JP4106988B2 - Recording apparatus, recording method, program, program recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording apparatus for recording input digital data on, for example, a large-capacity recording medium, a recording method in the recording apparatus, a program for realizing the recording method, and a recording medium on which the program is recorded. It is.
[0002]
[Prior art]
Various types of audio visual devices owned by users are prevalent, and it is common to enjoy so-called music software and video software individually.
For example, a user owns an audio system corresponding to a disc recording medium such as a CD (Compact Disc), an MD (Mini Disc), or a DVD (Digital Versatile Disc), and the desired CD, MD, or DVD sold as a package media. Or the like, and playing back the content, or recording on a recordable medium with a favorite song selection.
[0003]
In addition, as an audiovisual device, a recording / reproducing apparatus that stores an audio data file and a video data file using a large capacity medium such as an HDD (hard disk) has been developed.
In such a recording / reproducing apparatus, the user can perform so-called ripping, for example, by dubbing and recording music content recorded on a package medium such as a CD on a large-capacity medium such as an HDD.
Further, the recording / reproducing apparatus can be connected to a network such as the Internet, and music contents can be downloaded from an external server and stored in the HDD.
In this way, by using a large-capacity recording medium such as an HDD in the recording / reproducing apparatus and making it possible to rip or download, for example, the user can record music on a large number of CDs, downloaded music, etc. in the recording / reproducing apparatus. Can be stored and enjoyed arbitrarily.
[0004]
Further, such a recording / reproducing apparatus using an HDD or the like can also be used as a so-called home server. That is, there is a usage form in which content data stored in the HDD is transferred and recorded on another recording medium (secondary recording medium), and music or the like is enjoyed on the secondary recording medium side.
For example, the user connects a recording device of a secondary recording medium to the recording / reproducing device, and copies (duplicates) or moves (moves) content data stored in the HDD to the secondary recording medium. Then, content data such as music can be played back by a playback device corresponding to the secondary recording medium. For example, if the secondary recording medium is an MD or memory card, and the playback device corresponding to the secondary recording medium is a portable MD player or memory card player, the user can store music stored in the home server (the HDD recording / playback device). You can enjoy content on the go.
[0005]
By the way, for example, when considering the usage form of such content data, it is necessary to consider copyright protection for the content data. For example, if a user uses content data distribution services or purchases package media and accumulates content data in the HDD and then the content data can be copied to a secondary recording medium without restriction, the copyright A situation occurs in which the legitimate protection of the person is not taken. For this reason, various technologies and data processing agreements have been proposed that allow copyright protection to be maintained in the handling of content data as digital data, one of which is a standard called SDMI (SECURE DIGITAL MUSIC INITIATIVE). There is.
[0006]
According to the SDMI standard, content stored in an HDD can be copied to a secondary recording medium under a predetermined rule. Although detailed description is avoided, there are conditions such as authentication between devices at the time of copying, encrypted transmission, check-in / check-out rules, and the like.
Briefly describe check-in / check-out rules.
Copy transfer from a primary recording medium (HDD) to a secondary recording medium (MD, memory card, etc.) is called “checkout”. Conversely, the move transfer from the secondary recording medium to the primary recording medium is called “check-in”. In the case of a move from the secondary recording medium to the primary recording medium, the content data is erased on the secondary recording medium.
As a transfer rule in SDMI, for example, a predetermined upper limit number of checkouts is determined such that, for example, up to three checkouts are allowed for one piece of content data. Therefore, for example, copying is permitted up to three secondary recording media. When the check-in is performed, the number of check-outs for the content data is subtracted. Therefore, even after copying to three secondary recording media, if the check-in is performed from one of the secondary recording media, the content can be copied to the SDMI-compliant secondary recording media again. The That is, content data is always allowed to coexist on a maximum of three secondary recording media, and conversely, further content diffusion is prohibited.
[0007]
[Problems to be solved by the invention]
By the way, when ripping or downloading from a CD or the like in a device such as the HDD recording / reproducing apparatus, content data cannot be processed. That is, digital data read from the disk or distributed digital data is recorded on the HDD as it is in terms of sound quality and volume.
Also, when checking out to the secondary recording medium, the digital data stored in the HDD is transferred as it is. That is, it is copied to the secondary recording medium without performing sound quality and volume processing.
[0008]
On the other hand, from the user's point of view, there is a desire for each user to have a favorite sound quality and to enjoy music with the favorite sound quality during playback. For this reason, sound quality adjustment is usually performed at the time of reproduction, but there is a situation that sufficient sound quality adjustment can be performed only by a high-performance reproduction apparatus. For example, if the device on the secondary recording medium side is a portable player or the like, the portable player usually does not have an advanced sound quality adjustment function, so that the user cannot enjoy music with the desired sound quality.
