JP4150573B2 - Distribution system, audio device, and reception control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a distribution system, audio equipment, and reception control method.
[0002]
[Prior art]
2. Description of the Related Art In recent years, information distribution systems that distribute music data and the like have become widespread with the speeding up of networks and the development of data compression techniques. In such an information distribution system, generally, a user uses a personal computer (personal computer) to connect to the Internet and access a predetermined music distribution site or the like. Then, the personal computer downloads the desired music data from the access destination music distribution site according to the user's operation, and reproduces the music data that has been downloaded (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP 2002-74814 A (page 6-7, FIG. 1)
[0004]
In music distribution sites, music distribution called “streaming” is also performed, in which music data is reproduced while being sequentially received without waiting for downloading of all music data. In such music distribution by streaming, program content composed of a plurality of music data is often distributed.
In other words, when program content with a relatively large capacity (such as data for a plurality of songs) is played after downloading, the user will have to wait a long time before starting playback. There is no waiting for users.
For this reason, such program content is often distributed by streaming rather than by download.
[0005]
In music distribution sites that use both download distribution and streaming distribution, for example, in response to a request from a personal computer (in response to a request from a user), for example, program content is distributed by streaming and music data is downloaded and distributed.
More specifically, the user sequentially reproduces the program content (data for a plurality of songs, etc.) distributed by streaming on a personal computer, and listens to the reproduced music sound. If there is a favorite song, after the streaming delivery is completed, the personal computer is operated to request the music delivery site to download the desired song (song data).
Then, the user can store the music data to be downloaded and distributed on a hard disk of a personal computer or the like, and can reproduce and listen to the music data stored at any time.
[0006]
Nevertheless, there are many users who request download distribution during streaming distribution. For example, if there is a favorite music piece while listening to the streamed program content, a download distribution of the music piece is immediately requested.
In this case, if the line bandwidth (transmission bandwidth) connected to the network by a personal computer is not sufficient, it will hinder the listening of program content. In other words, if the transmission bandwidth that can perform streaming delivery and download delivery in parallel is not secured, the amount of transmission may drop sharply during streaming delivery, and playback of program content may be interrupted. there were.
In this case, since the transmission amount on the download distribution side is not sufficient, it may take a very long time until the music data storage is completed (download distribution is completed).
[0007]
This is because the transmission band depends on the network connection environment of the user (personal computer) and the transmission band may fluctuate during the network connection. In other words, the acquired line bandwidth may become low in the user's network connection environment even in an environment where the transmission band is constantly low or where the transmission band is high to some extent. In addition, since a personal computer is generally connected to the network on a best effort basis, there is a case where the transmission amount during distribution is drastically reduced.
Above all, there is a problem in that no consideration is given to the actual state of the actual Internet connection on the personal computer side.
[0008]
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a distribution system, an audio device, and a reception control method capable of appropriately receiving and controlling content distributed in a predetermined transmission band. .
[0009]
[Means for Solving the Problems]
  In order to achieve the above object, a distribution system according to the first aspect of the present invention provides:
  A distribution system in which a server and an audio device are connected via a network,
  The server
  Content storage means for storing content to be distributed;
  In response to a request from the audio device, a distribution unit that distributes the target content stored in the content storage unit to the audio device by streaming distribution or download distribution, and
  The audio equipment is
  Receiving means for receiving content distributed from the server by the distributing means;
  While the receiving means is receiving content to be streamed, the size of the transmission band reserved for transmission is set.SequentialAcquisition means for acquiring;
  The acquisition meansSequentialWhether streaming distribution and download distribution can be performed in parallel according to the size of the acquired transmission band.SequentialDiscriminating means for discriminating;
  By the discrimination meansAccording to the discrimination resultReceiving streaming content to the receiving meansAnd switching between receiving content that is distributed in parallel in streaming distribution and download distributionReceiving control means for receiving,
  It is characterized by that.
[0010]
  The reception control means determines that parallel distribution is not possible by the determination means.At the timingControlling the receiving means;The reception of the content distributed by download may be stopped and the reception unit may be controlled to resume the reception of the content distributed by download at a timing when the determination unit determines that parallel distribution is possible. .
