JP2004133657A - Communication device, terminal device, communication method, program, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide only data of differences for obtaining a high quality when giving a high quality to high compressed content data to reproduce it in a content delivery system. <P>SOLUTION: One content data is preliminarily divided into divided data which can be demodulated by mutual combination. On the communication device side, divided data into which content data is divided are so stored that they can be retrieved by content discrimination information indicating a classification of the content data. When content discrimination information is received from an external (terminal) device, divided data which can be demodulated by combination with designated divided data out of divided data held in the terminal device is retrieved on the basis of the content discrimination information. Divided data retrieved in this manner is transmitted and is received by the terminal device. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication device for distributing required content to a terminal device, for example, and the terminal device. The present invention also relates to a communication method in the communication device, a program executed by the communication device, and a recording medium on which the program is recorded. Further, the present invention relates to a communication method in the terminal device, a program executed by the terminal device, and a recording medium storing the program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is a content distribution service that distributes content such as video and music via a network such as the Internet and collects the price from a user.
In such a content distribution service, a user can download a desired content from the content distribution server by accessing a server that distributes the content using a device having a network connection function such as a personal computer. Then, the content downloaded in this way is stored in a storage medium such as an HDD (hard disk drive), and the content can be reproduced and enjoyed.
[0003]
In addition, by using such a content distribution service, a user can download a desired content by using a network-compatible mobile terminal such as a mobile phone.
In this case, such portable terminals often have relatively low data communication capabilities, and often cannot perform high-quality reproduction as a content reproduction environment. Therefore, in the content distribution to such a portable terminal, for example, the data capacity subjected to high compression processing by a required data compression method such as the MP3 (MPEG audio layer 3) method or the ATRAC (Adaptive Transform Acoustic Coding) method is used. It is common to deliver small, relatively low quality content.
Such compressed contents are often available relatively inexpensively, and users can easily download these compressed contents to portable terminals.
[0004]
[Problems to be solved by the invention]
By the way, the compressed content obtained by the mobile terminal as described above can be enjoyed as an appropriate quality because the content reproduction environment is often not good on these mobile terminals for the content to be reproduced on the mobile terminal or the like. it can. However, for example, when the playback environment of the content is established in a home or the like, and the compressed content downloaded in this way is to be played back by, for example, a personal computer or a dedicated playback device, the compressed content is played back with higher quality. It is expected that he wants to.
[0005]
In this way, when attempting to play back the already acquired compressed content as higher quality data, at present, the user, for example, obtains a higher quality content data having the same content as the compressed content from a server that distributes the content. Will be downloaded again. Alternatively, package media containing higher-quality content having the same content is purchased again.
[0006]
For this reason, conventionally, when a user tries to play back the obtained compressed content with higher quality, even though the user has already paid for the compressed content, the user is required to renew the high quality content as described above. You have to pay a fee. In other words, the user simply wants to improve the quality of the content that he or she already owns, but is forced to pay the fee twice as described above, for example.
From such a point, it can be said that in the conventional content distribution service, an appropriate charge corresponding to the content to be distributed is not performed.
[0007]
[Means for Solving the Problems]
In view of the above problems, the present invention is configured as a communication device as follows.
That is, first, divided data formed by dividing the content data so that each becomes a part of the specific content data is accumulated in a searchable state by the content identification information indicating the distinction of the content data. Provide storage means.
And receiving means for receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data. A search unit that searches for divided data that can be demodulated by combining with the divided data specified in the external device from the storage unit based on at least the content identification information received by the reception unit, And transmitting means for transmitting the divided data retrieved by the retrieval means to the external device.
[0008]
Further, in the present invention, a communication method in the communication device is as follows.
That is, first, the divided data formed by dividing the content data so that each becomes a part of the specific content data is accumulated in a searchable state by the content identification information indicating the content data. Execute the accumulation process.
A receiving process of receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data; Based on the content identification information received in the receiving process, a search process of searching the divided data stored in the storage process for the split data that can be demodulated by combining with the specified split data in the external device. And a transmission process for transmitting the divided data retrieved by the retrieval process to the external device.
[0009]
Further, according to the present invention, the following program is executed by the communication device.
That is, a storage process of storing divided data formed by dividing the content data so that each becomes a part of specific content data in a searchable state by content identification information indicating another of the content data. Receiving processing for receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data; Based on the content identification information received in the receiving process, a search process of searching the divided data stored in the storage process for the split data that can be demodulated by combining with the specified split data in the external device. And transmitting the divided data retrieved by the retrieval processing to the external device. And so as to execute the signal processing in the communication apparatus.
[0010]
Further, in the present invention, the following is used as a recording medium.
That is, a storage process of storing divided data formed by dividing the content data so that each becomes a part of the specific content data in a searchable state by the content identification information indicating another of the content data. Receiving processing for receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data; Based on the content identification information received in the receiving process, a search process of searching the divided data stored in the storage process for the split data that can be demodulated by combining with the specified split data in the external device. And transmitting the divided data retrieved by the retrieval processing to the external device. The program for executing the processing to the communication apparatus so as to record.
[0011]
According to the present invention, one piece of content data is divided by divided data that can be combined and demodulated. Then, in the present invention, the divided data of the content data is stored in a searchable manner with the content identification information indicating the type of the content data.
When the content identification information is received from the external device, based on the content identification information, the divided data held in the external device is combined with the designated divided data to be demodulated. The data is searched.
Further, the divided data searched in this way is transmitted to the external device.
[0012]
Thus, according to the present invention, it is possible to transmit to the external device, the divided data that can be demodulated by combining with the specified divided data among the divided data held in the external device. .
That is, it is possible to transmit only the divided data that can form content data having the same content to the external device together with the divided data that is a part of the specific content data specified in the external device. That is what you can do.
[0013]
In the present invention, the terminal device is configured as follows.
That is, first, the divided data formed by dividing the content data so that each becomes a part of the specific content data is stored so as to be managed by the content identification information indicating the distinction of the content data. Storage means capable of storing the information.
Then, by transmitting content identification information corresponding to the designated divided data from the divided data stored in the storage means to an external communication device, the designated communication device is provided with the designated divided data. Requesting means for requesting divided data that can be demodulated by being combined with the divided data, and further receiving divided data capable of receiving divided data transmitted from the communication device in response to a request from the requesting means; Means were provided.
[0014]
Further, in the present invention, a communication method in the terminal device is as follows.
That is, first, the divided data formed by dividing the content data so that each becomes a part of the specific content data is managed by the content identification information indicating the distinction of the content data. And transmits the content identification information corresponding to the specified divided data to the external communication device from among the divided data stored in the storage unit by the storing process. By doing so, a request process for requesting the demodulated data to be combined with the designated divided data to the communication device, and the divided data transmitted from the communication device in response to a request by the request process are performed. The received divided data receiving process is executed.
[0015]
Further, in the present invention, the following program is executed by the terminal device.
That is, the divided data formed by dividing the content data so that each becomes a part of the specific content data is stored in the storage means so as to be managed by the content identification information indicating the distinction of the content data. By transmitting content identification information corresponding to the designated divided data from the divided data stored in the storage means by the storing process to the external communication device, On the other hand, request processing for requesting divided data that can be demodulated by combining with the designated divided data, and divided data receiving processing for receiving divided data transmitted from the communication device in response to a request by the request processing are described. The terminal device is made to execute.
[0016]
Further, in the present invention, the following is used as a recording medium.
That is, the divided data formed by dividing the content data so that each becomes a part of the specific content data is stored in the storage means so as to be managed by the content identification information indicating the distinction of the content data. By transmitting content identification information corresponding to the designated divided data from the divided data stored in the storage means by the storing process to the external communication device, On the other hand, request processing for requesting divided data that can be demodulated by combining with the designated divided data, and divided data receiving processing for receiving divided data transmitted from the communication device in response to a request by the request processing are described. A program to be executed by the terminal device is recorded.