[0009]
Further, music data reproduced from various CDs and distributed music data have variations in volume levels. Accordingly, music contents ripped from a large number of CDs and distributed music contents are often in a state in which the sound volume level varies in the HDD.
When an arbitrary plurality of songs are selected and checked out from such an HDD, the volume level may change for each song during playback on the secondary recording medium, making it difficult to hear.
[0010]
[Means for Solving the Problems]
In view of such circumstances, an object of the present invention is to make it possible to enjoy reproduction in a state desired by a user in sound quality, volume, etc., for example, when reproducing music content.
[0011]
The recording apparatus of the present invention Data storage Medium To Record Direct Do Instructions Means and data Change the volume of Machining process to generate machining data When Compression processing that compresses data and generates compressed data When Run Do Signal processing means and data Memory Recording means for recording on a medium; and Instructions means Instruction from In response to the , De About digital data The signal processing means is caused to execute the above processing, and the signal processing means is caused to execute compression processing on the processing data obtained by the processing. The compressed data obtained by the compression process is recorded by the recording means. Memory And control means for recording on the medium.
Furthermore, the signal processing means is further compressed. Digital Decompress data do it Generate uncompressed data Stretch processing The Execution Shi The control means is the above Instructions means Instruction from In response to the , Pressure About compressed digital data of Decompression In the signal processing means Uncompressed data obtained by the above decompression process And the signal processing means to execute the processing and compression processing on the digital data. Like that.
Further, the control means includes the above Instructions means Instruction from In response to the , Pressure About compressed digital data of Processing In the signal processing means Let it run , The compressed digital data processed data obtained by the above processing is stored in the recording means. Above memory Medium What Let me record Ru Like that.
Portable recording media The Regeneration Do It further comprises a reproducing means, De Digital data Is , The reproduction means But Playback from portable recording media Shi Digital data.
Further comprising communication means, De Digital data Is The digital data received by the communication means.
[0012]
The recording method of the present invention comprises: Data storage Medium To Record Direct Do Instructions Depending on the data Change the volume of The processing data generated by the above processing is executed. of Execute the compression process, and the compressed data obtained by the compression process Memory Record on media.
Also, Compression digital Decompress data do it Generate uncompressed data Stretch processing The Uncompressed data obtained by execution As the digital data, the processing for the digital data and the compression processing Execute.
Or Compression digital About data of Execute the processing, and process the compressed digital data obtained by the above processing. Memory Record on media.
[0013]
The program of the present invention is a program for causing a recording apparatus to execute each of the recording methods.
The program recording medium of the present invention is a program recording medium that records these programs.
[0014]
According to the present invention described above, digital data ripped from a portable recording medium such as a CD or digital data downloaded by communication with an external server or the like is compressed into the recording medium (for example, HDD) of the recording apparatus. Stored in state. In addition, the stored digital data is data subjected to volume / sound quality processing. Therefore, when digital data such as music content read from a recording medium such as an HDD is reproduced as it is or copied to a secondary recording medium and reproduced, it is in a volume / sound quality state corresponding to a processing process at the time of recording. Will be played.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in the following order. As an embodiment of the recording apparatus of the present invention, a recording / reproducing apparatus including an HDD as a recording medium will be described.
1. System configuration
2. Configuration of recording / playback device
3. Processing during recording
[0016]
1. System configuration
FIG. 1 shows a system configuration example.
The recording / reproducing apparatus 1 of the present embodiment includes an HDD 31 as a recording medium, and is a device that can store, for example, music content in the HDD 31.
In the description of the embodiment, the HDD 31 is a recording medium. Of course, the recording medium used as the recording medium in the recording / reproducing apparatus 1 is not limited to the HDD. For example, a medium such as an optical disk or a magneto-optical disk, Various things such as a portable semiconductor memory (memory card or the like) can be considered.
[0017]
The recording / playback apparatus 1 can communicate with the content server 91 via the communication network 110, thereby enabling downloading of content data such as music. Of course, there are a plurality of content servers 91, and the user of the recording / playback apparatus 1 can arbitrarily use various data download services.
The content data downloaded from the content server 91 to the recording / playback apparatus 1 is, for example, SDMI-compliant content data.
[0018]
The transmission path forming the network 110 may be a wired or wireless public line network, or may be a dedicated line for the recording / reproducing apparatus 1 and the content server 91. Specifically, as the network 110, for example, the Internet, a satellite communication network, an optical fiber network, and other various communication lines can be applied.