[0011]
  The acquisition means determines the size of the transmission band reserved for transmission., According to the time required for the receiving means to receive a predetermined amount of content to be streamed,Acquired sequentially,
  The determination means is the size of the transmission band acquired sequentially by the acquisition means.And the size of the transmission bandwidth required for parallel delivery of streaming delivery and download delivery,Sequential determination of whether parallel delivery is possibleMay be.
[0012]
  In order to achieve the above object, a distribution system according to the second aspect of the present invention provides:
  A distribution system in which a server and an audio device are connected via a network,
  The server
  Content storage means for storing content to be distributed;
  In response to a request from the audio device, a distribution unit that distributes the target content stored in the content storage unit to the audio device by streaming distribution or download distribution, and
  The audio equipment is
  Receiving means for receiving content distributed from the server by the distributing means;
  An acquisition unit that acquires a size of a current transmission band reserved for transmission when download distribution is instructed while the reception unit receives streaming content.
  A determination unit that determines whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired by the acquisition unit;
  A reception control unit that causes the reception unit to receive the content to be downloaded and distributed in parallel with the reception of the content to be distributed by streaming when the determination unit determines that parallel distribution is possible;
  It is characterized by that.
[0014]
  In order to achieve the above object, an audio device according to the third aspect of the present invention provides:
  An audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
  Receiving means for receiving content distributed from the server;
  While the receiving means is receiving content to be streamed, the size of the transmission band reserved for transmission is set.SequentialAcquisition means for acquiring;
  The acquisition meansSequentialWhether streaming distribution and download distribution can be performed in parallel according to the size of the acquired transmission band.SequentialDiscriminating means for discriminating;
  By the discrimination meansAccording to the discrimination resultReceiving streaming content to the receiving meansAnd switching between receiving content that is distributed in parallel in streaming distribution and download distributionReceiving control means for receiving;
  It is characterized by providing.
[0015]
  The reception control unit controls the reception unit at a timing when the determination unit determines that parallel distribution is not possible, and stops the reception of the content to be downloaded and distributed by the determination unit. The reception unit may be controlled at the timing when it is determined that the content is downloaded and the reception of the content distributed by download may be resumed.
  The acquisition means determines the size of the transmission band reserved for transmission., According to the time required for the receiving means to receive a predetermined amount of content to be streamed,Acquired sequentially,
  The determination means is the size of the transmission band acquired sequentially by the acquisition means.And the size of the transmission bandwidth required for parallel delivery of streaming delivery and download delivery,Sequential determination of whether parallel delivery is possibleMay be.
[0016]
  In order to achieve the above object, an audio device according to the fourth aspect of the present invention provides:
  An audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
  Receiving means for receiving content distributed from the server;
  An acquisition unit that acquires a size of a current transmission band reserved for transmission when download distribution is instructed while the reception unit receives streaming content.
  A determination unit that determines whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired by the acquisition unit;
  When it is determined by the determination means that parallel distribution is possible, the reception control means for causing the reception means to receive the content to be downloaded and distributed in parallel with the reception of the content to be distributed by streaming;
  It is characterized by providing.
[0017]
  In order to achieve the above object, a reception control method according to a fifth aspect of the present invention includes:
  A reception control method in an audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
  A receiving step for receiving content distributed from the server;
  The size of the transmission band reserved for transmission while receiving the content that is streamed in the reception step is set.SequentialAn acquisition step to acquire;
  In the acquisition stepSequentialWhether streaming distribution and download distribution can be performed in parallel according to the size of the acquired transmission band.SequentialA determination step to determine;
  In the discrimination stepAccording to the discrimination resultControl of the reception step and reception of content to be streamedAnd switching between receiving content that is distributed in parallel in streaming distribution and download distributionReceiving control step for receiving
  It is characterized by providing.
[0018]
  The reception control step controls the reception step at a timing when it is determined that parallel distribution is not possible by the determination step, and stops reception of content to be downloaded and distributed by the determination step. The reception step may be controlled at the timing when it is determined that the content to be received is resumed.
  In the obtaining step, the size of the transmission band reserved for transmission is determined., According to the time required for the receiving means to receive a predetermined amount of content to be streamed,Acquired sequentially,
  In the determination step, the size of the transmission band sequentially acquired in the acquisition stepAnd the size of the transmission bandwidth required for parallel delivery of streaming delivery and download delivery,Sequential determination of whether parallel delivery is possibleMay be.
