JP4221641B2 - Data processing method, data processing method program, and recording medium storing data processing method program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention , De The data processing method, the program for the data processing method, and the recording medium on which the program for the data processing method is recorded can be applied to a dedicated terminal device that records and sells audio data such as music on a recording medium. The present invention can be applied to a service that distributes music or the like by a dedicated terminal device by confirming the connection of the recording device and decoding the encoded data, thereby effectively avoiding unauthorized use of the content reproduction program. It can be so.
[0002]
[Prior art]
Conventionally, in convenience stores, etc., using a dedicated terminal device, for example, as an online music distribution service, an entertainment ticket, a product sales service, a print service for image data taken with a digital camera, so-called ATM (Automatic Teller Machine) It is designed to provide such services.
[0003]
Among such services, in online music distribution, audio data for music distribution is stored in a server, and the audio data is transmitted to a corresponding dedicated terminal device by access from the dedicated terminal device. Also, in this type of music distribution, so-called users may audition and decide to purchase, so that audio data for audition is stored separately on a server corresponding to the audio data used for music distribution, and a dedicated terminal The audio data for trial listening is provided to a dedicated terminal device by access from the device.
[0004]
Correspondingly, the dedicated terminal device on the store side accesses the server in response to the user's operation, and downloads audio data for trial listening and audio data for music distribution for the music desired by the user. In addition, audio data for trial listening is provided to the user via headphones or the like, and audio data provided for music distribution is recorded on a predetermined recording medium and provided to the user. In the case where such audio data for trial listening and audio data for music distribution have already been downloaded and stored in a hard disk device or the like as a built-in recording means, the dedicated terminal device omits the download process. These processes are executed.
[0005]
In such a system, such music distribution audio data is held in a server by encoded data that has been encoded in a format that is difficult to decompress unless a dedicated playback device is used, and is recorded on a recording medium. In this process, the encoded data is not decoded. Thus, in such a system, unauthorized use by a third party is prevented.
[0006]
On the other hand, audio data for trial listening is compressed in a format widely used on the Internet or the like and stored in a server, and is decompressed and reproduced by a dedicated terminal device. Accordingly, in such a system, the system is constructed by effectively using existing tools.
[0007]
Specifically, audio data for music distribution is encoded and compressed by, for example, ATRAC (Adaptive TRansform Acoustic Coding), and audio data for listening is encoded by, for example, MP3 (MPEG1 Audio layer 3). Data compression. The recording medium is, for example, a mini disk.
[0008]
[Problems to be solved by the invention]
By the way, if the dedicated terminal device can use the audio data for distribution for trial listening, it becomes unnecessary to separately download the audio data for listening to the server. As a result, the number of files held on the server and the number of files to be downloaded can be reduced, and the overall management and overall configuration can be simplified.
[0009]
For this purpose, it is necessary to add a function of reproducing audio data for distribution at an arbitrary editing point to the dedicated terminal device.
[0010]
In addition, since there are a plurality of compression methods for recording audio data on this type of recording medium, it is desired that such a plurality of compression methods be supported in such online music distribution. Moreover, in such a compression method, it cannot be said that a method widely used in the Internet or the like is not employed at all. Thus, in the music playback function added to the dedicated terminal device in this way, a multi-decoder capable of supporting a plurality of types of formats can be used, and this compatible format can be added or changed as appropriate. It is desired to be easy.
[0011]
For this purpose, it is considered most suitable to provide a corresponding multi-decoder library by executing such a function of decompressing data and reproducing music by software processing.
[0012]
However, the content reproduction program developed in this way can operate on a computer, and therefore, the music content or the like may be illegally used due to the theft of the content reproduction program. In other words, there is a risk that illegal copies of music content distributed by this type of system and programs for reproducing content will overflow on the Internet.
[0013]
The present invention has been made in consideration of the above points, and can be applied to a service that distributes music or the like by a dedicated terminal device to effectively avoid unauthorized use of a content playback program. De Data processing method, data processing method program, and recording medium recording the data processing method program.
[0014]
[Means for Solving the Problems]
In order to solve this problem, in the invention of claim 1, encoded data generated by data compression processing of content data is downloaded from a server to a terminal device, and the encoding is performed by a recording device built in the terminal device. In a content providing system for recording data on a recording medium, the built-in recording device is connected by executing a reproduction program for reproducing the encoded data, applied to the data processing method of the encoded data in the terminal device. Detecting the recording device to be detected and detecting the case where the recording device is connected based on the detection result of the detecting step of the recording device by executing the playback program and detecting the playback program to the terminal device of normal The playback program is detected on the terminal device. Normally Only when it is implemented, it has a decoding step of decoding the content data from the encoded data.
[0015]
And claims 3 According to the present invention, content is provided by downloading encoded data generated by data compression processing of content data from a server to a terminal device, and recording the encoded data on a recording medium by a recording device built in the terminal device In the system, the terminal device is applied to a program for a data processing method of the encoded data in the terminal device, the terminal device acquires the encoded data from the server, and the data acquisition unit acquires the encoded data Data transfer means for outputting encoded data to the built-in recording device, and arithmetic processing means for executing the program of the data processing method, wherein the program of the data processing method is a recording for detecting connection of the recording device Based on the detection step of the apparatus and the detection result of the detection step of the recording apparatus, To detect if the recording device is connected to the terminal device normal Detecting the implementation, the terminal device Normally Only when it is implemented, it has a decoding step of decoding the content data from the encoded data.
[0016]
And claims 5 According to the present invention, content is provided by downloading encoded data generated by data compression processing of content data from a server to a terminal device, and recording the encoded data on a recording medium by a recording device built in the terminal device In the system, the terminal device is applied to a recording medium in which a program of the data processing method of the encoded data in the terminal device is recorded, the terminal device acquires the encoded data from the server, and the data acquisition Data transfer means for outputting the encoded data acquired by the means to the built-in recording device, and arithmetic processing means for executing a program for the data processing method. A detection step of the recording device for detecting the connection and a detection result of the detection step of the recording device; Based on, by detecting when the recording device is connected to the terminal device normal Detecting the implementation, the terminal device Normally Only when it is implemented, it has a decoding step of decoding the content data from the encoded data.