[0017]
According to the present invention as well, one piece of content data is divided by divided data that can be combined and demodulated. Then, in the present invention, the divided data is stored in the storage means so as to be managed by the content identification information indicating the type of the content data. Then, by transmitting content identification information corresponding to the designated divided data from the divided data stored therein to an external communication device, the designated divided data is transmitted to the communication device. It is possible to request divided data that can be combined and demodulated.
Then, the divided data transmitted from the communication device in response to the request is received.
[0018]
Thus, according to the present invention, receiving the divided data which can be demodulated by combining with the specified divided data among the divided data stored in the storage means, which is transmitted by the external communication device. Will be able to
That is, only the divided data that can form the content data having the same content as the specified divided data that is a part of the specific content data can be received from the communication device. It is.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described. The description will be made in the following order.
1. Overview of content distribution system
2. Example of internal configuration of communication device
3. Example of internal configuration of terminal device
4. Overview of operation in content distribution system
5. Processing operation
[0020]
1. Overview of content distribution system
FIG. 1 is a diagram for describing an outline of a content distribution system including a communication device and a terminal device according to an embodiment of the present invention.
In FIG. 1, a server 1 is a communication device according to an embodiment, and is managed by, for example, a provider of a content distribution service. The server 1 is configured to enable data communication with an external device connected via a network 3 such as the Internet, for example.
The personal computer 20 is a terminal device according to the embodiment, and is used by a user who receives a content distribution service.
The personal computer 20 is connected to the network 3 as shown in the figure, and is capable of performing a content distribution request to the server 1 and receiving a distribution content.
[0021]
Here, it is assumed that content data handled in the content distribution system according to the present embodiment has the following signal format.
That is, as the content data handled in the present embodiment, the original audio data (PCM data) is divided into three frequency bands of, for example, 20 Hz to less than 20 kHz, 20 kHz to less than 40 kHz, and 40 Hz to 60 kHz. , The data of each band is subjected to compression processing by a required data compression method.
Of these divided (compressed) data, the above-mentioned data of 20 Hz or more and less than 20 kHz is referred to as base data A, and this base data A is a single piece of complete data with a sound quality such that the contents of the original content can be understood. A thinning-out process and a compression process are performed so that reproduction is possible. Hereinafter, this base data A is also simply referred to as A data.
Data of 20 kHz or more and less than 40 kHz and 40 kHz or more and 60 kHz or less are respectively referred to as high quality data B1 and high quality data B2. The quality-enhancing data B1 and B2 alone do not make sense as a single content, and the quality-enhancing data B1 among them can enhance the base data A. The quality-enhanced data B2 is subjected to thinning-out processing and compression processing so that the sound quality of the base data A whose quality has been enhanced by the quality-enhanced data B1 can be further enhanced.
In the following, these high quality data B1 and high quality data B2 are collectively referred to as B data.
[0022]
In the content distribution system according to the present embodiment, the base data A is recorded, for example, on a required package medium and distributed free or relatively cheaply (at least cheaper than the B data). Alternatively, the data is obtained free or relatively inexpensively (at least cheaper than the B data) from a predetermined server on the network by a required portable terminal device. Then, the personal computer 20 can take in the base data A distributed by the package media or acquired by the portable terminal device.
On the other hand, the high-quality data B1 and the high-quality data B2 are stored in the server 1.
[0023]
In such a content distribution system according to the present embodiment, as described later, the quality-enhancing data B1 and B2 corresponding to the base data A captured by the personal computer 20 are used in response to a request from the personal computer 20. It is distributed by the server 1 based on this.
[0024]
2. Example of internal configuration of communication device
FIG. 2 is a block diagram illustrating an example of the internal configuration of the server 1 as the communication device according to the present embodiment.
First, in FIG. 1, the CPU 11 performs overall control and arithmetic processing of the server 1 based on the activated program. In particular, in the case of the present embodiment, the CPU 11 performs the operation shown in FIGS. 6 and 7 later based on the activated program.
The CPU 21 exchanges control signals and data with each circuit unit via the bus 19 shown in the figure.
[0025]
The memory unit 12 comprehensively shows a RAM, a ROM, a flash memory, and the like used by the CPU 11 for processing.
The ROM of the memory unit 12 stores an operation program of the CPU 11, a program loader, and the like. The flash memory in the memory unit 12 stores various operation coefficients, parameters used in programs, and the like.
In the RAM of the memory unit 12, a data area and a task area for executing a program are temporarily secured.
[0026]
The storage management unit 14 performs a write / read access operation of various data such as a content file and management information for managing the content file with respect to the storage unit 15 illustrated under the control of the CPU 11.
In the case of the present embodiment, a database 15a is formed in the storage unit 15 as shown in the figure, and the database 15a stores a plurality of the quality-enhancing data B1 and the quality-enhancing data B2 described in FIG. Have been. For example, a content ID is written in the file of each of the high-quality data B1 and the high-quality data B2, for example, with respect to a header portion. Are formed. In addition, information indicating whether the file is the quality-enhanced data B1 or the quality-enhanced data B2 is also written in the file as the B data.
In addition, in the case of the present embodiment, the storage unit 15 also stores a program 15b, which is shown, for the CPU 11 to perform a processing operation shown in FIGS.
The storage management unit 14 reads predetermined B data from the database 15a in response to an instruction from the CPU 11.
[0027]
The encryption / decryption processing unit 13 performs encryption / decryption processing of various communication data under the control of the CPU 11.
For example, the encryption / decryption processing unit 13 performs an encryption process on data to be transmitted to a personal computer 20 connected via a network interface 17 shown in FIG. A decoding process is performed on the processed various data.
Further, as will be described later, encryption processing is performed on the quality-enhanced data (B data) read by the storage management unit 14.
[0028]
The communication processing unit 16 performs an encoding process of transmission data and a decoding process of reception data conforming to a predetermined network communication protocol under the control of the CPU 11.
The network interface 17 transmits the transmission data encoded by the communication processing unit 16 to a predetermined device, for example, the personal computer 20 via the network 3 shown in FIG. In addition, a signal transmitted from an external device such as the personal computer 20 via the network 3 is transferred to the communication processing unit 16.
The communication processing unit 16 transfers the received information to the CPU 11.
[0029]
The accounting section 18 performs an accounting process according to the B data transmitted to the personal computer 20 under the control of the CPU 11. That is, as will be described later, a billing process corresponding to the billing code generated by the CPU 11 is performed in accordance with the B data transmitted to the personal computer 20.
[0030]
3. Example of internal configuration of terminal device
FIG. 3 is a block diagram showing an example of the internal configuration of a personal computer 20 as a terminal device according to the present embodiment.
In FIG. 3, a personal computer 20 of the present embodiment includes a CD (Compact Disc) MD (Mini Disc: magneto-optical disk), a CD-ROM, a CD-R (Recordable), as a drive function unit for package media. A media drive 27 corresponding to a required recording medium such as a CD-RW (ReWritable), a DVD (Digital Versatile Disc), a magnetic disk, and a semiconductor memory card is provided, and the content recorded on the corresponding medium can be reproduced. It is said. Then, the audio content reproduced by the media drive 27 can be taken into the HDD 32 shown as a content file.
In particular, in the case of the present embodiment, the base data A recorded on the package medium is taken into the HDD 32.
[0031]
In this case, the provision of the media drive 27 allows the base data A acquired by the portable terminal device to be taken into the HDD 32 via, for example, a small card-type medium.
[0032]
In FIG. 1, a CPU 21 performs overall control and arithmetic processing of the personal computer 20 based on a started program. For example, input / output operations for the user, storage of audio data files in the HDD 31, creation / update of management information, and the like are performed.
In particular, in the case of the present embodiment, the CPU 21 sends the quality-enhanced data (B data) corresponding to the base data A selected by the user from the base data A stored in the HDD 32 to the server 1. The requested operation is performed, and this operation will be described later.
The CPU 21 exchanges control signals and data with each circuit unit via a bus 37 shown in the figure.
[0033]
The memory unit 22 comprehensively indicates a RAM, a ROM, a flash memory, and the like used by the CPU 21 for processing.