[0019]
  In order to achieve the above object, a reception control method according to a sixth aspect of the present invention includes:
  A reception control method in an audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
  A receiving step for receiving content distributed from the server;
  An acquisition step of acquiring the size of the current transmission band reserved for transmission when download distribution is instructed while receiving the content to be streamed in the reception step;
  A determination step of determining whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired in the acquisition step;
  When it is determined in the determination step that parallel distribution is possible, the reception control step of controlling the reception step and receiving the content distributed by download in parallel with the reception of the content distributed by streaming;
  It is characterized by providing.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
An information distribution system according to an embodiment of the present invention will be described below with reference to the drawings.
[0021]
FIG. 1 is a schematic diagram showing an example of the configuration of an information distribution system applied to the embodiment of the present invention. As shown in the figure, this system includes an audio device 1 and a data server 3. The audio device 1 and the data server 3 are connected via a network 9 such as the Internet.
[0022]
First, the audio device 1 will be described with reference to FIG. FIG. 2 is a block diagram illustrating an example of the configuration of the audio device 1. As shown in the figure, the audio device 1 includes a tuner unit 11, an MD recording / reproducing unit 12, a signal processing unit 13, a network adapter 14, a hard disk 15, a flash memory 16, a timing unit 17, and an operation unit 18. A display unit 19, a control unit 20, a source selection unit 21, an amplifier 22, and a speaker 23.
[0023]
The tuner unit 11 receives a broadcast program such as AM broadcast or FM broadcast via a predetermined antenna, and supplies the received program sound to the source selection unit 21.
[0024]
The MD (minidisc) recording / reproducing unit 12 is controlled by the signal processing unit 13 and records music data on the MD (recording MD).
For example, the MD recording / reproducing unit 12 is a recording / reproducing unit conforming to the NetMD (registered trademark) standard, and the music data stored in the hard disk 15 is recorded (checked out) on the MD and recorded on the MD. Return the music data to the hard disk 15 (check in).
The MD recording / reproducing unit 12 reproduces an audio signal from the music data recorded on the MD, and supplies the reproduced audio signal to the source selection unit 21.
[0025]
The signal processing unit 13 includes, for example, a DSP (Digital Signal Processor) and controls the recording / reproducing operation of the MD recording / reproducing unit 12 in accordance with an operation command supplied from the control unit 20.
Further, when the program content streamed from the data server 3 (for example, stream data including a plurality of music data) is supplied, the signal processing unit 13 performs decoding and the like, and the decoded audio signal is the source selection unit. 21.
Further, music data (for example, download data such as encrypted ATRAC3 data and PCM data) stored in the hard disk 15 is extracted and decrypted, and an audio signal is reproduced. Then, the reproduced audio signal is supplied to the source selection unit 21.
[0026]
The network adapter 14 includes, for example, a LAN (Local Area Network) card, a high-speed modem, and the like, and is controlled by the control unit 20 to transmit / receive necessary information to / from the data server 3 via the network 9.
For example, the network adapter 14 transmits distribution request information for requesting distribution (streaming distribution or download distribution) of program content and music data to the data server 3. Further, it receives program content (stream data), music data (download data), etc. distributed from the data server 3 in response to the transmitted distribution request information.
[0027]
The hard disk 15 is composed of a magnetic disk unit having a predetermined capacity, and stores music data (download data) downloaded and distributed from the data server 3.
The hard disk 15 is controlled by the control unit 20 and supplies the stored music data to the signal processing unit 13 and the like.
[0028]
The flash memory 16 includes an EEPROM (Electrically Erasable and Programmable ROM) or the like, and stores a user ID, a password, a device ID, and the like.
These user IDs, passwords, and the like are appropriately read by the control unit 20 and used for user authentication when the audio device 1 first accesses the data server 3 via the network 9.
[0029]
The clocking unit 17 is composed of a clock circuit and the like, and clocks the current date (year / month / day) and the current time (hour / minute / second).
The time measuring unit 17 also has a timer function, and instructs the control unit 20 to start a predetermined operation when the set date and time arrives (elapses).
[0030]
The operation unit 18 includes a plurality of key switches, analog switches, and the like disposed on the front surface of the audio device 1. The operation unit 18 inputs instruction information according to a user operation and supplies the instruction information to the control unit 20.