[0018]
According to the configuration of claim 1, the program is stored in the terminal device. Normally Only when it is implemented, the encoded data can be decoded and used for trial listening. As a result, even if this program is illegally copied, decryption can be prohibited in this copy program, so that it can be applied to a service that distributes music or the like by the terminal device, and unauthorized use of the content reproduction program can be prevented. It can be effectively avoided.
[0019]
And claims 3 , Claims 5 According to the configuration, the program of the data processing method, which can be applied to a service for distributing music or the like by the terminal device and can effectively avoid the illegal use of the content reproduction program, and the recording in which the program of the data processing method is recorded A medium can be provided.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
[0021]
(1) Configuration of the embodiment
FIG. 2 is a block diagram showing a service providing system according to the embodiment of the present invention. The service providing system 1 provides various services such as music distribution via the dedicated terminal device 2.
[0022]
That is, the dedicated terminal device 2 is a dedicated terminal device that provides this type of service to the user, and is installed in a store such as a convenience store, an amusement facility such as a game center, or on the street side. The dedicated terminal device 2 is provided with a configuration corresponding to various keys and buttons for accepting user operations, a display unit 4 for providing various guidance and the like to the user, and a service provided to the user. Yes.
[0023]
In this embodiment, the dedicated terminal device 2 is configured to provide a service for recording and distributing music desired by a user on a recording medium, and a so-called minidisc 10 is applied as the recording medium. It is made like that. Here, the mini disk 10 is a magneto-optical disk developed for recording and reproducing audio data.
[0024]
For this reason, the dedicated terminal device 2 has an MD recorder 5 for recording audio data at a high speed on the mini disc 10 and a mini disc 10 mounted on the MD recorder 5 as a configuration corresponding to this music distribution service. 5, an MD insertion / removal unit 6 for discharging the mini-disc 10 mounted on the communication unit 7, a communication satellite 7, a storage unit 9 for recording audio data acquired from the management center 11 via the ISDN communication network 8, and an interface for acquiring audio data A fee payment processing mechanism and the like are provided.
[0025]
In the communication network 8, for example, a mobile phone communication network such as PHS, an optical fiber communication network, a satellite communication network, XDSL (ADSL (Asymmetric Subscribe Line), HDSL (High-bit-rate DSL)), WLL, analog It is also possible to apply a telephone line or the like. The fee payment processing mechanism includes a configuration for processing payment by cash, and a configuration for processing payment by credit card, cash card, electronic money or the like.
[0026]
Examples of other services provided by the dedicated terminal device 2 include a box office ticket, a product sales service, a print service of image data taken by a digital camera, a service as a so-called ATM, etc. Configurations corresponding to these services are also provided.
[0027]
As a result, when the music distribution service is selected by the user through the operation of the operation unit 3, the dedicated terminal device 2 accepts music desired to be purchased, and audio data relating to this music is recorded in the storage unit 9 in advance. If not, the audio data is acquired by downloading from the management center 11 via the communication network 8. When the user desires to audition the audio data acquired in this way or the audio data held in the storage unit 9, the audio data is processed and music for audition is output from a speaker and headphones (not shown). . On the other hand, when the user desires to purchase, the display unit 4 displays the instruction to mount the mini disc 10, records the audio data related to the purchase on the mini disc 10, and executes a series of processing related to payment of charges. . Thus, the service providing system 1 can easily obtain desired music.
[0028]
On the other hand, the management center 11 is a center for managing a music distribution service in the service providing system 1, and includes a management computer, a server 12 for storing audio data related to distribution, and the data stored in the server 12. A confirmation computer 13 or the like for maintenance is provided.
[0029]
In this embodiment, the server 12 is data compressed in a format that is difficult to reproduce unless using a dedicated reproducing device. Specifically, the server 12 has increased data compression efficiency compared to ATRAC and ATRAC. Audio data related to distribution is compressed and held by ATRAC3. Hereinafter, a file of audio data compressed by ATRAC and ATRAC3 is referred to as an ATRAC file as appropriate. In addition, a CFF file obtained by optimizing such ATRAC file for downloading to the dedicated terminal device 2 is held together with a data file for trial listening.
[0030]
Here, this optimization is performed by packing the ATRAC file data in advance so that the packetization process can be simplified when outputting the ATRAC file to the MD recorder 5 through the IEEE1394 interface inside the dedicated terminal device 2. Executed. Here, the packing process is a process of blocking the ATRAC file data in units of the data amount constituting the packet and setting a sequence number for each block. As a result, the service providing system 1 can record audio data on the mini-disc 10 at a high speed.
[0031]
Accordingly, in the service providing system 1, the server 12 transmits a CFF file to the dedicated terminal device 2 to download audio data related to distribution to the dedicated terminal device 2. In the dedicated terminal device 2, These CFF files are held in the storage unit 9, and audio data is recorded on the minidisc 10 by the ATRAC file.
[0032]
The data file for trial listening is data that defines the processing of the CFF file when a part of the CFF file held in the storage unit 9 is played back by the playback program and these files are played back for trial listening. A data file for trial listening is created by the editing computer 14 for each file, recorded in the server 12 together with the corresponding file, and provided to the dedicated terminal device 2.
[0033]
The server 12 takes in an ATRAC file from a music content provider or the like, and outputs the ATRAC file to the editing computer 14 in response to a request from the editing computer 14. Further, the ATRAC file is output to the editing computer 14 in this way, the CFF file generated by the editing computer 14 and the data file for audition are taken in, and these files and the sample for audition are requested by the confirmation computer 13. The data file is output to the confirmation computer 13.
[0034]
Here, the editing computer 14 is a computer that creates a CFF file from the ATRAC file and generates a trial listening data file from the ATRAC file by the operation of the operator. The confirmation computer 13 is an operation confirmation computer for confirming the reproduction operation for trial listening of the ATRAC file and the CFF file in the dedicated terminal device 2. Thereby, in the management center 11, the processing of each file in the dedicated terminal device 2 can be confirmed by the confirmation computer 13.
[0035]
FIG. 3 is a block diagram showing the configuration of the dedicated terminal device 2 in detail. The dedicated terminal device 2 is configured by connecting an MD recorder 5, a payment processing mechanism, and the like to a main processing unit 20 having substantially the same configuration as a so-called tower type computer.
