected to the recording / playback device. Means for obtaining a DSP program parameter corresponding to an amplifier device from the DSP program correspondence table, and setting the DSP program parameter obtained from the DSP program correspondence table as a DSP program parameter after completion of the obtaining process;
A recording / reproducing apparatus comprising: a DSP program parameter setting means for setting a DSP program parameter after completion of the acquisition process to a DSP of an amplifier apparatus currently connected to the own apparatus. The recording / reproducing apparatus according to claim 6 or 7,
When the sound field processing or frequency characteristic processing of the amplifier device is changed during reproduction of the audio data of the song, the DSP program parameter indicating the changed processing corresponds to the attribute information of the audio data being reproduced. A recording / reproducing apparatus comprising learning means for registering in the rule table . The recording / reproducing apparatus according to claim 6 or 7 ,
The audio data attribute information of the song includes song information for identifying a song, album information for identifying an album, artist information for identifying an artist, and genre information for identifying a genre . The recording / reproducing apparatus according to claim 6 or 7 ,
The recording / reproducing apparatus characterized in that the attribute information of the audio data of the music includes compression method information indicating a compression method when the audio data is recorded in the recording means .

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