For example, the operation unit 18 includes a request key for requesting the data server 3 for streaming distribution of program content, a D / L (download) key for requesting download distribution of music data, and the like. Yes.
[0031]
The display unit 19 includes a fluorescent display tube, a liquid crystal display unit, and the like.
For example, the display unit 19 displays information such as a list of program contents (program list) that can be distributed by the data server 3.
[0032]
The control unit 20 includes a one-chip microcomputer including a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory), and controls the entire audio device 1.
[0033]
For example, the control unit 20 generates distribution request information for requesting streaming distribution of desired program content according to the operation of the operation unit 18 (request key) by the user, and transmits it to the data server 3. Then, when the target program content is streamed from the data server 3, the received program content is supplied to the signal processing unit 13, and music sound or the like is output from the speaker 23.
Further, the control unit 20 generates distribution request information for requesting download distribution of desired music data in accordance with the operation of the operation unit 18 (D / L key) by the user, and transmits it to the data server 3. When the target music data is downloaded from the data server 3, the received music data is stored in the hard disk 15.
When the D / L key is operated during streaming delivery, the control unit 20 confirms the current transmission band and further determines whether download delivery can be performed in parallel.
When the control unit 20 determines that the transmission band is sufficient and both distributions can be performed in parallel, the control unit 20 immediately requests the data server 3 for download distribution and receives the program content and the music data in parallel. To do.
On the other hand, when it is determined that the transmission band is insufficient and only streaming distribution can be performed, the control unit 20 requests the data server 3 for download distribution after the streaming distribution is completed.
[0034]
The source selection unit 21 includes an input changeover switch and the like, and is controlled by the control unit 20 to select any one of the tuner unit 11, the MD recording / playback unit 12, and the signal processing unit 13 as an input source. The source selection unit 21 supplies an audio signal output from the selected input source to the amplifier 22.
[0035]
The amplifier 22 includes a predetermined amplifier circuit and the like, amplifies the audio signal supplied via the source selection unit 21 as appropriate, and supplies the amplified audio signal to the speaker 23.
[0036]
The speaker 23 is a stereo speaker or the like, and outputs sound (musical sound or the like) according to the sound signal amplified by the amplifier 22.
[0037]
Next, the data server 3 will be described with reference to FIG. FIG. 3 is a block diagram illustrating an example of the configuration of the data server 3. As illustrated, the data server 3 includes a database 30, a processing control unit 41, an encoding processing unit 42, and a communication control unit 43.
[0038]
The database 30 includes, for example, a content management DB 31 and a user information management DB 32.
The content management DB 31 is a database for managing program content composed of a plurality of music data and each music data. Specifically, the content management DB 31 uses the program content management information as shown in FIG. 4A and the music data management information as shown in FIG. Manage data.
[0039]
4A includes, for example, a program ID, a channel number, a program name, a storage address, and the like.
The program ID is unique identification information for specifying the program content. The channel number is a channel number assigned to a program (program content).
The music data management information shown in FIG. 4B includes, for example, a music ID, a music name, and a storage address.
Note that the music ID is unique identification information for specifying music data.
[0040]
The user information management DB 32 is a database that manages information about users who can access the data server 3 and use services. Specifically, as shown in FIG. 5, the user information management DB 32 sets a user ID, a password, a user name, and the like for specifying a user, a genre of a song that the user likes to listen to, a song name, an artist, and the like. Stores preference information and the like for storage.
[0041]
Returning to FIG. 3, the processing control unit 41 includes a predetermined computer unit and controls the entire data server 3.
For example, when receiving the distribution request information sent from the audio device 1 via the communication control unit 43, the processing control unit 41 searches the content management DB 31 and acquires the corresponding program content and music data.
That is, when streaming delivery is requested from the audio device 1, the processing control unit 41 searches the content management DB 31 with reference to the program content management information shown in FIG. 4A, and acquires the corresponding program content.
When download distribution is requested, the process control unit 41 searches the content management DB 31 with reference to the music data management information shown in FIG. 4B, and acquires the corresponding music data.
Then, the processing control unit 41 supplies the acquired program content to the encoding processing unit 42 to perform streaming distribution toward the audio device 1, and downloads the acquired music data via the communication control unit 43. To do.