[0036]
Here, in the main processing unit 20, the reception / demodulation unit 21 selectively processes the wireless communication wave from the satellite 7 obtained via the antenna 22, thereby processing various data transmitted from the management center 11. Receive and output to bus 23. As a result, the dedicated terminal device 2 acquires a CFF file related to distribution, a data file for trial listening, list data of music contents that can be provided, various commands, and the like.
[0037]
An ISDN interface (ISDN I / F) 24 establishes a communication line with the server 12 of the management center 11 via the ISDN line communication network 8 under the control of the reception / demodulation unit 21 executed via the bus 23. Various commands output from the reception / demodulation unit 21 are output to the server 12, and various data output from the server 12 in response to the commands are received and output to the bus 23. As a result, the dedicated terminal device 2 accesses the server 12 to obtain the CFF file and the trial listening data file for the music content desired by the user.
[0038]
The user interface (user I / F) 26 detects a user operation on the operation unit 3, outputs the detection result to the bus 23, and in response to an instruction from the control unit 25 executed via the bus 23, the display unit 4. A predetermined display screen is formed. As a result, the dedicated terminal device 2 displays a menu of selectable music and the like, accepts an operation such as music selection by the user, and further instructs loading of the mini disc 10 and the like.
[0039]
The IEEE 1394 interface (IEEE 1394 I / F) 27 is an interface defined by IEEE (The Institute of Electrical and Electrical Engineers, Inc.) 1394, and outputs various control commands to the MD recorder 5 under the control of the control unit 25. In addition, the control unit 25 is notified of various statuses obtained from the MD recorder 5 by this command. Further, the data of the CFF file is output to the MD recorder 5 by a series of these controls.
[0040]
In these processes, when outputting the data of the CFF file to the MD recorder 5, the IEEE 1394 interface 27 omits the packing process by packing the data of the CFF file in advance, and the data of the CFF file is packetized. Output. As a result, the dedicated terminal device 2 can transmit the encoded audio data at a high speed.
[0041]
The analog-digital conversion circuit (A / D) 29 performs analog-digital conversion processing on PCM audio data output from the control unit 25 during trial listening under the control of the control unit 25, and generates and outputs an audio signal based on the analog signal. . The amplifier circuit 30 drives a speaker 31 and a headphone (not shown) by the audio signal output from the analog-digital conversion circuit 29, so that the dedicated terminal device 2 can provide music for trial listening to the user. ing.
[0042]
The control unit 25 includes an arithmetic processing unit, a memory that constitutes a work area of the arithmetic processing unit, and the like, and constitutes a controller that controls the operation of the dedicated terminal device 2. The control unit 25 starts up the operation of the reception / demodulation unit 21 at a certain time, for example, by executing a predetermined processing procedure, and monitors data from the reception / demodulation unit 21 sent to the bus 23. Thus, various commands sent from the management center 11 are received. Further, the operation of each unit is controlled according to the received command. In such a control, the operation of the reception / demodulation unit 21 is continuously held in the activated state, and the reception / demodulation unit 21 receives and receives the CFF file, the trial listening data file, and the like related to distribution. The control includes storing the file in the storage unit 9 via the bus 23, the control for deleting the file stored in the storage unit 9 in this way, the display screen update control in the display unit 4, and the like.
[0043]
As a result, in the dedicated terminal device 2, in the music distribution service, the music content distributed in advance via the satellite 7 is received together with the data file for the trial listening and is stored in the storage unit 9. Is designed to update the record of available music content.
[0044]
In addition, the control unit 25 controls the operation of each unit by a user operation detected through the user interface 26, thereby providing various services selected by the user. In this process, when the user selects a music content distribution service, the music content desired by the user is recorded on the mini-disc 10 by executing the processing procedure of FIG.
[0045]
That is, when this processing procedure is started, the control unit 25 moves from step SP1 to step SP2, and displays music content that can be provided on the display unit 4. In this display, the display is switched hierarchically in response to a user operation, and for example, a list is displayed for each category of music content. Further, such music content that can be provided is executed based on the file data held in the server 12 that is notified in advance from the management center 11 via the satellite 7 described above.
[0046]
When the content that can be provided is displayed in this way, the control unit 25 proceeds to step SP3 and accepts selection of the content by the user via the user interface 26.
[0047]
Subsequently, the control unit 25 proceeds to step SP4, and determines whether or not the storage unit 9 holds the CFF file of the music content selected by the user. If a negative result is obtained here, the control unit 25 proceeds from step SP4 to step SP5, activates the ISDN interface 24, and secures a line with the server 12. Further, by requesting transmission of the CFF file corresponding to the server 12 and the trial listening data file for the music content selected by the user by securing this line, the CFF file and the trial listening data file obtained through the ISDN interface 24 as a result are requested. Is stored in the storage unit 9. As a result, the dedicated terminal device 2 downloads the music content file desired by the user from the server 12 together with the trial listening data file.
[0048]
When the music content is downloaded and stored in the storage unit 9 in this way, or when a positive result is obtained in step SP4, the control unit 25 proceeds to step SP6. Here, the control unit 25 displays a menu as to whether or not to audition by controlling the display unit 4 via the user interface 26, and accepts selection as to whether or not to audition by selecting this menu.
[0049]
If an affirmative result is obtained here, the control section 25 moves to step SP7, starts the corresponding reproduction program, starts up the operations of the analog-digital conversion circuit 29 and the amplification circuit 30, and sets them in the corresponding CFF file. The CFF file is partially reproduced for the music content selected by the user by the processing by the reproduction program in accordance with the trial listening data file, and the PCM audio data obtained as a result is processed by the analog / digital conversion circuit 29. As a result, the control unit 25 decodes the CFF file by executing the reproduction program and provides the user with an audio signal for trial listening.
[0050]
When the control unit 25 completes the provision of the audio signal for trial listening and the processing of the reproduction program is completed, the control unit 25 proceeds to subsequent step SP8. If the user instructs the user to stop the trial listening, the control unit 25 stops the execution of the reproduction program and proceeds to step SP8. If a negative result is obtained in step SP6, the process proceeds to step SP8.