The ROM of the memory unit 22 stores an operation program of the CPU 21, a program loader, and the like. The flash memory in the memory unit 22 stores various operation coefficients, parameters used in programs, and the like.
In the RAM of the memory unit 22, a data area and a task area for executing a program are temporarily secured.
[0034]
The database management unit 31 executes a write / read access operation for the HDD 32 based on the control of the CPU 21 such as a content file and management information for managing the content file.
In the case of the present embodiment, the HDD 32 receives the base data A recorded on a required package medium and distributed or acquired by the portable terminal device through the media drive 27 as described above. It will be. Then, in each file as the base data A thus fetched, for example, a content ID is written for a header portion, and indicates which content data corresponds to these. At the same time, information indicating that the file is the base data A is also written.
The HDD 32 also stores B data obtained from the server 1 as described later.
Particularly in the case of the present embodiment, the HDD 32 also stores a program for the CPU 21 to perform processing operations shown in FIGS.
[0035]
Here, in the present embodiment, when a plurality of users use the personal computer 20, the base data A and B data stored in the HDD 32 are managed by being divided into directories for each user. It will be. That is, in this case, each user who uses the personal computer 20 first inputs a user ID to the personal computer 20 before acquiring the base data A or B data.
Then, according to the input of the user ID, the acquired base data A or B data is to be held in the directory corresponding to the user ID.
The user ID will be described later.
[0036]
The synthesis processing unit 23 synthesizes the base data A and the quality-enhanced data (B data) input via the bus 37 under the control of the CPU 21, and combines these base data A and B data into one high-quality sound. It is configured to be able to demodulate the content data. Then, the content data thus demodulated is output to a required portion based on the control of the CPU 21.
[0037]
The internal configuration of the synthesis processing unit 23 is, for example, as shown in FIG.
In FIG. 4, the synthesis processing unit 23 includes a decoder 23a, a decoder 23b, a decoder 23c, and a band synthesis filter 23d.
First, the decoders 23a to 23c are decoders respectively corresponding to the base data A, the quality-enhanced data B1, and the quality-enhanced data B2, and perform, for example, inverse quantization, inverse orthogonal transform, inverse By performing necessary signal processing such as gain control, amplitude data on the time axis corresponding to each band is obtained. Then, the amplitude data thus obtained is supplied to the band synthesis filter 23d.
[0038]
In the band synthesis filter 23d, the amplitude data of 20 Hz or more and less than 20 kHz corresponding to the base data A, the amplitude data of 20 kHz or more and less than 40 kHz corresponding to the quality-enhanced data B1, and the high-quality data supplied from each of the decoders 23a to 23c. By combining the amplitude data of 40 Hz or more and 60 kHz or less corresponding to the digitized data B2, for example, full band data (PCM data) of 20 Hz to 60 kHz is obtained.
Thereby, one high-quality content data obtained by improving the quality of the base data A is obtained.
[0039]
When, for example, only the base data A is input to the synthesizing processing unit 23 configured as described above, for example, a decoding process on the base data A is performed by a decoder 23a shown in the drawing, and the decoding process is supplied to the bandpass filter 23d. Become so. As a result, the synthesis processing section 23 outputs the lowest quality content data corresponding to the base data A.
When only the base data A and the quality-enhanced data B1 are input to the synthesis processing unit 23, for example, the decoder 23a decodes the base data A and the decoder 23b decodes the quality-enhanced data B1. These are combined and output in the bandpass filter 23d. Thus, in this case, content data in which the base data A has been enhanced by the enhanced data B1 can be obtained.
For example, when the base data A, the quality-enhanced data B1, and the quality-enhanced data B2 are input, for example, the base data A in the decoder 23a, the quality-enhanced data B1 in the decoder 23b, and the quality-enhanced data B2 in the decoder 23c. Are decoded, and these are combined by the bandpass filter 23d and output. In this case, it is possible to obtain the highest quality content data that has been enhanced by both the enhanced data B1 and the enhanced data B2.
[0040]
As shown in FIG. 4, here, the operation of the synthesis processing unit 23 is realized by hardware, but the operation of the synthesis processing unit 23 is performed by, for example, software signal processing according to an application program. May be realized.
[0041]
3, the communication processing unit 24 performs an encoding process on transmission data and a decoding process on reception data under the control of the CPU 21.
The network interface 25 transmits the transmission data encoded by the communication processing unit 24 to a predetermined device, for example, the server 1 via the network 3. In addition, the communication unit 24 transfers a signal transmitted from an external device such as the server via the network 3 to the communication processing unit 24.
The communication processing unit 24 transfers the received information to the CPU 21.
[0042]
The encryption / decryption processing unit 26 performs encryption / decryption processing of various communication data under the control of the CPU 21.
For example, an encryption process is performed on data to be transmitted to the server 1 connected via the network interface 25. In addition, decryption processing is performed on various types of data received from the server 1 and subjected to encryption processing.
[0043]
The input unit 34 is a keyboard, a mouse, a remote commander, and other input devices (not shown) provided in the personal computer 20. The user performs various operation inputs and data inputs.
The information input by the input unit 34 is subjected to predetermined processing by the input processing unit 33 and transmitted to the CPU 21 as an operation or data input. The CPU 21 performs necessary calculations and controls according to the input information.
[0044]
The media drive 27 is configured to be capable of performing a reproducing operation corresponding to a required storage medium as described above. For example, when a CD is used as the required medium, the media drive 27 includes, for example, an optical head, a spindle motor, a reproduction signal processing unit, a servo circuit, and the like.
The drive control unit 28 controls a reproduction operation, an access operation, and the like for a medium in the media drive 27. For example, when the user performs a reproduction operation on the loaded medium from the input unit 34, the CPU 21 instructs the drive control unit 28 to reproduce the medium. Then, the drive control unit 28 controls the media drive 27 to execute reproduction / access.
The media drive 27 sends the read reproduction data to the bus 37 via the drive control unit 28.
[0045]
The audio data processing unit 35 performs processing such as sound field processing such as equalizing, volume adjustment, D / A conversion, and amplification on the input audio data based on the control of the CPU 21, and performs the processing via the speaker unit 36. Output.
For example, when audio data read by the media drive 27, audio data synthesized by the synthesis processing unit 23, and the like are reproduced, these audio data are processed by the audio data processing unit 35. Thereafter, it is output via the speaker unit 36.
[0046]
The display 29 is, for example, a display device such as a liquid crystal panel, and displays various information to a user.
When the CPU 21 supplies display information to the display processing unit 30 according to various operation states, input states, and communication states, the display processing unit 30 causes the display 29 to execute a display operation based on the supplied display data.
[0047]
The configuration of the personal computer 20 is not limited to the configuration shown in FIG.
For example, an interface with peripheral devices using a communication method such as USB or IEEE 1394 may be provided. Further, a terminal used for connection of a microphone or external headphones, a video output terminal corresponding to DVD reproduction, a line connection terminal, an optical digital connection terminal, or the like may be provided.
In addition, a PCMCIA slot or the like may be formed so that data can be exchanged with an external information processing device or audio device.
[0048]
4. Overview of operation in content distribution system
An operation to be realized by the content distribution system according to the present embodiment configured by the server 1 configured as described above and the personal computer 20 will be described with reference to FIG.
In this figure, the operation obtained in the content distribution system of the present embodiment is schematically and simply shown for explanation.
[0049]
First, referring to FIG. 5A, a user operation procedure when personal computer 20 acquires only quality-enhanced data B1 from server 1 as B data for enhancing base data A, and The operation of the system will be described.
In FIG. 5A, first, the user of the personal computer 20 needs to load the base data A into the HDD 32 in advance before acquiring the quality-enhancing data B1 from the server 1.
In this embodiment, at this time, the base data A recorded on the package medium as shown in the drawing or already acquired by the portable terminal device is taken in via the media drive 27 shown in FIG. 3, for example. To be kept.