[0042]
The encoding processing unit 42 includes an encoder circuit that encodes program content (a plurality of music data and the like) in a stream data format that can be reproduced by the audio device 1 in real time.
The encoding processing unit 42 sequentially encodes the program content supplied from the processing control unit 41 into stream data, and distributes the encoded program content (stream data) to the audio device 1 via the communication control unit 43. At that time, a song ID corresponding to the song data is added to the stream data. More specifically, the music ID and the like are set in the header of the stream packet.
Then, when such program content (stream data) is streamed and reproduced by the audio device 1, a music ID or the like for specifying music data (music data currently being reproduced) can be acquired. .
[0043]
Instead of sequentially encoding the program content by the encoding processing unit 42, the program content (stream data) authored in advance for streaming distribution may be stored in the content management DB 31. Also in this case, it is assumed that a music ID corresponding to the music data is added to the stream data.
[0044]
The communication control unit 43 includes a line control device, a gateway device, and the like, and transmits / receives necessary information between the data server 3 and the audio device 1 via the network 9.
[0045]
The operation of the information distribution system according to the embodiment of the present invention will be described below with reference to the drawings.
First, a content reception process and a content distribution process according to the first embodiment of the present invention will be described with reference to FIG.
FIG. 6 is a flowchart for explaining the content reception process executed by the audio device 1 and the content distribution process executed by the data server 3.
In this content reception process, for example, an arbitrary program is selected by the user via the operation unit 18 in a state where a list of programs (program content) to be streamed is displayed on the display unit 19. It shall be executed later by the control unit 20. In addition, the content distribution process is executed by the process control unit 41 in response to an access from the audio device 1 via the network 9.
[0046]
First, the control unit 20 of the audio device 1 generates distribution request information for requesting streaming distribution and transmits it to the data server 3 (step S11).
For example, in response to pressing of the operation unit 18 (request key), the control unit 20 generates distribution request information including a program ID selected from the program list and performs streaming distribution of the corresponding program content on the data server 3. To request.
Thereafter, the control unit 20 stands by until streaming distribution from the data server 3 is started.
[0047]
On the other hand, the processing control unit 41 of the data server 3 stands by until receiving the distribution request information sent from the audio device 1 (step S31). When receiving the distribution request information, the processing control unit 41 receives the target from the content management DB 31 according to the distribution request information. Is read out (step S32).
In this case, the process control unit 41 reads the target program content from the content management DB 31 with reference to the program content management information shown in FIG. 4A according to the program ID included in the distribution request information.
[0048]
The process control unit 41 distributes the read content to the audio device 1 (step S33).
In this case, the processing control unit 41 supplies the read program content to the encoding processing unit 42 in order to perform streaming distribution. Then, the encoding processing unit 42 sequentially encodes the supplied program content into a predetermined stream data format (stream data is sequentially generated), and the generated stream data is transmitted via the communication control unit 43 to the requesting audio device. Deliver sequentially to 1.
Note that, as described above, the song data corresponding to the song data is added to the stream data to be distributed.
[0049]
When the distribution is started, the control unit 20 of the audio device 1 waiting for the distribution start sequentially reproduces the program content that is streamed from the data server 3 (step S12).
That is, the control unit 20 supplies the stream data sequentially received by the network adapter 14 to the signal processing unit 13 and causes the speaker 23 to output the music sound decoded (reproduced) by the signal processing unit 13.
[0050]
The control unit 20 determines whether or not the streaming distribution of the program content has been completed (step S13).
When determining that the streaming delivery is completed, the control unit 20 ends the content reception process.
Conversely, when it is determined that the streaming distribution has not been completed, the control unit 20 determines whether or not the D / L key of the operation unit 18 has been pressed (step S14). That is, it is determined whether or not a download instruction specifying a music currently being played (listening) is given by the user.
When determining that the D / L key has not been pressed, the control unit 20 returns the process to step S12 and repeatedly executes the processes of steps S12 to S14 described above.
[0051]
Conversely, when it is determined that the D / L key has been pressed, the control unit 20 checks the current transmission band (step S15).
For example, the control unit 20 obtains the current transmission band from the acquired line band acquired when the network adapter 14 is connected to the network, the time required to receive a predetermined amount of program content in streaming distribution, and the like.
The control unit 20 determines whether parallel distribution of streaming distribution and download distribution is possible based on the obtained current transmission band (step S16).