[0051]
Here, the control unit 25 displays a menu as to whether or not to purchase, as in the case where the selection of trial listening is accepted, and accepts the purchase of music content by the user by selecting this menu. If a negative result is obtained here, the control unit 25 returns from step SP8 to step SP2, whereas if a positive result is obtained, the control unit 25 proceeds from step SP8 to step SP9. Here, the control unit 8 prompts the user to load the mini disc 10 via the display unit 4, and instructs the MD recorder 5 to start up the operation via the IEEE 1394 interface 27. When loading of the mini disc 10 is detected via the MD insertion / removal unit 6, the free space of the mini disc 10 is confirmed via the MD recorder 5, and then the data of the CFF file held in the storage unit 9 is IEEE1394. The data is sequentially output to the MD recorder 5 via the interface 27, and the ATRAC file data based on the CFF file is recorded on the mini disk 10. When the recording is completed, the process proceeds to step SP10, where an operation by the user is detected, the user's selection as to whether or not to end the purchase is accepted, and if the user subsequently wishes to purchase music content, the process proceeds to step SP2. Return. On the other hand, when the user instructs the end of the process, the process proceeds from step SP10 to step SP11, and after executing a series of processes related to payment of charges, the MD recorder 5 and the MD insertion / removal unit 6 are connected via the IEEE1394 interface 27. The mini disk 10 is instructed to be ejected, and the process proceeds to step SP12 to end the processing procedure.
[0052]
Thus, in the dedicated terminal device 2, the CFF file is reproduced by the reproduction program, the audio signal for trial listening is provided to the user, and the ATRAC file by the CFF file is recorded on the mini disc and provided to the user. It is made like that.
[0053]
FIG. 5 is a block diagram showing the MD recorder 5. In the MD recorder 5, when the mini disc 10 is conveyed by the MD insertion / removal unit 6, the mini disc 10 is placed at a predetermined placement position by a loading mechanism (not shown). When the main processing unit 20 instructs to eject the mini disc 10, the mini disc 10 held at the placement position is transported and ejected by the MD insertion / removal unit 6.
[0054]
In the MD recorder 5, the spindle motor 40 chucks the mini disk 10 held at this placement position and rotationally drives it at a predetermined rotational speed. In this MD recorder 5, for example, when CD format audio data with a sampling frequency of 44.1 [KHz] and quantization of 16 bits is set to 1 × speed, audio input from the IEEE 1394 interface 27 at a speed of 16 × speed. Data can be recorded. The spindle motor 40 rotationally drives the mini disk 10 at a speed corresponding to the 16 × speed.
[0055]
The sled mechanism 41 moves the optical head 43 in the radial direction of the mini-disc 10 under the control of the servo circuit 42, so that the MD recorder 5 can seek. The optical head 43 emits a laser beam from a built-in semiconductor laser, and condenses the laser beam on the information recording surface of the mini disk 10 by the objective lens 44. The optical head 43 receives the return light obtained from the mini-disc 10 by the irradiation of the laser beam through the objective lens 44, receives the return light with a predetermined light receiving element, and outputs the light reception result. As a result, the MD recorder 5 processes the light reception result, the tracking error signal TE whose signal level changes according to the tracking error amount, the focus error signal FE whose signal level changes according to the focus error amount, and the mini disk 10. The wobble signal GFM whose signal level changes according to the meandering of the groove, which is the guide groove of the laser beam formed on the information recording surface, can be reproduced, and the data formed on the mini-disc 10 can be reproduced. Has been made.
[0056]
In this laser beam irradiation, the optical head 43 moves the objective lens 44 by a predetermined actuator 45 so that processing such as focus search can be executed, and tracking control and focus control can be performed. Yes.
[0057]
Further, the optical head 43 is configured to intermittently increase the light amount of the laser beam at a predetermined time interval during recording, thereby recording desired data on the mini disk 10 by a so-called pulse train method.
[0058]
In this way, in the MD recorder 5, the RF amplifier 47 amplifies the light reception result of the return light output from the optical head 43 with a predetermined gain, and then performs matrix calculation processing, whereby the tracking error signal TE, the focus error signal FE, The wobble signal GFM, the reproduction signal RF whose signal level changes according to the pit string formed on the mini-disc 10, and the reproduction signal RF whose signal level changes according to the polarization of the return light are generated.
[0059]
The servo circuit 42 moves the actuator 45 of the optical head 43 with reference to the tracking error signal TE and the focus error signal FE, thereby executing processing such as tracking control, focus control, and focus search. Further, the thread mechanism 41 is controlled by the control of the system controller 48, thereby executing a seek process. Further, the rotational speed of the spindle motor 40 is controlled so that the carrier signal of the wobble signal detected by the address decoder 49 has a predetermined frequency.
[0060]
The address decoder 49 detects a carrier signal from the wobble signal GFM and outputs this carrier signal to the servo circuit 42. Further, the wobble signal GFM is frequency-demodulated on the basis of this carrier signal, and the demodulated result is processed to detect the address data recorded on the mini disk 10 by meandering of the groove.
[0061]
The magnetic head 50 is held so as to face the optical head 43 with the mini disk 10 interposed therebetween, and a modulation magnetic field is applied to the laser beam irradiation position by the optical head 43 by driving of the magnetic head driving circuit 51 during recording. To do. The magnetic head drive circuit 51 drives the magnetic head 50 with the output data of the encoder / decoder 52 during recording. Thereby, the MD recorder 5 can record the output data of the encoder / decoder 52 on the mini disk 10 by applying the thermomagnetic recording technique.
[0062]
The encoder / decoder 52 binarizes and processes the reproduction signal RF obtained from the RF amplifier 47 to reproduce and output the PTOC and UTOC data recorded on the mini-disc 10. At the time of recording, an error correction code is added to the output data of the memory controller 53, and then interleaving processing and EFM modulation processing are performed. Subcode data, sync data, etc. are added to the data resulting from the processing, and the magnetic head driving circuit 51 is added. Output to. The system controller 48 generates UTOC data and outputs it to the magnetic head drive circuit 51.