[0019]
The recording / reproducing apparatus 1 includes a built-in or external disk drive, and stores content data such as music reproduced from a package medium 90 such as a CD, MD, DVD (hereinafter also referred to as a disk 90) in the HDD 31. It can also be made.
[0020]
A recording / reproducing device 20 as a secondary recording medium side device is connected to the recording / reproducing device 1, and content data stored in the HDD 31 can be transferred to the recording / reproducing device (secondary recording medium side device) 20. Is done. The recording / reproducing apparatus 20 is an apparatus capable of recording and reproducing on a secondary recording medium. The content data transferred from the recording / reproducing apparatus 1 can be copied and recorded on the secondary recording medium.
Further, when the recording / reproducing apparatus 1 itself includes a recording drive unit for a CD, MD, DVD, memory card, etc., the content data stored in the HDD 31 can be transferred to these media and copied.
[0021]
Various specific examples of the recording / reproducing apparatus 20 as the secondary recording medium side device can be considered. For example, a portable recording / reproducing apparatus is used.
When the HDD 31 is considered as a primary recording medium, the user uses the recording / reproducing apparatus 1 as a home server by copying (checking out) the music content stored in the HDD 31 to the secondary recording medium in the recording / reproducing apparatus 20. For example, music content can be played back using the recording / playback apparatus 20 which is a portable recording / playback machine.
[0022]
Media recorded and reproduced by the recording / reproducing apparatus 20 as a secondary recording medium side device include a memory card using a semiconductor memory such as a mini-disc and flash memory, a CD-R (CD Recordable), a CD-RW (CD Rewitable). DVD-RAM, DVD-R, DVD-RW, etc. are conceivable. Accordingly, the recording / reproducing apparatus 20 may be any recording / reproducing apparatus corresponding to these media.
[0023]
The recording / reproducing apparatus 1 and the recording / reproducing apparatus 20 are connected based on a transmission standard such as USB (Universal Serial Bus) or IEEE1394. Of course, content data or the like may be transferred via a wired transmission line of another transmission standard or a wireless transmission line.
[0024]
2. Configuration of recording / playback device
The configuration of the recording / reproducing apparatus 1 of this example will be described with reference to FIG.
The recording / reproducing apparatus 1 includes an HDD (hard disk drive) 31 illustrated as a large-capacity data file storage unit therein, and a CD (Compact Disc) or DVD (Digital Versatile Disc) as a drive function unit for package media. Are provided with a CD / DVD drive 29 corresponding to the above and an MD drive 36 corresponding to an MD (Mini Disc: magneto-optical disk).
[0025]
The recording / playback apparatus 1 can perform so-called ripping in which music content played back from, for example, a CD, DVD, or MD is taken into the HDD 31 as a content file.
In this example, music content is taken as an example, but various contents such as video content, text data, application programs, and game software can be supported.
In addition to the illustrated CD / DVD drive 29 and MD drive 36, the drive device provided may be a drive device corresponding to various media such as a magnetic disk and a semiconductor memory card.
[0026]
In the recording / reproducing apparatus 1, the user can arbitrarily reproduce the track file stored in the HDD 31 (for example, music or the like is stored as one file in units of one track). Therefore, for example, if a user having a large number of CDs stores all the music pieces of all CDs as one track file in the recording / playback apparatus 1, the desired music piece can be obtained without having to bother to select and load a CD or the like. Etc. can be executed.
[0027]
The recording / reproducing apparatus 1 may be a so-called radio-cassette-type device so as to be suitable for use as an audio device in a user's home. Of course, it may be a component type.
The recording / reproducing apparatus 1 is provided with various operation keys and operation knobs for the user to perform various operations, a rotary push type key called a jog dial, and the like on the device front panel.
Further, as an output part for the user, a speaker for outputting reproduced sound and a display unit for displaying and outputting various information are provided.
A CD insertion part for inserting a CD owned by the user and an MD insertion part for inserting an MD are also provided.
[0028]
In FIG. 2, the CPU 21 performs overall control and calculation processing of the recording / reproducing apparatus 1 based on the activated program. For example, control processing such as input / output operations for a user, CD / DVD playback and ripping, communication operations with the content server 91, content download, storage of track files in the HDD 31, and creation / update of management information, etc. are performed.
The CPU 21 exchanges control signals and data with each circuit unit via the bus 22 shown in the figure.
[0029]
The memory unit 23 comprehensively shows RAM, ROM, flash memory, and the like used by the CPU 21 for processing.
The ROM in the memory unit 23 stores an operation program for the CPU 21, a program loader, and the like.