For example, when a transmission band of 132 kbps is required for streaming distribution and download distribution, the control unit 20 can perform parallel distribution when the current transmission band obtained in step S15 is 132 kbps or more. Is determined.
[0052]
When determining that both parallel distributions are possible, the control unit 20 generates distribution request information for requesting download distribution, and transmits the distribution request information to the data server 3 (step S17).
For example, the control unit 20 acquires a music ID or the like added to the currently reproduced stream data (a music ID set in the header of the stream packet) and sends distribution request information including the music ID or the like. Generate and request download distribution of the corresponding music data from the data server 3.
Thereafter, the control unit 20 stands by for download distribution from the data server 3 while reproducing the program content that is continuously distributed by streaming.
[0053]
On the other hand, when receiving the distribution request information (step S31), the processing control unit 41 of the data server 3 reads the target content from the content management DB 31 according to the distribution request information (step S32). In this case, the process control unit 41 reads the target song data (download data) from the content management DB 31 with reference to the song data management information shown in FIG. 4B according to the song ID included in the distribution request information. .
Then, the process control unit 41 distributes the read content toward the audio device 1 (step S33).
In this case, the process control unit 41 sequentially transmits the read music data (download data) to the requesting audio device 1 via the communication control unit 43 in order to perform download distribution.
[0054]
When the download distribution from the data server 3 is started, the control unit 20 of the audio device 1 that has received the streaming distribution and waited for the download distribution sequentially reproduces the program contents to be distributed and download distribution. The music data to be played are sequentially stored in the hard disk 15 (step S18).
That is, the control unit 20 secures a sufficient transmission band for both distributions, and thus receives the program content that is streamed and the music data that is downloaded and distributed in parallel.
The control unit 20 determines whether or not download distribution has been completed (step S19).
When it is determined that the download distribution is not completed, the control unit 20 returns the process to step S18 described above, and receives the streaming distribution and the download distribution in parallel.
Conversely, when it is determined that the download distribution has been completed, the control unit 20 returns the process to step S12 described above.
[0055]
If it is determined in step S16 described above that parallel distribution is not possible, the control unit 20 acquires and stores the song ID and the like of the song data to be downloaded (step S20).
For example, the control unit 20 acquires a song ID or the like added to the currently reproduced stream data, and temporarily stores the song ID or the like in its own RAM.
The control unit 20 continues to play the program content that is streamed from the data server 3 (step S21), and waits for the completion of the streaming delivery (step S22).
When the streaming distribution is completed, the control unit 20 requests the data server 3 to download the music data (step S23). That is, the control unit 20 generates distribution request information including the music ID stored in step S <b> 20 and transmits the distribution request information to the data server 3.
Since the distribution request information has a small amount of data, it may be transmitted to the data server 3 during the streaming distribution without waiting for the completion of the streaming distribution.
Thereafter, the control unit 20 waits for download delivery from the data server 3.
[0056]
On the other hand, when receiving the distribution request information (step S31), the process control unit 41 of the data server 3 reads the target music data (download data) from the content management DB 31 according to the distribution request information (step S32). . Then, the read music data is downloaded and distributed to the audio device 1 (step S33).
[0057]
When the distribution is started from the data server 3, the control unit 20 of the audio device 1 waiting for distribution sequentially stores the music data to be downloaded and distributed on the hard disk 15 (step S24). The controller 20 repeatedly stores the music data in step S24 while determining completion of download distribution (step S25).
When the download distribution is completed, the control unit 20 ends the content reception process.
[0058]
As described above, only when the transmission band is confirmed in the audio device 1 by the content reception process and the content distribution process described with reference to FIG. 6 and the parallel distribution of the streaming distribution and the download distribution is possible, both distributions are performed. Is requested from the data server 3. The audio device 1 receives in parallel the program content that is streamed and the music data that is downloaded and distributed in a state where a transmission band sufficient for both distributions is secured.
If parallel distribution is not possible, the audio server 1 requests download distribution from the data server 3 after the streaming distribution is completed. Then, the audio device 1 independently receives the music data to be downloaded and distributed in a transmission band insufficient for both distributions.
[0059]
For this reason, the line band (transmission band) can be used effectively, and the line load can be minimized. Then, the reproduction of the program content can be prevented from being interrupted during the streaming distribution, and the music data download distribution is completed in an appropriate time.