[0050]
Then, after the base data A is fetched into the HDD 32 and B1 data corresponding to the base data A is to be obtained from the server 1, the input via the input unit 34 described with reference to FIG. By performing the predetermined operation, first, a list of all the base data A (content data) held in the HDD 32 is displayed on the display 29 in the form of a song or the like. Further, from this list, the content data whose quality is to be improved is specified. At the same time, another piece of quality-enhanced data to be obtained in accordance with the screen display of the display 29 is designated.
As the specification of the quality-enhanced data, only the quality-enhanced data B1, only the quality-enhanced data B2, or both of the quality-enhanced data B1 and B2 can be specified. However, when only the quality-enhanced data B2 is designated, it is necessary that the quality-enhanced data B1 has already been acquired together with the base data A in the HDD 32.
Here, it is assumed that the base data A of the content ID 1 is designated from the base data A held in the HDD 32 by, for example, the user operation as described above. It is also assumed that only the quality-enhancing data B1 has been designated as the quality-enhancing data to be acquired.
[0051]
When the base data A and the quality-enhanced data B1 are designated by the user in this way, the personal computer 20 first acquires the content ID corresponding to the determined base data A.
At the same time, request data information is generated as information indicating the type of the quality-enhancing data. The request data information includes, for example, information of a predetermined number of bits, such as “only the high-quality data B1”, “only the high-quality data B2”, and “both of the high-quality data B1 and B2”. It represents another.
Then, the content ID and the request data information are transmitted to the server 1 as information for requesting the B data.
As will be described in detail later, in the present embodiment, when performing various data communications between the personal computer 20 and the server 1 as described above, communication data is mutually encrypted and transmitted.
[0052]
In this way, the server 1 that has received the content ID information and the request data information from the personal computer 20 stores the information in the database 15 shown in FIG. 2 based on the content ID and the request data information. The corresponding high quality data is searched from the B data.
Specifically, in this case, a search is made for a file indicating the information “ID1” of the content ID received from the personal computer 20 and “B1” obtained from the request data information.
[0053]
When the B data according to the request from the personal computer 20 is searched in this way, the searched B data is encrypted with the common key. Then, the encrypted B data is transmitted to the personal computer 20, and the common key as a decryption key for the encrypted B data is also transmitted.
As a result, the personal computer 20 acquires the quality-enhancing data B1 for improving the quality of the base data A, which corresponds to the base data A specified by the user as described above.
Further, by receiving the common key from the server 1 as described above, the encrypted high-quality data B1 can be decrypted, and this can be combined with the base data A to obtain high-quality sound. The content data can be reproduced.
[0054]
In the server 1, in response to transmitting the encrypted B data and the common key to the personal computer 20, the server 1 performs a billing process according to the transmitted B data as illustrated. .
[0055]
Next, from the state in which the quality-enhanced data B1 is obtained in the personal computer 20 in this manner, the user operation procedure and the system operation when requesting the server 1 for the quality-enhanced data B2 will be described next. This will be described with reference to FIG.
First, also in this case, when acquiring the high quality data from the server 1, the user performs a predetermined operation on the personal computer 20 to display a list of the content data stored in the HDD 32. Then, the user designates desired content data from this list, and designates another type of B data to be acquired.
In this case, it is assumed that the content data of the content ID 1 (base data A + enriched data B1) is designated, and only the enriched data B2 is designated as the B data to be acquired.
[0056]
When the information of the content ID and the request data information are designated, the personal computer 20 also transmits the information of the designated content ID and the request data information to the server 1 in this case.
Then, on the side of the server 1 which has received these information, the corresponding high quality data is searched from the B data stored in the database 15 based on the content ID and the requested data information. That is, in this case, the enhanced data B2 corresponding to the content data (base data A + enriched data B1) of the content ID1 specified by the user as described above is searched. Then, encryption processing using a common key is performed on the searched high-quality data B2.
[0057]
Here, when encrypting the quality-enhanced data B2 in the server 1 in this manner, in the present embodiment, higher-level encryption is performed than when encrypting the quality-enhanced data B1. It is assumed. For example, at the time of encrypting the quality-enhanced data B1 with the common key as described with reference to FIG. 5A, if encryption is performed with the common key α using a predetermined number of bits, for example, The encryption of the encrypted data B2 is performed using, for example, a common key β having a larger number of bits than the common key α.
That is, in the content distribution system according to the present embodiment, higher-quality data with higher frequency ranges are subjected to higher-level encryption processing as content data with higher quality. .
[0058]
As described above, when the above-described encryption processing is performed on the searched quality-enhanced data B2 in the server 1, the encrypted quality-enhanced data B2 is transmitted to the personal computer 20. You. At the same time, the common key as a decryption key for the encrypted high-quality data B2 is also transmitted.
As a result, the personal computer 20 acquires the quality-enhancing data B2 corresponding to the content data specified by the user as described above. That is, in this case, the personal computer 20 acquires quality-enhancing data B2 for further enhancing the quality of the base data A enhanced by the quality-enhancing data B1.
In this case, by receiving the common key from the server 1 as described above, the received high-quality data B2 that has been subjected to the encryption processing can be decrypted. .
[0059]
In the server 1, in response to transmitting the B data and the common key encrypted as described above to the personal computer 20, a billing process is performed according to the quality-enhanced data B 2 transmitted as illustrated. . At this time, in the content distribution system according to the present embodiment, charging processing is performed such that the charging amount for the quality-enhanced data B2 is higher than the charging amount for the quality-enhancing data B1. Is done.
That is, also in this case, the charge amount is set higher in the quality-enhanced data B2 because the quality-enhancement level is higher in the quality-enhanced data B1.
[0060]
5. Processing operation
A processing operation for realizing the operation of the content distribution system according to the present embodiment as described in FIG. 5 will be described with reference to flowcharts shown in FIGS.
6 and 7, the operation on the personal computer 20 side is executed by the CPU 21 shown in FIG. 3, and the operation on the server 1 side is executed by the CPU 11 shown in FIG. It becomes.
[0061]
First, in FIG. 6, on the personal computer 20 side, the user is caused to select between the content data and the B data to be acquired by the process of step S101 shown in the drawing.
That is, as described with reference to FIG. 5, in response to an operation on the input unit 34, for example, a list of content data stored in the HDD 32 is displayed as a list of music pieces, so that the content data to be enhanced by the user is displayed. (Only the base data A, or the base data A and the quality-enhanced data B1) is selected, and further, for example, a screen for designating either the B1 only, the B2 only, or both the B1 and B2 is displayed. , To select another type of B data to be obtained.
In a succeeding step S102, it is determined whether or not the content data and the B data selected in the step S101 are determined to be different.
If it is determined in step S102 that the predetermined operation on the input unit 34 has not been performed and that the selected content data and the B data have not been determined yet, the process returns to step S101, and the user again receives the content data and the B data. Select another type of data.
If a predetermined operation is performed on the input unit 34 to determine whether the selected content data or B data is different, the process proceeds to step S103.
[0062]
In step S103, a content ID corresponding to the content data selected in step S101 is acquired, and request data information is generated based on the information of the B data selected in step S101.
That is, as described with reference to FIG. 5, the content ID of the content is acquired by first referring to, for example, the header portion of the base data A as the selected content data. Further, it generates request data information indicating information of the designated B data (enriched data B1, enhanced data B2, and enhanced data B1 and B2).
[0063]
In the following step S104, the content ID, the request data information, and the customer ID obtained in step S103 are encrypted with the server public key.
The customer ID is an ID that is assigned to each user by the server 1 in advance before the user of the personal computer 20 receives the service by the content distribution system.
For example, when the personal computer 20 accesses the server 1 for the first time, the customer ID is assigned by the server 1 so as to correspond to the user ID described in FIG. 3 received from the personal computer 20 side. On the server 1 side, each user is managed based on the customer ID. For example, as will be described later, billing processing for each user is performed based on the customer ID transmitted from the personal computer 20. You.
In step S104, when the content ID, the request data information, and the customer ID are encrypted with the server public key as described above, the process proceeds to step S105.