The flash memory in the memory unit 23 stores various calculation coefficients, parameters used in the program, and the like.
Particularly in the case of the present embodiment, the ROM 21 also stores a program for the CPU 21 to perform processing operations shown in FIG.
In addition, a data area and a task area for executing a program are temporarily secured in the RAM in the memory unit 23.
[0030]
The input unit 25 is an operation key, a jog dial, a touch panel, a remote commander, or other input devices provided on the casing of the recording / reproducing apparatus 1, and the user of the recording / reproducing apparatus 1 performs various operation inputs and data inputs. A keyboard or mouse may be provided as the input unit 25.
The information input by the input unit 25 is subjected to predetermined processing by the input processing unit 24 and is transmitted to the CPU 21 as an operation or data input. The CPU 21 performs necessary calculations and controls corresponding to the input information.
[0031]
The display unit 27 is a display device such as a liquid crystal panel, for example, and displays various information to the user.
When the CPU 21 supplies display information to the display processing unit 26 according to various operation states, input states, and communication states, the display processing unit 26 causes the display unit 27 to perform a display operation based on the supplied display data.
For example, when playing a CD, DVD, MD, or when playing content stored in the HDD 31, the track number, performance time, operation state, volume state, etc. are displayed. If title information is stored corresponding to the content to be played back, various information such as a song name and an artist name can be displayed.
[0032]
The CD / DVD drive 29 includes an optical head, a spindle motor, a reproduction signal processing unit, a servo circuit, and the like, and performs a reproduction operation on the loaded CD or DVD. The CD / DVD drive control unit 28 controls a reproduction operation, an access operation, and the like for the CD or DVD in the CD / DVD drive 29. For example, when the user performs a CD playback operation from the input unit 25, the CPU 21 instructs the CD / DVD drive control unit 28 to play a CD. Then, the CD drive control unit 28 controls the CD / DVD drive 29 to execute reproduction / access.
The CD / DVD drive 29 decodes the signal read from the CD or DVD and sends the reproduction data to the bus 22 via the CD / DVD drive control unit 28.
In the CD / DVD drive 29, it is also possible to execute a high-speed read operation on a CD or DVD. For example, when normal reproduction is set to 1 × speed, high-speed reading such as 2 × speed, 4 × speed, and 8 × speed is possible. High-speed reading is performed when ripping to the HDD 31 described later.
[0033]
As is well known, management information called TOC (Table Of Contents) is recorded on the innermost periphery of a CD, and tracks (contents) on the disc are accessed based on the TOC during CD playback. The DVD is similarly accessed based on the management information. Accordingly, the CD / DVD drive control unit 28 instructs the CD / DVD drive 29 to read management information when a CD / DVD is loaded, and obtains the read management information, thereby enabling playback control. .
[0034]
The MD drive 36 includes an optical head, a spindle motor, a reproduction signal processing unit, a servo circuit, and the like, and performs a reproduction operation on the loaded MD. The MD drive control unit 37 controls a reproduction operation, an access operation, and the like for the MD in the MD drive 36. Also in this case, the CPU 21 instructs the MD drive control unit 37 to perform MD playback when, for example, an MD playback operation is performed by the user via the input unit 25. In response to this, the MD drive control unit 37 controls the MD drive 36 to execute reproduction / access.
The MD drive 36 decodes the signal read from the MD and sends the reproduction data to the bus 22 via the MD drive control unit 37.
Also in this case, like the CD / DVD drive control unit 28 described above, the MD drive control unit 37 instructs the MD drive 36 to read the TOC when the MD is loaded, and the read management information (TOC MD) can be reproduced by obtaining (data).
[0035]
The ATRAC encoding / decoding unit 38 performs encoding / decoding processing on the data input via the bus 22 by the ATRAC (Adaptive TRansform Acoustic Coding) compression method (for example, ATRAC1, ATRAC3, etc.) based on the control of the CPU 21. Then, the data subjected to the encoding / decoding process in this way is outputted to a required part based on the control of the CPU 21.
[0036]
The communication processing unit 32 performs transmission data encoding processing and reception data decoding processing based on the control of the CPU 21.
The network interface 33 transmits the transmission data encoded by the communication processing unit 32 to a predetermined external device via the network. In addition, a signal transmitted from an external device such as the server is transferred to the communication processing unit 34 via the network. The communication processing unit 34 transfers the received information to the CPU 21 and sends the received download content to the bus 22.
[0037]
The audio data processing unit 34 is constituted by, for example, an audio processing DSP, and performs various types of processing on the digital audio data input via the bus 22. For example, equalization processing, reverb processing, echo processing, noise addition processing, and the like can be performed as sound quality adjustment processing. Furthermore, processing for adjusting the volume is also possible.