[0063]
The memory controller 53 inputs CFF file data via the IEEE 1394 interface (IEEE 1394 I / F) 54 when recording audio data. The memory controller 53 records these data in a random access memory (RAM) 55 and temporarily holds them, and outputs them to the encoder / decoder 52 in units of recording on the mini disk 10.
[0064]
The IEEE 1394 interface 54 is an interface based on IEEE 1394, and inputs and outputs various commands obtained from the main processing unit 20 and responses corresponding to the commands to the system controller 48. Also, the data of the CFF file, which is the data for recording on the mini-disc 10 obtained from the main processing unit 20, is received and output to the memory controller 53 by the data of the ATRAC file. Thus, the CFF file is generated by packing the ATRAC file data corresponding to the data transmission by the IEEE 1394 interface, and the transmission side IEEE 1394 interface 27 performs the packing process corresponding to the packing process. By sending out the CFF file data with the omission omitted, the IEEE 1394 interface 54 outputs the ATRAC file data by processing the payload of the received packet in the same way as the normal processing. Yes.
[0065]
The system controller 48 is a central processing unit (CPU) that controls the overall operation of the MD recorder 5. A work area is secured in a random access memory (RAM) 58 and recorded in a read only memory (ROM) 57. By executing this processing procedure, the ATRAC file data is recorded on the mini disc 10 in response to a command from the main processing unit 20 input via the IEEE 1394 interface 54.
[0066]
In this embodiment, the system controller 48 is configured not to execute a series of processes such as recording unless controlled by a dedicated driver input via the IEEE 1394 interface 54, and thereby the host of the MD recorder 5. In the apparatus, whether or not the MD recorder 5 is connected can be confirmed in the upper playback program depending on whether or not the corresponding driver is normally activated, that is, whether or not the MD recorder 5 is in an environment where it can be used. It is made like that.
[0067]
In this way, in the upper playback program, whether or not the MD recorder 5 is in an environment that can be used is determined based on the presence or absence of the corresponding driver. By returning a response to the upper program based on the response obtained from the MD recorder 5 that is the original device, the dedicated terminal device 2 authenticates the connection of the MD recorder 5 by the response from the MD recorder 5. Has been made.
[0068]
As a result, in the dedicated terminal device 2, the audio data compressed in the format corresponding to the playback device of the mini-disc 10 is acquired from the management center 11, and the compressed audio data is transferred to the mini-disc 10 at 16 times speed. It is designed to record at speed. Also, exceptionally, by executing a playback program according to the trial listening data file, a part of the data-compressed audio data is played back for trial listening.
[0069]
In the service providing system 1, the reproduction program is provided in the dedicated terminal device 2, the confirmation computer 13, and the editing computer 14.
[0070]
As shown in FIG. 6, this reproduction program is configured by an API (Application Programming Interface) provided by a multi-decoder library, and sequentially decodes encoded data by an ATRAC file and a CFF file by a corresponding decoder, The PCM audio data that is the decoded data is output. As a result, in this embodiment, the dedicated terminal device 2 can audition the CFF file by executing the reproduction program in accordance with the audition data file. The confirmation computer 13 can confirm the ATRAC file, the CFF file, and the trial data file, and the editing computer 14 can generate the trial data file.
[0071]
Further, the confirmation computer 13 and the editing computer 14 correspond to the multi-decoder library so that the authentication terminal device of the connected device is connected to a parallel interface or USB (Universal Serial Bus). . This authentication terminal device is a device that holds a unique identification code and outputs a response code based on this unique identification code in response to the authentication code input. It can be determined whether or not the authentication terminal device is a connected device. In this embodiment, the authentication terminal device is provided to the computer provided by the reproduction application program and the multi-decoder library.
[0072]
Here, in the API provided by the multi-decoder library, functions such as file open (open), file close (close), setup (setup), read (read), seek (set), and setpoint (setpoint) are provided. It is made to be defined.
[0073]
Of these, the file open function is a function for instructing file open. In the reproduction program, the file specified by the parameters described in this function is opened. The application program for playback is activated by opening the file and the decoder specified by the parameter (in this embodiment, a program for decoding data in the ATRAC, ATRAC3 file, or CFF file, details will be described later) However, the processing procedure shown in FIG. 1 is executed.
[0074]
That is, the program related to this file opening shifts from step SP21 to step SP22 upon activation, and determines whether or not the MD recorder 5 is connected. Here, this program determines whether or not the MD recorder 5 is connected based on a response from the driver that drives the MD recorder 5, and if it is connected, it is normally installed in the dedicated terminal device 2. If it can be determined as a case, the process proceeds to step SP23 to execute the process of opening the corresponding file, and then the process proceeds to step SP24 to end the process procedure. In this file open, if a positive result is obtained in this step SP22, a predetermined flag is set. At the subsequent startup, the MD recorder 5 is connected by checking this flag in step SP22. Thus, frequent access of the MD recorder 5 is effectively avoided, and a decrease in processing speed is effectively avoided.
[0075]
On the other hand, if a negative result is obtained in step SP22, in this case, it may be considered that the copy is illegally installed and installed in a normal computer, and the process proceeds from step SP22 to step SP25. Here, this program determines whether or not the authentication terminal device is connected. Here, the program outputs a predetermined authentication code to a port to which the authentication terminal device is connected, and confirms the connection of the normal authentication terminal device by confirming the response.
[0076]
If an affirmative result is obtained, in this case, for example, in the confirmation computer 13 and the editing computer 14, it is considered that the MD recorder 5 is used without being connected, and the process proceeds to step SP23. On the other hand, if a negative result is obtained in step SP25, in this case, since it is not an operation in the confirmation computer 13 or the editing computer 14, the process proceeds from step SP25 to step SP26, and the predetermined end is completed without opening any file. After executing the process, the process proceeds to step SP24 and the process procedure is terminated.
[0077]
In this embodiment, in the reproduction program, in the case of illegal copying, the reproduction target file itself cannot be opened, and the program relating to such illegal copying cannot be used. Has been made.
[0078]
On the other hand, in the file close, it is a function corresponding to the file open, and the file opened by the file open is closed.
[0079]
Further, in the setup, it is a function for securing a read buffer for decoding data, and in the parameters, the capacity of PCM audio data that is a processing result to be passed to the subsequent program can be specified in units of seconds. This PCM audio data An area for decoding data is secured in accordance with the capacity specification in FIG.