At this time, it is assumed that the server public key has already been obtained when accessing the server 1 after the application of the personal computer 20 is started.
[0064]
In step S105, the content ID, the request data information, the customer ID information, and the user ID encrypted as described above are transmitted to the server 1.
Here, the user ID is ID information set for each user when the user intends to receive a service provided by the content distribution system according to the present embodiment. That is, for example, when the personal computer 20 is used by a plurality of users, a plurality of user IDs are set for one personal computer 20.
This user ID may be set, for example, by being input in advance by the user in the personal computer 20. When the personal computer 20 is used by a plurality of users as described above by using the user ID, for example, the base data A held in the HDD 32 as described above with reference to FIG. And B data can be managed separately for each user ID.
In addition, when receiving a service provided by the content distribution system according to the present embodiment, the user needs to access a certificate authority 50 shown in advance and be authenticated as a regular user in association with the user ID. At the time of this authentication, the certification authority 50 registers the user public key of the personal computer 20 in association with the user ID.
[0065]
On the server 1 side, the reception of the encrypted information (content ID, request data information, customer ID) and user ID transmitted from the personal computer 20 as described above is performed in step S201 shown in FIG. Monitoring by processing.
If it is determined that such information has been received, the process proceeds to step S202.
[0066]
In step S202, access to the illustrated certification authority 50 for inquiring of the user public key corresponding to the user ID is performed based on the information of the user ID among the pieces of information received in step S201. I do. Further, a user public key corresponding to the user ID inquired as described above is obtained from the certificate authority 50.
If the result of the inquiry about the user public key in step S202 is that the user ID is not a legitimate user, the user of the personal computer 20 that transmitted the user ID is determined to be not a legitimate user, and It is conceivable not to respond to the request for the B data.
Therefore, in such a case, although illustration is omitted, an error message is transmitted to the personal computer 20, for example, so that the following B data search processing and transmission processing are not performed. Just fine.
[0067]
In the following step S203, the content ID, request data information, and customer ID information encrypted with the server public key, which are received in step S201, are decrypted with the server private key, and the information is obtained.
Then, in step S204, a user authentication process is performed based on the customer ID information among the acquired information. That is, authentication is performed to determine whether or not the customer ID received from the personal computer 20 is a legitimate one assigned by the server 1.
It should be noted that as a result of the authentication process, even when the customer ID is determined to be not a legitimate one, the user of the personal computer 20 may be determined not to be a legitimate user and may not respond to the request. Therefore, even when the customer ID is determined to be invalid, an error message is transmitted to the personal computer 20, for example, so that the following B data search processing and transmission processing are not performed. What should I do?
[0068]
In step S205, B data stored in the database 15a in the storage unit 15 shown in FIG. 2 is searched based on the content ID and the request data information decrypted by the processing in step S203.
That is, as described with reference to FIG. 5, by referring to the header portion of each file as B data held in the database 15a, the content ID and the B1 / B2 indicated by the request data information are referred to. This is to search for a file that matches the information.
[0069]
In step S206, the B data retrieved by the process of step S205 is only the quality-enhanced data B1, only the quality-enhanced data B2, or both the quality-enhanced data B1 and B2. Is determined.
In step S206, if the searched B data is only the quality-enhanced data B1, the process proceeds to step S207, and the searched quality-enhanced data B1 is assigned to the common key α. An encryption process is performed.
If it is determined in step S206 that the searched B data is only the quality-enhanced data B2, the process proceeds to step S208, and the searched common data is added to the common key. An encryption process using a common key β having a larger number of bits than α is performed.
If the searched B data is both the quality-enhanced data B1 and B2, the process proceeds to step S209. Among the searched B data, the enrichment data B1 is subjected to the encryption process using the common key α, and the enrichment data B2 is subjected to the encryption process using the common key β. To be applied.
[0070]
In the following step S210, a transmission ID is generated.
As the transmission ID, one having a different value is generated for each process of step S210. That is, a transmission ID having a different value for each content distribution operation is generated.
Then, in the subsequent step S211, the transmission ID generated in this way, the user ID received from the personal computer 20 and decrypted in the above step 215, and the common key used in the above steps S 207 to S 209. Should be associated.
Depending on the processing in steps S210 and S211, the transmission ID that is different for each content distribution operation as described above and the common key used in steps S207 to S209 may be associated with each other, as described below. Thus, the corresponding common key can be recognized based on the information of the transmission ID.
[0071]
In step S212, the transmission ID and the B data encrypted in steps S207 to S209 are encrypted with the user public key acquired in step S202.
Then, in the subsequent step S213, the data thus encrypted and the server ID are transmitted to the personal computer 20.
As the server ID, a so-called IP address or a preset information for specifying the server 1 is transmitted.
[0072]
When the server 1 transmits the information thus encrypted (B data encrypted by the common key, the transmission ID) and the information of the server ID to the personal computer 20, the following FIG. The processing shifts to the illustrated processing operation.
[0073]
The personal computer 20 receives the encrypted information (B data and transmission ID encrypted with the common key) and the server ID information transmitted from the server 1 as described above. Is monitored by the processing in step S106 shown in the figure. Then, when an appropriate server ID is received as the server ID, it is determined through communication with the server 1 that information for a service to be enjoyed by the personal computer 20 has been received. The result is obtained, and the processing shifts to the next processing operation shown in FIG.
[0074]
Subsequently, in FIG. 7, on the personal computer 20 side, by the processing in step S107 shown in the figure, each data (B encrypted with the common key) encrypted by the user public key received in step S106 is applied. Data, transmission ID) is decrypted using the user secret key.
Then, by performing such a decryption process, in the subsequent step S108, as shown in the figure, the transmission ID and the B data encrypted with the common key are obtained.
[0075]
In the following step S109, the transmission ID and the customer ID acquired as described above are encrypted with the server public key.
Then, in step 110, the user ID is transmitted to the server 1 together with the transmission ID and the customer ID thus encrypted.
[0076]
The server 1 monitors the reception of the information of the transmission ID, the customer ID, and the user ID transmitted from the personal computer 20 by the process of step S214.
In step 214, if the above information is received, in step 215, among the received information, the information of the transmission ID and the customer ID encrypted by the server public key is decrypted by the server private key. I do.
Then, in the subsequent step S216, the transmission ID and the user ID thus decrypted are obtained.
[0077]
In step 217, the common key corresponding to the acquired transmission ID and customer ID is recognized. In other words, by the processing of step 211 shown in FIG. 6, among the common keys associated with the customer ID and the transmission ID, the acquired transmission ID, the transmission ID matching the customer ID, and the customer ID correspond. It recognizes the attached common key.
Here, in step S211 above, by associating the customer ID in addition to the transmission ID with the common key capable of decrypting the B data transmitted to the personal computer 20, the transmission ID becomes Even if the information is leaked to a third party and an unauthorized access is made to the server 1 based on the transmission ID, the server 1 will not recognize the correct common key by the process of step 217. In other words, only a legitimate terminal having an appropriate customer ID together with the transmission ID can receive the correct common key, thereby reducing security in the event that the transmission ID is leaked to a third party. It is something that has been improved.
[0078]
In the following step S218, the transmission ID is encrypted with the user public key together with the common key recognized as described above.
In step S219, the server ID is transmitted to the personal computer 20 together with the common key and the transmission ID encrypted as described above.
By transmitting the transmission ID again to the personal computer 20 in this manner, if the personal computer 20 does not properly receive the common key, for example, the server 1 retransmits the transmission key based on the transmission ID. Side can request a common key.
[0079]
In subsequent step S220, a billing code corresponding to the B data transmitted to personal computer 20 is generated by the process of step 213 shown in FIG.
That is, as the process of step 220, for example, only the quality-enhanced data B1, only the quality-enhanced data B2, and both of the quality-enhanced data B1 and B2 determined by the process of step 206 shown in FIG. A charge code based on the information is generated.