These sound quality / volume adjustments are performed according to parameters set based on the operation of the input unit 25 by the user. Parameters include, for example, level for each band in equalizing processing, reverberation time and reverberation level (or reverb type) in reverb processing, reverberation repeat frequency and level (or echo type) in echo processing, noise speech type and level in noise processing Etc.
[0038]
The audio output processing unit 39 performs processing such as D / A conversion and amplification on the digital audio data input via the bus 22 and outputs the processed data from the speaker unit 35.
[0039]
Based on the control of the CPU 21, the database management unit 30 executes a write / read access operation of the content file and management information for managing the content file with respect to the HDD 31.
For example, content in units of one track reproduced by the CD / DVD drive 29 is stored in the HDD 31 as one file (one music content), and management information is written / updated. In addition, the download content transferred from the communication processing unit 32 is stored in the HDD 31 and the management information is written / updated.
In response to an instruction from the CPU 21, the database management unit 30 can read a predetermined track file, transfer it to the audio output processing unit 34, and output the sound from the speaker unit 35.
The database management unit 30 performs check-in / check-out management of music content stored in the HDD 31.
Of course, the HDD 31 is not only used as a track file database as described above, but may also be used as a storage area for application programs started by the CPU 21 and various data.
[0040]
The external interface 40 is an interface with a peripheral device using a communication method such as USB or IEEE1394.
For example, the recording / reproducing apparatus 20 as the secondary recording medium side device shown in FIG. 1 is connected by this external interface 40, and data transfer is enabled.
A wired interface of another standard or a wireless interface using infrared rays or radio waves may be used.
[0041]
Depending on such a recording / reproducing apparatus 1, for example, the following recording, reproducing, and communication operations can be performed.
[0042]
Digital data reproduced from the disk medium 90 as a CD, DVD, or MD can be recorded in the HDD 31. At this time, the digital data recorded in the HDD 31 can be processed as sound quality / volume adjustment by the audio data processing unit 34 or can be subjected to ATRAC compression processing by the ATRAC encoding / decoding unit 38.
[0043]
Digital data downloaded from the content server 91 via the network 110 can be recorded in the HDD 31. At this time, the digital data recorded in the HDD 31 can be processed as sound quality / volume adjustment by the audio data processing unit 34 or can be subjected to ATRAC compression processing by the ATRAC encoding / decoding unit 38.
[0044]
The digital audio data (music content) reproduced from the disk medium 90 as the CD, DVD, MD or the HDD 31 can be reproduced and output from the audio output processing unit 39. At this time, if the digital audio data to be reproduced and output is ATRAC compressed data, the ATRAC encoding / decoding unit 38 performs decoding (decompression processing) for the ATRAC compression processing. Further, digital audio data to be reproduced and output can be processed by the audio data processing unit 34 as sound quality / volume adjustment.
[0045]
The digital audio data (music content) stored in the HDD 31 can be transmitted and output to an external device (for example, the recording / reproducing apparatus 20) connected by the external interface 40. In other words, this is a check-out using media (MD, memory card, etc.) on the external device side as a secondary recording medium. Check-in processing is also performed.
The digital audio data (music content) stored in the HDD 31 can be transferred to the MD drive 36 and recorded on the MD. This is also a checkout operation using the MD loaded in the MD drive 36 as a secondary recording medium. A check-in process from the MD is also performed.
[0046]
The configuration of the recording / reproducing apparatus 1 is not limited to the configuration shown in FIG.
For example, a terminal used for connection of a microphone or external headphones, a video output terminal, a line connection terminal, an optical digital connection terminal, and the like corresponding to DVD playback may be provided.
In addition, a PCMCIA slot, a memory card slot, and the like may be formed to exchange data with an external information processing apparatus or audio device.
Further, when a memory card slot is provided, check-out / check-in can be performed as described above using the memory card as a secondary recording medium.
[0047]
3. Processing during recording
In the recording / reproducing apparatus 1 of this example, the digital audio data (music content) read from the portable disk medium 90 such as a CD can be stored in the HDD 31 as described above.
In addition, digital audio data (music content) downloaded from the content server 91 can be stored in the HDD 31.
As described above, the HDD 31 can be used as a home server.
[0048]
In this example, at the time of ripping or downloading, when music content is recorded on the HDD 31, processing as shown in FIGS. 3 (a) and 3 (b) is performed.
[0049]
Such processing is executed under the control of the CPU 21 in response to the generation of a request for recording input digital data in a compressed data state on a recording medium.