[0080]
Further, in the read, it is a function for reading the file data by the file open to the buffer secured by the setup, and the decrypted PCM audio data is passed to the subsequent program.
[0081]
In seeking, it is a function for changing a pointer related to reading. The set point is a function for specifying a range related to the lead. As shown in FIG. 7, parameters for fade-in and fade-out processing can be specified in this function. In FIG. 7, a file whose playback time is n seconds as a whole is opened by opening the file, and the vertical axis indicates the volume. In the set point, a playback start position ul Start, a playback end position ul Stop, a fade-in transition time ul Fadein Time, and a fade-out transition time ul Fadeout Time can be set.
[0082]
Thus, as shown in FIG. 8, the trial listening data file is composed of files in which these functions are sequentially described together with parameters, and is created for each CFF file.
[0083]
In the reproduction program, the CFF file is partially reproduced and provided for trial listening by executing the processing procedure shown in FIG. 9 in accordance with the description of the trial listening data file.
[0084]
In other words, when the reproduction program starts operation, the process proceeds from step SP31 to step SP32, the file to be reproduced is opened by opening the file, the decoder is activated, and a buffer for reading data is secured by setup in the subsequent step SP33. Subsequently, after specifying a decoding range or the like by seek, set point, or the like, the process proceeds to step SP34. Here, the reproduction program reads the data of the CFF file, which is the encoded data, in the buffer secured by the setup according to the pointer specified by the set point for the file open file by the read function. As a result, in the reproduction program, in the subsequent step SP35, the read data is sequentially transferred to the corresponding decoder, and PCM audio data as the processing result is received.
[0085]
When the process for the encoded data read to the buffer is completed, the playback program determines whether or not the playback has been completed up to the playback end position indicated by the set point in the subsequent step SP36, and a negative result is obtained here. If so, the process returns to step SP34. As a result, the reproduction program repeats the processing procedure of steps SP34-SP35-SP36-SP34, sequentially decodes the audio data in units of the buffer capacity designated by the setup, and when reproduction is completed to the reproduction end position, step SP37. Move on. Here, the reproduction program closes the file and, in the subsequent step SP38, releases the area secured in step SP33, and then moves to step SP39 to end the processing procedure.
[0086]
In these processes, when parameters such as fade-in are set, the reproduction program executes a process such as fade-in by sequentially calculating PCM audio data values obtained from the decoder.
[0087]
In the reproduction program, the PCM audio data obtained in this way is converted into an analog signal by the analog-digital conversion circuit 29, and then is amplified by the amplifier circuit 30 so as to be output to the headphones. Thereby, an audio signal for trial listening is provided to the user.
[0088]
In the confirmation of the ATRAC file and the CFF file itself in the confirmation computer 13 and the editing computer 14, the entire opened file can be reproduced and confirmed by omitting the setting of the pointer by the setpoint. In preparation of the trial data file in the editing computer 14, a trial data file is appropriately created, and the trial data file is corrected and executed by confirming the trial data using the trial data file. .
[0089]
As a result, as shown in FIG. 10, in the confirmation computer 13 and the editing computer 14, the playback program operates on the condition that the MD recorder 5 or the authentication terminal device 60 is connected, and the server 12 The held ATRAC file and CFF file can be reproduced. As shown in FIG. 11, the dedicated terminal device 2 operates on the condition that the MD recorder 5 is connected, and stores the CFF file stored in the storage unit 9 via the communication network 8. It has been made available for playback.
[0090]
FIG. 12 is a functional block diagram for explaining the decoder provided by this decoder library in comparison with the recording on the mini-disc 10 for the dedicated terminal device 2. In this decoder library, an ATRAC decoding unit 61 for decoding audio data encoded by ATRAC and an ATRAC3 decoding unit 62 for decoding audio data encoded by ATRAC3 so as to correspond to the data format used for decoding. The depacking unit 63 for converting the data of the CFF file into the data of the ATRAC file is appropriately incorporated according to the file opening parameter.
[0091]
That is, when reproducing the audio data compressed by ATRAC in the confirmation computer 13 and the editing computer 14, the ATRAC file data is sequentially provided to the ATRAC decoding unit 61 via the buffer 65 secured by the setup. Decoding is performed by the decoding unit 61. Also, the PCM audio data as the decoded data is output to the playback unit 67 via the sound buffer 66, and this PCM audio data is sequentially provided to the operator.
[0092]
On the other hand, when reproducing the audio data compressed by ATRAC3, an ATRAC3 decoding unit 62 is incorporated instead of the ATRAC decoding unit 61, and the data of the ATRAC file is sequentially provided to the ATRAC3 decoding unit 62 via the buffer 65. Then, the ATRAC3 decoding unit 62 performs decoding. Also, the PCM audio data as the decoded data is output to the playback unit 67 via the sound buffer 66, and this PCM audio data is sequentially provided to the operator.
[0093]
On the other hand, when reproducing the data of the CFF file, the data of the CFF file is sequentially input to the depacking unit 63 via the buffer 65, and the packing of the CFF file is released here. Further, when the audio data thus unpacked is audio data compressed by ATRAC, it is decoded by the ATRAC decoding unit 61, and when this audio data is audio data compressed by ATRAC3, ATRAC3 Decoding is performed by the decoding unit 62.
[0094]
In these processes, in this decoder library, a data capacity of 2 seconds is secured as a sound buffer, so that even if the decrypted PCM audio data is obtained illegally by modifying the playback application program, Acquisition of everything is made extremely difficult.
[0095]
As a result, in this embodiment, in the confirmation computer 13 and the editing computer 14, the data input / output interface with the server 12 is subjected to data compression processing in a format that is difficult to reproduce unless a specific reproducing device is used. The encoded data acquisition means for acquiring the encoded data is configured, and the arithmetic processing means constitutes a decoding means for decoding the encoded data and outputting the decoded data. Also, the MD recorder, the interface for connecting the authentication terminal device, and the arithmetic processing means constitute an authentication means for authenticating the MD recorder that is the recording device and the authentication terminal device that is the authentication device, and are decrypted by the arithmetic processing means. The means stops operation according to the authentication result of the authentication means.