For example, if the result of the determination in step 206 is only the quality-enhanced data B1, a charge code for charging a fee corresponding to the quality-enhanced data B1 is generated. If only the quality-enhancing data B2 is present, a charging code for charging a higher fee than the quality-enhancing data B1 is generated. Further, when both the high-quality data B1 and B2 are used, a charging code for charging a fee corresponding to the high-quality data B1 and a fee corresponding to the high-quality data B2 is generated. To be.
[0080]
When the accounting code corresponding to the transmitted B data is generated by the processing in step S220 in this way, in step 221 the accounting processing unit 18 is caused to perform the accounting processing in accordance with the generated accounting code.
As the billing process in the billing processing unit 18, a process corresponding to a billing method such as a credit card debit or a designated bank account debit may be performed.
Alternatively, a process corresponding to a so-called prepaid system in which the point corresponding to the billing code is subtracted from the point corresponding to the deposit from the personal computer 20 may be performed.
[0081]
Subsequently, on the personal computer 20 side, the reception of each piece of information transmitted by the server 1 in the process of step 219 is monitored by the process of step 111 shown in the figure.
In step 111, when the respective information (common key and transmission ID encrypted by the user public key, the transmission ID, and the server ID) transmitted from the server 1 are received, in step 112, the information is encrypted. The information of the common key and the transmission ID is decrypted by the user secret key. Then, in step S113, the decrypted common key and the transmission ID are obtained.
[0082]
In the subsequent step S114, the common key thus obtained and the B data obtained by the processing in step S108 and encrypted by the common key are held. For example, the common key is stored in the memory unit 22 shown in FIG. 3, and the B data is stored in the HDD 32.
This allows the personal computer 20 to decrypt the B data held in an encrypted state based on the held common key. Then, by combining the encrypted and decrypted B data and the corresponding content data in the combining processing unit 23, the content data is reproduced as higher quality audio data corresponding to the acquired B data. It becomes possible.
[0083]
Note that, as shown in the processing of steps S220 and S221, the charging timing according to the B data transmitted to the personal computer 20 is set to the time for decoding the B data to the personal computer 20 here. It was when the common key was sent.
However, such a billing timing may be, for example, a time when the server 1 can confirm that the decryption of the B data has been performed by the personal computer 20 using the common key.
Alternatively, the server 1 may confirm that the personal computer 20 has performed the combining process of the B data decrypted with the common key and the corresponding content data.
[0084]
Also, here, as shown in step S114 in FIG. 7, the B data acquired from the server 1 is held as it is in an encrypted state. In the case of leakage, the B data can be prevented from being reproduced by a third party, and security can be improved.
However, at this time, there may be a case where it is desired to synthesize the B data acquired from the server 1 with the corresponding content data (including the base data A) and immediately reproduce the high-quality sound.
For this reason, in the present embodiment, it is also possible to perform stream reproduction, in which the B data acquired from the server 1 is received, combined with the corresponding content data, and immediately reproduced and output.
[0085]
The processing operation to be executed on the personal computer 20 side in order to realize such stream reproduction is shown in the following flowchart of FIG.
First, in order to realize such a stream reproduction, the personal computer 20 executes the processing of step S113 shown in FIG. 7, and then proceeds to step S301 shown in FIG.
Then, in step S301, encryption / decryption and decoding (demodulation) of the B data received in step S106 shown in FIG. 6 and decrypted with the user secret key in step S107 are started.
That is, for each packet of the B data received and decrypted from the server 1 by the processing of steps S106 and S107, the encryption / decryption processing using the common key acquired in step S113 shown in FIG. The processing is started in the processing unit 26. Then, decoding processing as compression and decompression for each packet of B data encrypted and decrypted by the encryption / decryption processing unit 26 is performed by the synthesis processing unit 23 (the decoders 23a, 24b, and 24d shown in FIG. 4). 23c). For example, when the B data is the quality-enhanced data B1, for example, the decoder 23b starts decoding the quality-enhanced data B1. Let it start.
As understood from the above description, in this case, it is assumed that the B data received from the server 1 is transmitted in packet units.
[0086]
In the following step S302, the process of extracting the reproduction time information from the B data decoded in the synthesis processing unit 23 as described above is started.
When the extraction of the reproduction time information is started in this way, in step S303, the corresponding content data (only the base data A or the base data A and the quality-enhanced data B1 are synchronized so as to synchronize with the extracted reproduction time information. ) Is started.
That is, as the process in step S303, first, the decoding process for the content data selected by the user in step S101 shown in FIG. 6 is performed by the combining processing unit 23 (corresponding to the corresponding one of the decoders 23a, 24b, and 23c). ). Then, the reproduction time information of the content data decoded in this way is extracted, and the reproduction time indicated by the reproduction time information is synchronized with the reproduction time indicated by the reproduction time information of the B data extracted as described above. Thus, the decoding process in the synthesis processing unit 23 is controlled.
[0087]
In the following step S304, the content data and the B data decoded in synchronization with the reproduction time as described above are synthesized and output.
That is, first, the base data A and B data decoded as described above are synthesized in the band synthesizing filter 23d in the synthesis processing unit 23, whereby the audio data in which the base data A is enhanced by the B data is obtained. You will be able to obtain. The high-quality content data obtained in this manner is supplied to, for example, the audio data processing unit 35 shown in FIG.
As a result, stream reproduction is realized, in which the B data obtained from the server 1 is received, combined with the corresponding content data, and immediately reproduced and output.
[0088]
Then, in the subsequent step S305, the end of such stream reproduction is determined. That is, it is determined whether or not the end point of the audio data currently being synthesized and output, or whether or not an end operation has been performed on the input unit 34. If it is determined that the reproduction has not been completed, the process proceeds to step S304 to continue the composite output, and if it is determined that the reproduction has been completed, the processing operation ends as shown in the figure. .
[0089]
As described above, in the content distribution system according to the present embodiment, one piece of content data is a low-frequency component of the content data, and can be reproduced with a sound quality at which the contents of the content data can be understood. High quality data B1 and high quality data B2 (B data), which are high-frequency components of the base data A and the content data, and are combined with the base data A to improve the quality of the base data A. And divided into Furthermore, a content ID indicating which content data is divided is assigned to each of the base data A and B data.
Then, the quality-enhanced data B1 and the quality-enhanced data B2 among the data thus divided are held on the server 1 side.
[0090]
In addition, in the content distribution system according to the present embodiment, in the personal computer 20, when the user specifies the content to be improved and the other information of the B data, the content is first added to the specified content. The information of the content ID is acquired. Then, request data information according to the other information of the designated B data (only the quality-enhanced data B1, only the quality-enhanced data B2, and both the quality-enhanced data B1 and B2) is generated, and these content IDs are generated. And the requested data information are transmitted to the server 1.
[0091]
On the server 1 side, the corresponding B data is searched based on the content ID information and the request data information thus received. Then, the searched B data is transmitted to the personal computer 20.
Then, in response to this, the personal computer 20 acquires B data for enhancing the content designated by the user as having to be enhanced. At the same time, the server 1 that has transmitted the B data performs a charging process according to the B data.
[0092]
As described above, depending on the content distribution system according to the present embodiment, when the user wants to improve the quality of the already acquired content, the user can acquire the B data for improving the quality of the content. become. In other words, for example, only the difference data for improving the quality of the base data A is acquired from the server 1 without reacquiring the high-quality content data having the same contents as the base data A from the beginning. Is what you can do.
[0093]
In addition, depending on the content distribution system of the present embodiment, when the quality of the base data A is increased as described above, the server 1 may charge the server 1 according to the B data as the difference data. After the code is generated, the accounting process according to the code is performed.
As a result, in the content distribution service to which the content distribution system according to the present embodiment is applied, it is possible to perform appropriate charging processing according to the content to be distributed.
[0094]
Also, according to the above description, in the content distribution system of the present embodiment, the user automatically specifies the base data A to be improved and the B data to be acquired, and automatically sets the server 1 Can cause the personal computer 20 to acquire the corresponding B data.
That is, depending on the content distribution system of the present embodiment as described above, it is possible to save the trouble of the user manually selecting the corresponding B data from the B data held in the server 1. .