The said request | requirement here is a request | requirement based on user operation, communication, or automatic discrimination of CPU21.
For example, when the user wants to rip from a CD or the like, the user performs a predetermined operation using the input unit 25. The CPU 21 determines that the user's ripping operation is the above request and performs the control of FIG.
Further, the CPU 21 can also perform so-called background ripping, in which content data recorded on a loaded CD or the like is automatically taken into the HDD 31 without a user ripping operation. In this case, for example, when detecting the loading of a CD or the like, the CPU 21 determines that the request is generated and performs the control of FIG.
Alternatively, when downloading from the content server 91, the CPU 21 determines that the download start notification from the content server 91 is the request, and performs the control of FIG.
[0050]
FIG. 3A shows a case where there is a request to store uncompressed data in the HDD 31.
Non-compressed data is, for example, linear PCM format data reproduced from a CD. Therefore, for example, when ripping from a CD, the process of FIG.
[0051]
In this case, the non-compressed data input process (S1) is a reproduction operation by the CD / DVD drive 29. That is, the CPU 21 instructs the CD / DVD drive control unit 28 to execute a reproduction operation (for example, high-speed reproduction) by the CD / DVD drive 29, and obtains uncompressed data as reproduction data.
The CPU 21 transfers the reproduction data (uncompressed data) sent to the bus 22 by reproduction of a CD or the like to the audio data processing unit 34 and executes data processing (S2). That is, sound quality processing such as equalizing or volume processing is executed according to the parameters input by the user.
It should be noted that parameters for processing such as equalizing are set in advance so that the user can obtain the desired sound quality while playing the CD and listening to the reproduced sound, and the set value is held in the audio data processing unit 34. You just have to keep it.
[0052]
The CPU 21 transfers the processed data processed by the audio data processing unit 34 and sent to the bus 22 to the ATRAC encoding / decoding unit 38 to execute the ATRAC3 compression process (S3).
Then, the CPU 21 causes the database management unit 30 to transfer the compressed data compressed by the ATRAC encoding / decoding unit 38 and sent to the bus 22 to execute the recording process (S4) to the HDD 31.
[0053]
FIG. 3B shows a case where there is a request for storing compressed data in the HDD 31.
The compressed data is compressed data such as ATRAC3. For example, the content server 91 transmits download data as ATRAC3 compressed data. Therefore, for example, when downloading from the content server 91, the processing of FIG. 3B is performed. In addition, since the music content by the compressed data of ATRAC1 / ATRAC3 is recorded in the MD, when the music content reproduced from the MD is recorded on the HDD, as shown in FIG. 3B. Become.
[0054]
In the case of FIG. 3B, the compressed data input process (S11) is an input operation of download data via the network interface 33 and the communication processing unit 32. That is, the CPU 21 causes the communication processing unit 32 to communicate with the content server 91 to obtain compressed data as download data.
The CPU 21 transfers the download data (compressed data) sent to the bus 22 by the reception processing of the communication processing unit 32 to the ATRAC encoding / decoding unit 38 and executes the decoding (decompression) processing (S12) for ATRAC3 compression. Thereby, for example, it is decoded into uncompressed data as linear PCM data.
Further, the CPU 21 transfers the uncompressed data decompressed by the ATRAC encoding / decoding unit 38 and sent to the bus 22 to the audio data processing unit 34, and executes data processing (S13). That is, sound quality processing such as equalizing or volume processing is executed according to the parameters input by the user.
Further, the CPU 21 transfers the processed data processed by the audio data processing unit 34 and sent to the bus 22 to the ATRAC encoding / decoding unit 38 again, and executes ATRAC3 compression processing (S14).
Then, the CPU 21 causes the database management unit 30 to transfer the compressed data compressed by the ATRAC encoding / decoding unit 38 and sent to the bus 22 to execute the recording process to the HDD 31 (S15).
[0055]
After the input uncompressed data and compressed data are processed for volume / voice by the processing of FIG. 3A or FIG. 3B, the compressed data is stored in the HDD 31. Is realized.
[0056]
By the way, in the process of FIG. 3B, when compressed data is input, it is decoded into non-compressed data, processed data, compressed and encoded again, and recorded in the HDD 31. Instead of such processing, as shown in FIG. 3C, the input compressed data may be directly processed.
That is, the CPU 21 transfers the music content data input as ATRAC3 compressed data (S21) to the audio data processing unit 34, and executes data processing (S22).
Then, the CPU 21 transfers the processed data processed by the audio data processing unit 34 and sent to the bus 22 to the database management unit 30, and executes the recording process (S15) to the HDD 31.