As a result, it is possible to appropriately control reception of content distributed in a predetermined transmission band.
[0060]
In the first embodiment described above, when download distribution is instructed during streaming distribution, the transmission band is confirmed only once, and a sufficient transmission band is secured for both distributions. The case where distribution is performed has been described. However, in consideration of the fact that the transmission band fluctuates in the middle, the transmission band may be confirmed sequentially during the parallel distribution.
Next, content reception processing according to the second embodiment of the present invention will be described with reference to FIG.
[0061]
FIG. 7 is a flowchart for explaining content reception processing executed by the audio device 1.
In this content reception process, for example, after a list of program contents to be streamed is displayed on the display unit 19 and an arbitrary program is selected by the user via the operation unit 18, the control unit 20 It is executed by.
In the data server 3, the content distribution process as shown in FIG. 6 described above is executed by the processing control unit 41, and the requested program content is streamed and the requested music data is downloaded and distributed. To do.
[0062]
First, the control unit 20 of the audio device 1 generates distribution request information for requesting streaming distribution (for example, distribution request information including a program ID selected from the program list) and transmits it to the data server 3. (Step S41).
On the other hand, the processing control unit 41 of the data server 3 reads the program content from the content management DB 31 in response to the distribution request information, controls the encoding processing unit 42 and the like, and streams the program content toward the audio device 1. To deliver.
[0063]
When the distribution is started, the control unit 20 of the audio device 1 sequentially reproduces the program content streamed from the data server 3 (Step S42). The control unit 20 determines whether or not the streaming distribution of the program content is completed (Step S43).
When determining that the streaming delivery is not completed, the control unit 20 determines whether or not the D / L key of the operation unit 18 is pressed (step S44).
[0064]
When determining that the D / L key has not been pressed, the control unit 20 returns the process to step S42 and repeatedly executes the processes of steps S42 to S44 described above.
Conversely, if it is determined that the D / L key has been pressed, the control unit 20 includes distribution request information for requesting download distribution (for example, the music ID acquired from the currently reproduced stream data). Distribution request information) is generated and transmitted to the data server 3 (step S45).
On the other hand, the process control unit 41 of the data server 3 reads the music data from the content management DB 31 in response to the distribution request information, and transmits it to the requesting audio device 1 via the communication control unit 43 (download). Try delivery).
[0065]
The control unit 20 of the audio device 1 stops downloading (step S46). That is, the control unit 20 stops the download distribution from the data server 3 by not receiving the music data distributed.
Nevertheless, only the program content streamed from the data server 3 is received, and the program content is sequentially reproduced (step S47).
[0066]
The control unit 20 checks the current transmission band (step S48), and determines whether or not streaming distribution and download distribution can be performed in parallel (step S49).
If it is determined that both parallel distributions are not possible (the transmission band is not sufficient for both distributions), the control unit 20 returns the process to step S46 and repeats the processes of steps S46 to S49 described above. That is, only the program content is reproduced by streaming delivery while checking the transmission band.
Conversely, when it is determined that both parallel distributions are possible (the transmission band is sufficient for both distributions), the control unit 20 cancels the download stop state, and downloads the music data to be distributed, A predetermined amount is received and stored in the hard disk 15 (step S50). That is, only during this time, download distribution is performed in parallel with streaming distribution. That is, when the download stop state is canceled, the control unit 20 sequentially reproduces the program content distributed by streaming, receives a predetermined amount of music data distributed by download, and stores it in the hard disk 15.
The control unit 20 determines whether or not download distribution has been completed (step S51). If the control unit 20 determines that the download distribution has not been completed, the control unit 20 returns the process to step S46 described above. Conversely, when it is determined that the download distribution has been completed, the control unit 20 returns the process to step S42 described above.
Further, when it is determined in step S43 described above that the streaming distribution has been completed, the control unit 20 ends the content reception process.
[0067]
As described above, by the content reception processing described with reference to FIG. 7, the audio device 1 sequentially confirms the transmission band even during parallel distribution, and only when a sufficient transmission band is secured for both distributions. The program content that is distributed by streaming and the music data that is distributed by download are received in parallel.
For this reason, even when the transmission band fluctuates in the middle, the line band (transmission band) can be used effectively, and the line load can be minimized. Then, the reproduction of the program content can be prevented from being interrupted during the streaming distribution, and the music data download distribution is completed in an appropriate time.