[0095]
Further, in the content distribution system according to the present embodiment, the B data retrieved in server 1 as described above is transmitted to personal computer 20 after being encrypted, and the personal computer 20 further receives the received B data. The data is stored in the HDD 32 while being encrypted.
Thus, even when the B data leaks to the outside, the B data can be prevented from being reproduced by a third party, and security can be improved.
[0096]
The operation of the server 1 as described in the above embodiment is realized by the program 15b stored in the storage unit 15 shown in FIG. Similarly, the operation as the personal computer 20 is also realized by the program stored in the HDD 32 shown in FIG.
If such a program is recorded on a recording medium and used as, for example, a package medium, it becomes easy to provide a program for realizing the operations of the server 1 and the personal computer 20 according to the present embodiment, and it is possible to design the apparatus and construct a system. It is suitable.
The recording medium for recording the program may be realized by a CD, DVD, or MD optical disk, a magnetic disk such as a magneto-optical disk or a flexible disk, or a memory card using a solid-state memory. is there.
[0097]
Here, a modified example of the present embodiment will be described.
In this modification, the quality-enhanced data B1 and the quality-enhanced data B2 stored in the server 1 in the above embodiment are distributed and stored in other servers on the network. .
That is, for example, the server 1 stores only the quality-enhanced data B1 and the quality-enhanced data B2 is stored in another server (server 2). The content distribution processing of the coded data B1 and the quality-enhanced data B2 is distributed.
[0098]
Processing operations to be performed by the content distribution system in order to implement the operation of this modified example are shown in FIGS.
9 and 10, as described above, the server 1 manages only the quality-enhancing data B1, and the server 2 manages only the quality-enhancing data B2. . Further, the configuration of the server 2 shown in these figures is substantially the same as the configuration of the server 1 shown in FIG.
9, first, the personal computer 20 in this case also provides the user with the content data and the B data in the same manner as in steps S101 to S102 shown in FIG. (Only the quality-enhancing data B1, only the quality-enhancing data B2, and both the quality-enhancing data B1 and B2) are selected and determined.
However, in this case, in the subsequent step S403, first, only the content ID of the content data selected in step S401 is acquired.
[0099]
Then, in the subsequent step S404, the request destination server is selected based on the different information of only the enhanced data B1, only the enhanced data B2, and both the enhanced data B1 and B2 selected in the above step S401. To determine.
That is, in this case, for the quality-enhanced data B1 specified by the user, it is necessary to make a request to the server 1 that manages it, and for the quality-enhanced data B2, it is necessary to make a request to the server 2. is there. Therefore, in the process of step S404, the B data selected in step S401 corresponds to another information (only the quality-enhanced data B1, only the quality-enhanced data B2, and both the quality-enhanced data B1 and B2). In this way, a request destination server is determined.
For example, when only the quality-enhanced data B1 is selected in step S401, the server 1 is determined as the request destination. For example, when both the high quality data B1 and B2 are selected, both the server 1 and the server 2 are determined as the request destination servers.
It should be noted that such a request destination is determined, for example, by displaying the above-mentioned “only the high-quality data B1”, “only the high-quality data B2”, and “both of the high-quality data B1 and B2” displayed on the browser screen. Each of the selection buttons may be associated with the address of the request destination server in advance.
[0100]
In the following step S405, the content ID and the customer ID acquired in the previous step S403 are encrypted with the server public key.
Then, in the following step S406, a process of transmitting the encrypted content ID, customer ID, and user ID is performed based on the information of the request destination server determined by the process of step S404.
[0101]
In this manner, the operations of the server 1 and the server 2 that receive the information transmitted from the personal computer 20 are substantially the same as the operations of the server 1 shown in FIG.
However, in this case, the server 1 manages only the quality-enhanced data B1 and the server 2 manages only the quality-enhanced data B2 as described above. Eliminates the need to determine the B data to be searched based on the requested data information. For this reason, as shown in step S505 in the figure, the server 1 searches for the quality-enhanced data B1 based only on the content ID received from the personal computer 20, and the server 2 similarly executes the step S505. As shown in S605, the high quality data B2 is searched based only on the received content ID.
[0102]
Also, as a process for encrypting the B data searched in this way with a common key, the server 1 side encrypts the searched quality-enhanced data B1 with the common key α as shown in step S506. It is only necessary to perform encryption on the server 2 side with the common key β on the searched quality-enhanced data B2, as shown in step S606.
[0103]
In this case, the server 1 side sends the quality-enhanced data B1, the transmission ID corresponding thereto, and the server corresponding to the server 1 to the personal computer 20 by the processing of steps S507 to S510 shown in the drawing. The ID and the ID are transmitted.
Similarly, depending on the processing in steps S607 to S610 shown in the figure, the server 2 sends the personalized computer 20 a high-quality data B2, a transmission ID corresponding to the data, and a server ID corresponding to the server 2. Will be transmitted.
[0104]
The operation for obtaining the common key for decrypting the B data obtained from the server 1 and the server 2 as described above is, for example, as shown in FIG. 10 below.
In this case, the processing on the side of the personal computer 20 is basically the same as the processing in steps S107 to S114 shown in FIG.
However, in this case, as understood from the above description, the personal computer 20 may receive two different transmission IDs and server IDs from both the server 1 and the server 2. For this reason, as the process of step S411 shown in the figure, the transmission ID and the customer ID encrypted by the process of step S410 and the user ID are determined based on the information of the corresponding server ID received in step S408. It is sent to the corresponding server.
[0105]
In this case, the processes of the server 1 and the server 2 are substantially the same as the processes of steps S214 to S221 shown in FIG.
That is, first, based on the transmission ID and the customer ID received from the personal computer 20, the corresponding common key is recognized, and the common key and the transmission ID are encrypted and transmitted to the personal computer 20. Then, a billing code corresponding to the B data transmitted to the personal computer 20 is generated as described above, and the billing processing unit 18 is caused to perform billing processing according to the billing code.
[0106]
According to the content distribution system of such a modified example, when distributing content (B data) in response to a request from the personal computer 20 side, the processing on the server side is dispersed, and the B data and the common key are efficiently distributed. Can be distributed.
[0107]
In the above-described embodiment, the case where the content data distributed in the content distribution system is music content has been described as an example. However, the present invention can be adapted to content such as video content. .
[0108]
In the above embodiment, the server 1 holds only the quality-enhanced data B1 and the quality-enhanced data B2. However, the server 1 may hold the base data A.
Further, in this case, the personal computer 20 sends a request to the server 1 based on the content ID of the designated B data among the B data held in the HDD 32, so that the designated B data is The corresponding base data A may be obtained from the server 1 side.
In this way, the user of the personal computer 20 can re-acquire the base data A based on the corresponding B data when, for example, only the base data A is erroneously erased.
[0109]
Further, in the embodiment, only two types of B data for improving the quality of the base data A are used, but three or more types of such B data may be set.
[0110]
【The invention's effect】
As described above, according to the present invention, first, one piece of content data is combined with each other and divided by demodulated divided data. In addition, in the present invention, the communication device side stores the divided data for dividing the content data as described above in a searchable manner with the content identification information indicating another type of the content data.
When the content identification information is received from an external (terminal) device, the content identification information is combined with the specified divided data among the divided data held in the terminal device and demodulated based on the content identification information. A search is made for possible divided data.
Further, the divided data thus searched is transmitted, and the divided data is received by the terminal device.
[0111]
Thereby, according to the present invention, only the divided data that can be demodulated by combining with the specified divided data among the divided data held in the terminal device is transmitted and received between the communication device and the terminal device. It becomes possible.
That is, it becomes possible to exchange only the divided data that can form the content data having the same content with the divided data that is a part of the specific content data specified in the terminal device. .
[0112]
In this way, it becomes possible to transmit and receive only the divided data that can form the content data having the same contents as the designated divided data in the terminal device. In this case, it is possible to provide only the difference data corresponding to the difference data.