According to such processing, compression decoding and compression encoding become unnecessary when recording on the HDD 31.
[0057]
In this case, the data processing (S22) for the ATRAC3 compressed data, for example, equalizing, is performed by the process as shown in FIG.
First, in step F101, code string decomposition processing of compressed data is performed.
In step F102, the tone component is decoded to obtain the position of the scale factor. The scale factor is level information for each band.
In step F103, the scale factor is increased or decreased according to the equalizing parameter set by the user.
In step F104, a code string generation process using the changed scale factor is performed.
With the processing as shown in FIG. 4, it is possible to directly equalize ATRAC3 compressed data.
[0058]
In the recording / reproducing apparatus 1 of this example, ripping is performed from input digital data, for example, a portable recording medium such as a CD, by the processes in FIGS. 3A and 3B (or FIG. 3C). The digital data downloaded or the digital data downloaded by communication with an external server or the like is stored in the HDD 31 in a compressed data state after being processed in volume / sound quality.
Therefore, if the user instructs equalizing processing, reverberation processing, echo processing, noise addition processing, etc. as the preferred sound quality state, the music content is stored in the HDD in the preferred sound quality state. Also, by instructing the volume processing, for example, the volume balance of music content ripped from a large number of CDs can be suitably maintained.
As a result, even when the music content read from the HDD 31 is played back on the recording / playback apparatus 1, it is also checked out when played back after being checked out to the secondary recording medium loaded in the recording / playback apparatus 1 or 20. Even if it exists, it will be reproduced in a user-preferred volume / sound quality state according to the processing at the time of recording.
This means that the music is reproduced with the sound quality desired by the user without performing the sound quality adjustment operation or the like when the recording / reproducing apparatus 1 or the recording / reproducing apparatus 20 performs the reproduction.
[0059]
The same applies when a secondary recording medium in which music content is copied and recorded (checked out) by the recording / reproducing apparatus 1 or 20 is reproduced by the recording / reproducing apparatus 20 or another reproducing apparatus.
Furthermore, the recording / reproducing device 20 and other reproducing devices may be portable devices, and many portable devices do not have a function for performing sufficient sound quality and sound effect processing. However, since the music content whose sound quality and the like have already been processed to the user's preference is copied to the secondary recording medium, music reproduction in the user's preference can be realized even with such a reproduction device.
Further, if the volume is adjusted, for example, the variation in the volume level of each CD can be eliminated on the HDD 31, and even when a plurality of arbitrary music contents stored in the HDD 31 are played back or checked out, the volume can be reduced. Each song can be played in a balanced state.
[0060]
The example as the embodiment has been described above, but the present invention is not limited to the above example.
Various modifications can be conceived regarding the configuration of the recording / reproducing apparatus 1 and the use of the HDD 31 as the primary recording medium.
For the compression processing, the ATRAC method is taken as an example, but other compression methods such as the MPEG method may be used. Further, the compressed data input as download data is not limited to ATRAC data.
[0061]
The program of the present invention is a program that realizes the processing during the recording operation of the recording / reproducing apparatus described above.
Furthermore, according to the program recording medium of the present invention on which such a program of the present invention is recorded, the provision of the program becomes easy, and the present invention can be widely provided. For example, it is suitable for designing a recording apparatus.
[0062]
The program of the present invention can be recorded in advance in an HDD 31 as a recording medium built in the recording device, a ROM in the memory unit 23, or the like.
Alternatively, temporarily or permanently stored in a removable recording medium such as a flexible disk, CD-ROM (Compact Disc Read Only Memory), MO (Magnet optical) disk, DVD (Digital Versatile Disc), magnetic disk, semiconductor memory, etc. (Record). Such a removable recording medium can be provided as so-called package software.
In addition to being installed from a removable recording medium, the program of the present invention can also be downloaded from a download site via a network such as a LAN (Local Area Network) or the Internet.
[0063]
【The invention's effect】
As can be seen from the above description, according to the present invention, the recording medium (for example, HDD) of the recording apparatus has digital data input, for example, digital data ripped from a portable recording medium such as a CD, an external server, etc. The digital data downloaded through communication with is subjected to volume / sound quality processing and stored in a compressed data state. For example, if the user instructs equalizing processing, reverberation processing, echo processing, noise addition processing, etc. as the preferred sound quality state, the music content is stored in the HDD in the preferred sound quality state. Also, by instructing the volume processing, for example, the volume balance of music content ripped from a large number of CDs can be suitably maintained.