[0096]
On the other hand, in the dedicated terminal device 2, the reception / demodulation unit 21, the control unit 25, and the storage unit 9 constitute encoded data acquisition means for acquiring encoded data obtained by data compression processing, and the control unit 25. The IEEE 1394 interface 27 constitutes data transfer means for outputting the encoded data to the MD recorder 5 as a recording device. In addition, the control unit 25 constitutes a decoding unit that decodes the encoded data and outputs the decoded data, and an authentication unit that authenticates the connection of the recording apparatus.
[0097]
On the other hand, in the MD recorder 5, the random access memory 55 and the memory controller 53 constitute conversion means for converting the encoded data input from the data transfer means of the dedicated terminal device 2 into a recording unit for the recording medium. The configuration from the encoder / decoder 52 to the magnetic head 50, and various configurations for driving the mini disk 10 and the optical head 43 constitute recording means for recording the encoded data of this recording unit on the recording medium. ing. The IEEE 1394 interface 54 of the MD recorder 5 and the system controller 48 that controls the interface 54 constitute response means for outputting a response to the authentication means of the dedicated terminal device 2.
[0098]
(2) Operation of the embodiment
With the above configuration, in the service providing system 1 (FIG. 2), the music provider compresses the PCM audio data with ATRAC or ATRAC3 in the editing computer 14 or the like to create an ATRAC file. Recorded in the server 12. Corresponding to packetization in downloading to the MD recorder 5, the ATRAC file data stored in the server 12 in this way is packed to create a CFF file, and this CFF file is stored in the server 12. Further, the ATRAC file and the CFF file recorded in the server 12 in this way are reproduced, and further, the ATRAC file held in the editing computer 14 is reproduced, and a trial listening data file (FIG. 8) is created. The trial listening data file is stored in the server 12. As a result, in the service providing system 1, the content for music distribution is stored in the server 12 together with the data for listening.
[0099]
The ATRAC file and the CFF file stored in the server 12 in this manner are reproduced and confirmed by the confirmation computer 13, and the CFF file is reproduced by the trial data file to confirm the trial music.
[0100]
In the service providing system 1, the so-called best-selling among the music contents stored in the server 12 in this way. When The possible music content is distributed to the dedicated terminal device 2 via the satellite 7 together with the CFF file, the corresponding data file for trial listening, the list data of music content that can be provided, etc., and stored in the storage unit 9 of the dedicated terminal device 2. Retained.
[0101]
In the service providing system 1, each music content is held in this manner, and when the user operates the dedicated terminal device 2 and wants to listen to the music, the music content desired to be listened to is held in the storage unit 9. If not, the server 12 is accessed from the dedicated terminal device 2 and the CFF file and the data file for trial listening are downloaded from the server 12 and stored in the storage unit 9 for the music content related to the trial listening request. In the dedicated terminal device 2, the music content obtained by such download, the music content delivered by using the satellite 7, and the music content held in the storage unit 9 by the download by another user's request are partially reproduced. Provided to users for audition.
[0102]
In addition, when the user gives an instruction to record music content on the mini disc, the music content held in the storage unit 9 is recorded on the mini disc 10 in this way.
[0103]
In recording the music content on the mini-disc 10, the data of the CFF file formed by packing the ATRAC file data is output to the MD recorder 5 and recorded on the mini-disc 10. It is possible to remarkably reduce the burden on the interface related to downloading of music contents to the MD recorder 5 and to record the music contents on the mini disc at a high speed.
[0104]
In the service providing system 1 that provides music content in this way, a part of the CFF file to be recorded on the mini-disc 10 is reproduced in the dedicated terminal device 2 and provided for trial listening. As a result, in the service providing system 1, it is not necessary to separately store a music file for trial listening in the server 12, and accordingly, the burden on the server 12, the burden of data communication between the server 12 and the dedicated terminal device 2, etc. Has been made to be able to reduce.
[0105]
In the service providing system 1, playback of the music content for trial listening is executed by a playback program, and this playback program is configured by a multi-decoder library based on API, thereby simplifying playback of music for trial listening in a plurality of formats. And it can respond flexibly. That is, a plurality of types of data compression formats can be supported, and a compression format based on formats such as AIFF and WAV, and a new compression format can be supported with a minimum modification. Also, the present invention can be applied to reproduction processing in the confirmation computer 13 and the editing computer 14.
[0106]
However, when playing music content that has been compressed by software in this way, this kind of data-compressed music content is not available on an unintended device or network due to an unauthorized copy of the playing program. The case where it is used occurs.
[0107]
In the service providing system 1, when the MD recorder 5 is authenticated in the file open in this reproduction program and the MD recorder 5 is not connected, the decoding process by the reproduction program is stopped without opening the file. .
[0108]
As a result, even when the reproduction program is illegally copied from the dedicated terminal device 2, for example, the connection of the MD recorder 5 cannot be confirmed when the reproduction program is installed and executed on the computer. Execution of the program related to unauthorized copying can be stopped to make the program related to unauthorized copying meaningless, thereby effectively avoiding unauthorized use of the content reproduction program.
[0109]
Further, even when illegally copied from the confirmation computer 13 and the editing computer 14, the execution of the program related to the unauthorized copy can be stopped to make the program related to the unauthorized copy meaningless. Thus, unauthorized use of the content reproduction program can be effectively avoided.
[0110]
When processing is performed in this manner, the MD recorder 5 may not always be connected during playback on the confirmation computer 13 and the editing computer 14, and the authentication terminal device is further removed during use. In some cases, in the reproduction program, even when the MD recorder 5 is not connected, if the predetermined authentication terminal device 60 is connected, the file is opened and reproduced. Such processing in the confirmation computer 13 and the editing computer 14 can be executed flexibly.
[0111]
In the reproduction program for executing the authentication process by opening the file in this way, a corresponding decoder is prepared by opening the file, and when this is used to create a data file for listening, this decoder can be used by any operator. The decoder corresponding to the data compression format can be hidden without being conscious. This can also effectively prevent unauthorized use of this type of program and further reduce the burden on the operator.
[0112]
In addition, since the file seek can be supported, a trial listening data file can be created with a simple description, and desired music for trial listening can be provided.