If the present invention capable of providing only the difference data for high quality is applied to the content distribution system, as described above, the divided data is reproduced with high quality as described above. In addition, it is possible to charge only for the difference data to be provided.
That is, in the content distribution system to which the present invention is applied, even when the divided data is reproduced with high quality as described above, it is possible to perform appropriate charging according to the content data to be distributed. is there.
[0113]
Further, in the present invention, each divided data is managed by the content identification information indicating the type of the content data as described above.
As a result, the terminal device automatically transmits the corresponding divided data (enhanced data) from the communication device only by transmitting the content identification information corresponding to the divided data specified as described above to the communication device. It is possible to obtain it. In other words, this allows the user of the terminal device to automatically acquire the corresponding high-quality data simply by specifying the divided data to be improved.
In this case, the communication device also stores each divided data in a searchable manner with the content identification information as described above, so that only the content identification information received from the terminal device is used. The search for the corresponding divided data can be performed more easily.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an outline of a content distribution system including a communication device and a terminal device according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating an example of an internal configuration of a communication device according to an embodiment;
FIG. 3 is a block diagram illustrating an example of an internal configuration of a terminal device as an embodiment.
FIG. 4 is a block diagram illustrating an internal configuration of a synthesis processing unit included in the terminal device according to the embodiment;
FIG. 5 is a diagram schematically illustrating an operation realized by the content distribution system according to the embodiment;
FIG. 6 is a flowchart illustrating an operation obtained in the content distribution system according to the embodiment;
FIG. 7 is a flowchart illustrating an operation obtained in the content distribution system according to the embodiment;
FIG. 8 is a flowchart showing an operation obtained in the content distribution system according to the embodiment.
FIG. 9 is a flowchart showing an operation obtained in a content distribution system as a modification.
FIG. 10 is a flowchart showing an operation obtained in a content distribution system as a modification.
[Explanation of symbols]
1, 2 server, 3 network, 11 CPU, 12 memory, 13 encryption / decryption processing unit, 14 storage management unit, 15 database, 16 communication processing unit, 17 network interface, 18 billing processing unit, 19 bus, 20 personal computer , 21 CPU, 22 memory, 23 synthesis processing unit, 23a, 23b 23c decoder, 23d band synthesis filter, 24 communication processing unit, 25 network interface, 26 encryption / decryption processing unit, 27 media drive, 28 drive control unit, 29 Display, 30 display processing unit, 31 database management unit, 32 HDD, 33 input processing unit, 34 input unit, 35 audio data processing unit, 36 speaker, 37 bus

Claims (14)

Storage means for storing divided data formed by dividing the content data so that each becomes a part of specific content data, in a searchable state by content identification information indicating another of the content data,
A receiving unit that holds the divided data, and that can receive the content identification information from an external device that sends out content identification information corresponding to the specified divided data from the held divided data,
At least based on the content identification information received by the receiving means, from the storage means, searching means for searching for divided data that can be demodulated by combining with the divided data specified in the external device,
Transmission means for transmitting the divided data searched by the search means to the external device,
A communication device comprising: The accumulation means,
The high-frequency data of the content data can be stored as the divided data, which can enhance the low-frequency data as the divided data for dividing the content data.
The search means,
Based on the content identification information attached to the divided data as low-frequency data of the content data received by the reception means, the storage means is searched for the high-frequency data corresponding to the content identification information. Composed of
The communication device according to claim 1, wherein: In the case where a plurality of the high frequency data are formed for one content data,
It further includes an encryption unit that performs encryption for the high-frequency data by increasing the encryption level as the high-frequency data becomes higher.
The communication device according to claim 2, wherein: The accumulation means,
While being configured to be able to accumulate the low frequency data of the content data,
The search means,
Based on the content identification information corresponding to the high-frequency data as the quality-enhancing data of the low-frequency data received by the receiving means, the storage means retrieves the low-frequency data corresponding to the content identification information from the storage means. Configured to
The communication device according to claim 1, wherein: The communication device is provided with a plurality,
Each of the plurality of communication devices is configured to accumulate different divided data in the storage means for the plurality of divided data forming a part of specific content data,
The communication device according to claim 1, wherein: A storage process of storing divided data formed by dividing the content data so that each becomes a part of specific content data, in a searchable state by content identification information indicating another of the content data;
A receiving process of receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data;
Based on at least the content identification information received by the reception processing, search for divided data that can be demodulated by combining with the divided data designated by the external device from among the divided data accumulated by the accumulation processing. Search processing,
A transmission process of transmitting the divided data searched by the search process to the external device;
A communication method, comprising: A storage process of storing divided data formed by dividing the content data so that each becomes a part of specific content data, in a searchable state by content identification information indicating another of the content data;
A receiving process of receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data;
Based on at least the content identification information received by the reception processing, search for divided data that can be demodulated by combining with the divided data designated by the external device from among the divided data accumulated by the accumulation processing. Search processing,
A transmission process of transmitting the divided data searched by the search process to the external device;
A program that causes a communication device to execute the program. A storage process of storing divided data formed by dividing the content data so that each becomes a part of specific content data, in a searchable state by content identification information indicating another of the content data;
A receiving process of receiving the content identification information from an external device that holds the divided data and sends out content identification information corresponding to the specified divided data from the held divided data;
Based on at least the content identification information received by the reception processing, search for divided data that can be demodulated by combining with the divided data designated by the external device from among the divided data accumulated by the accumulation processing. Search processing,
A transmission process of transmitting the divided data searched by the search process to the external device;
Recording medium storing a program for causing a communication device to execute the program. Storage capable of storing divided data formed by dividing the content data so as to be each a part of specific content data by managing the content identification information indicating another of the content data. Means,
By transmitting content identification information corresponding to the designated divided data to an external communication device from among the divided data stored in the storage means, the designated divided data is transmitted to the communication device. Request means capable of requesting divided data that can be demodulated by combining with
Divided data receiving means capable of receiving the divided data transmitted from the communication device in response to the request by the request means,
A terminal device comprising: The divided data receiving means includes:
The communication device is configured to receive the encrypted divided data,
The storage means,
The divided data received by the divided data receiving means is configured to be stored as encrypted,
The terminal device according to claim 9, wherein: The storage means,
As the divided data, low-frequency data of content data is configured to be stored in the storage unit,
The above request means,
By transmitting content identification information corresponding to the specified low-frequency data to the communication device from among the low-frequency data stored in the storage unit, the communication device includes the low-frequency data and As the quality-enhancing data for the low-frequency data that can be synthesized and demodulated, the high-frequency data as the divided data of the content data is configured to be requested.
The terminal device according to claim 9, wherein: Storage for storing divided data formed by dividing the content data so that each becomes a part of specific content data by content identification information indicating another of the content data, and storing the divided data in storage means Processing,
By transmitting content identification information corresponding to the specified divided data to an external communication device from among the divided data stored in the storage means by the storage processing, the specified Request processing for requesting divided data that can be demodulated by combining with the divided data,
Division data reception processing for receiving division data transmitted from the communication device in response to a request by the request processing,
A communication method, comprising: Storage for storing divided data formed by dividing the content data so that each becomes a part of specific content data by content identification information indicating another of the content data, and storing the divided data in storage means Processing,
By transmitting content identification information corresponding to the specified divided data to an external communication device from among the divided data stored in the storage means by the storage processing, the specified Request processing for requesting divided data that can be demodulated by combining with the divided data,
Division data reception processing for receiving division data transmitted from the communication device in response to a request by the request processing,
For causing a terminal device to execute the program. Storage for storing divided data formed by dividing the content data so that each becomes a part of specific content data by content identification information indicating another of the content data, and storing the divided data in storage means Processing,
By transmitting content identification information corresponding to the specified divided data to an external communication device from among the divided data stored in the storage means by the storage processing, the specified Request processing for requesting divided data that can be demodulated by combining with the divided data,
Division data reception processing for receiving division data transmitted from the communication device in response to a request by the request processing,
Recording medium for recording a program for causing a terminal device to execute the program.

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