Therefore, digital data such as music content read from a recording medium such as an HDD may be reproduced as it is on a recording device, or may be copied to a secondary recording medium and reproduced on a portable player or the like. However, it is played back in a user-preferred volume / sound quality state according to the processing during recording. In other words, even if the playback device does not bother with sound quality adjustment operations during playback or the playback device does not have an advanced sound quality adjustment function, the user can enjoy music content in the desired sound quality state. There is an effect. Alternatively, music content can be heard with an appropriate volume balance.
[0064]
In addition, storing the processed data in a recording medium (HDD) in a compressed data state is suitable for suppressing the capacity consumption of the recording medium. For example, since it may be possible to store one music content in various processing states, it is convenient to record it as compressed data.
[0065]
Further, according to the program of the present invention, a recording apparatus that exhibits the above effects can be realized. The program recording medium of the present invention is suitable for realizing and widely providing a recording apparatus that achieves the above effects.
[Brief description of the drawings]
FIG. 1 is a block diagram of a system configuration according to an embodiment of the present invention.
FIG. 2 is a block diagram of the recording / reproducing apparatus according to the embodiment.
FIG. 3 is an explanatory diagram of processing during recording according to the embodiment.
FIG. 4 is a flowchart of processing for compressed data according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Recording / reproducing apparatus, 21 CPU, 29 CD drive, 31 HDD (primary recording medium), 32 Communication processing part, 34 Audio data processing part, 40 External interface, 20 Secondary recording medium side apparatus (recording / reproducing apparatus)

Claims (14)

And instruction means for instructing recording of the data of the storage medium,
A signal processing means for performing a compression process to generate a compressed data by compressing the processing and data by changing the volume of data to generate the processed data,
Recording means for recording data in the storage medium;
In response to an instruction from said instruction means, the processing of the digital data is performed in the signal processing means, the compression processing for processing data obtained by the above processing is executed in the signal processing means, the compression And a control unit that records the compressed data obtained by the processing on the storage medium by the recording unit. Furthermore the signal processing means decompresses the compressed digital data to perform the decompression processing to form non-compressed data,
The control means, in response to an instruction from said instruction means, the decompression processing for the compressed digital data is performed in the signal processing means, a non-compressed data obtained by the decompression processing as the digital data, the digital The recording apparatus according to claim 1, wherein the signal processing unit is configured to execute the processing and compression processing on data. The control means, in response to an instruction from said instruction means, the processing of the compressed digital data is performed in the signal processing means, the processing data of the compressed digital data obtained by the processing, the recording means the recording apparatus according to claim 1, characterized in that Ru is recorded to the storage medium. Further comprising a reproducing means for reproducing a portable recording medium,
Upper Kide digital data recording apparatus according to claim 1, wherein said reproducing means is a digital data reproduced from a portable recording medium. A communication means,
Upper Kide digital data recording apparatus according to claim 1, characterized in that the digital data received by the communication means. Depending on the instruction to record to the data storage medium,
Execute the processing to generate the processing data by changing the volume of the data,
Execute compression processing on the processing data obtained by the above processing,
A recording method comprising: recording the compressed data obtained by the compression process on the storage medium. Uncompressed data obtained by performing the expansion processing to form non-compressed data by decompressing the compressed digital data as said digital data, and characterized in that performing the above processing and the compression processing for the digital data The recording method according to claim 6. Perform processing for the compressed digital data, processed data of the compressed digital data obtained by the processing, recording method according to claim 6, characterized in that the recording on the storage medium. Depending on the instruction to record to the data storage medium,
Execute the processing to generate the processing data by changing the volume of the data,
Execute compression processing on the processing data obtained by the above processing,
A program for causing a recording device to execute processing for recording the compressed data obtained by the compression processing on the storage medium. The program, the non-compressed data obtained by performing the expansion processing to form non-compressed data by decompressing the compressed digital data as the digital data to perform the above processing and the compression processing for the digital data The program according to claim 9. The program executes the processing of the compressed digital data, processed data of the compressed digital data obtained by the processing, the program according to claim 9, characterized in that the recording on the storage medium. Depending on the instruction to record to the data storage medium,
Execute the processing to generate the processing data by changing the volume of the data,
Execute compression processing on the processing data obtained by the above processing,
A program recording medium recording a program for causing a recording device to execute processing for recording the compressed data obtained by the compression processing in the storage medium. The program, the non-compressed data obtained by performing the expansion processing to form non-compressed data by decompressing the compressed digital data as the digital data to perform the above processing and the compression processing for the digital data The program recording medium according to claim 12. The program executes the processing of the compressed digital data, processed data of the compressed digital data obtained by the processing, a program recording medium according to claim 12, characterized in that the recording on the storage medium .

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