[0113]
(3) Effects of the embodiment
According to the above configuration, by confirming the connection of the recording device and decoding the encoded data, it can be applied to a service that distributes music or the like by a dedicated terminal device, and effectively avoids unauthorized use of the content playback program can do.
[0114]
In addition, by stopping the operation of the playback program according to the response code obtained by outputting the authentication code to the authentication device that is the authentication terminal device, playback is possible even when such a recording device is not connected. Usability on the management side can be improved and illegal use of the content reproduction program can be effectively avoided.
[0115]
In addition, the encoded data is packed and held and transferred to the recording device, and the packing unit releases the packing and generates decoded data, thereby downloading music content to the recording medium at a high speed. Thus, this music content file can be used for audition.
[0116]
(4) Other embodiments
In the above-described embodiment, the case where the encoded data obtained by compressing the data is packed and transmitted to the dedicated terminal device has been described. However, the present invention is not limited to this, and the packing process is omitted as necessary. Then, it may be transmitted.
[0117]
In the above-described embodiment, the case where the decoded PCM audio data is processed by analog-digital conversion has been described. However, the present invention is not limited to this, and PCM audio data is output to an external device. The present invention can be widely applied to the case of processing after digital-analog conversion.
[0118]
In the above-described embodiments, the case where audio data is encoded by ATRAC and ATRAC3 has been described. However, the present invention is not limited to this, and the present invention can be widely applied to cases where data compression is performed using other formats. .
[0119]
In the above-described embodiment, the case where music content is provided by a dedicated terminal device has been described. However, the present invention is not limited to this, and can be widely applied to cases where various contents such as movies are provided. .
[0120]
【The invention's effect】
As described above, according to the present invention, by confirming the connection of the recording device and decoding the encoded data, the present invention can be applied to a service that distributes music or the like by a dedicated terminal device, and illegal use of the content reproduction program It can be effectively avoided.
[Brief description of the drawings]
FIG. 1 is a flowchart for explaining file open processing in a reproduction program according to an embodiment of the present invention;
FIG. 2 is a block diagram showing a service providing system to which the reproduction program of FIG. 1 is applied.
3 is a block diagram showing a dedicated terminal device in the service providing system of FIG. 2. FIG.
4 is a flowchart for explaining a download process in the dedicated terminal device of FIG. 3;
5 is a block diagram showing an MD recorder in the dedicated terminal device of FIG. 3. FIG.
FIG. 6 is a functional block diagram showing a configuration of a reproduction program.
FIG. 7 is a characteristic curve diagram for explaining fade-in and fade-out processing.
FIG. 8 is a chart for explaining a trial listening data file.
FIG. 9 is a flowchart for explaining a reproduction program;
FIG. 10 is a functional block diagram illustrating configurations of a confirmation computer and an editing computer.
FIG. 11 is a functional block diagram showing a dedicated terminal device.
FIG. 12 is a functional block diagram showing a configuration of a decoder in a reproduction program.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Service provision system, 2 ... Dedicated terminal device, 5 ... MD recorder, 7 ... Satellite, 8, 25 ... Control part, 9 ... Memory | storage part, 10 ... Mini-disc, 11 ... Management center , 12... Server, 13... Confirmation computer, 14... Editing computer, 27 and 54... IEEE 1394 interface, 60.

Claims (5)

In the content providing system in which encoded data generated by data compression processing of content data is downloaded from a server to a terminal device, and the encoded data is recorded on a recording medium by a recording device built in the terminal device, the terminal A data processing method for the encoded data in an apparatus, comprising:
A recording device detection step of detecting connection of the built-in recording device by executing a reproduction program for reproducing the encoded data;
By executing the playback program, based on the detection result of the detection step of the recording device, the case where the recording device is connected is detected to detect normal implementation of the playback program on the terminal device, A data processing method comprising: a decoding step of decoding the content data from the encoded data only when the playback program is normally installed in the terminal device. The encoded data is
Parameters for specifying the file to be played back by encoding the content data by any of a plurality of types of data compression methods, and parameters for specifying the audition start position and audition end position of the corresponding file Is stored in the server together with the audition data describing
The decoding step includes:
The data processing method according to claim 1, wherein the content data is decoded for trial listening from the encoded data by processing a corresponding file in accordance with parameters set for the trial listening data . In the content providing system in which encoded data generated by data compression processing of content data is downloaded from a server to a terminal device, and the encoded data is recorded on a recording medium by a recording device built in the terminal device, the terminal A program for a data processing method of the encoded data in an apparatus,
The terminal device
Data acquisition means for acquiring the encoded data from the server;
Data transfer means for outputting the encoded data acquired by the data acquisition means to the built-in recording device;
Arithmetic processing means for executing the program of the data processing method,
The data processing method program includes:
A recording device detecting step for detecting connection of the recording device;
Based on the detection result of the detecting step of the recording device, when said recording apparatus is connected is detected and the detected normal implementation to the terminal apparatus, if it is successfully implemented in the terminal device And a decoding step for decoding the content data from the encoded data. The encoded data is
Parameters for specifying the file to be played back by encoding the content data by any of a plurality of types of data compression methods, and parameters for specifying the audition start position and audition end position of the corresponding file Is stored in the server together with the audition data describing
The decoding step includes:
The data processing method program according to claim 3 , wherein the content data is decoded from the encoded data for trial listening by processing a corresponding file according to the parameters set in the trial listening data. . In the content providing system in which encoded data generated by data compression processing of content data is downloaded from a server to a terminal device, and the encoded data is recorded on a recording medium by a recording device built in the terminal device, the terminal A recording medium on which a program for a data processing method of the encoded data in an apparatus is recorded,
The terminal device
Data acquisition means for acquiring the encoded data from the server;
Data transfer means for outputting the encoded data acquired by the data acquisition means to the built-in recording device;
Arithmetic processing means for executing the program of the data processing method,
The data processing method program includes:
A recording device detecting step for detecting connection of the recording device;
Based on the detection result of the detecting step of the recording device, when said recording apparatus is connected is detected and the detected normal implementation to the terminal apparatus, if it is successfully implemented in the terminal device And a decoding step of decoding the content data from the encoded data. A recording medium on which a program of a data processing method is recorded.

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