As a result, it is possible to appropriately control reception of content distributed in a predetermined transmission band.
[0068]
In the first and second embodiments described above, the case where streaming distribution and download distribution are performed in parallel while checking the transmission band has been described. Nevertheless, if the necessary part (music data) of the program content to be streamed instead of download delivery can be stored in the hard disk 15, the transmission band can be occupied only by streaming delivery. In other words, it is no longer necessary to perform streaming distribution and download distribution in parallel, and the transmission band need not be considered much.
Next, content reception processing according to the third embodiment of the present invention will be described with reference to FIG.
[0069]
FIG. 8 is a flowchart for explaining content reception processing executed in the audio device 1.
In this content reception process, for example, after a list of program contents to be streamed is displayed on the display unit 19 and an arbitrary program is selected by the user via the operation unit 18, the control unit 20 It is executed by.
In the data server 3, the content distribution process as shown in FIG. 6 described above is executed by the process control unit 41, and only the requested program content is streamed.
[0070]
First, the control unit 20 of the audio device 1 generates distribution request information for requesting streaming distribution and transmits it to the data server 3 (step S61).
On the other hand, the process control unit 41 of the data server 3 performs streaming distribution of the corresponding program content toward the audio device 1 in response to the distribution request information.
[0071]
When the distribution is started, the control unit 20 of the audio device 1 sequentially reproduces the program contents streamed from the data server 3 (Step S62).
The control unit 20 determines whether or not the streaming distribution of the program content has been completed (step S63).
When determining that the streaming delivery is not completed, the control unit 20 determines whether or not the D / L key of the operation unit 18 is pressed (step S64).
[0072]
When determining that the D / L key has not been pressed, the control unit 20 returns the process to step S62 and repeatedly executes the processes of steps S62 to S64 described above.
Conversely, when it is determined that the D / L key has been pressed, the control unit 20 generates redistribution request information for requesting redistribution of the program content specifying the music, and transmits the redistribution request information to the data server 3. (Step S65).
For example, the control unit 20 generates redistribution request information including the program ID of the program content currently being reproduced and the song ID added to the stream data being reproduced, and the program content from the song Request redistribution to the data server 3.
[0073]
On the other hand, the processing control unit 41 of the data server 3 controls the encoding processing unit 42 and the like in response to the redistribution request information, and directs the program content starting from the designated music (music data) to the audio device 1. Streaming. For example, when reading the target program content from the content management DB 31, the processing control unit 41 skips the data to the point immediately before the target music data, and then supplies the program content to the encoding processing unit 42. Then, the encoding processing unit 42 starts redistribution of the program content starting from the designated music data.
[0074]
When the redistribution is started, the music data streamed from the data server 3 is sequentially reproduced, and the music data (stream data) to be distributed is sequentially stored in the hard disk 15 (step S66). That is, the program content (music data) that has been reproduced until then is interrupted and reproduced from the beginning of the same music data. In parallel with this, music data (stream data) is sequentially stored in the hard disk 15.
[0075]
The control unit 20 determines whether or not music distribution (streaming distribution of current music data) is completed (step S67).
When determining that the music distribution has not been completed, the control unit 20 repeats the reproduction and storage of the music data in step S66 described above. Conversely, when it is determined that the music distribution has been completed, the control unit 20 returns the process to step S62 described above.
If it is determined in step S63 described above that the streaming distribution has been completed, the control unit 20 ends the content reception process.
[0076]
As described above, by the content reception process described with reference to FIG. 8, desired music data in the program content to be distributed by streaming is stored in the hard disk 15 instead of the music data to be distributed by download. As a result, it is not necessary to perform streaming distribution and download distribution in parallel, and the transmission band is not considered much.
Also in this case, it is possible to appropriately control reception of content distributed in a predetermined transmission band.
[0077]
In the above embodiment, the case where the data server 3 distributes program content and music data has been described. However, the content to be distributed is not limited to music data or the like and is arbitrary. For example, the data server 3 may distribute content composed of video data.
[0078]
【The invention's effect】
As described above, according to the present invention, it is possible to appropriately control reception of content distributed in a predetermined transmission band.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an example of a configuration of an information distribution system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating an example of the configuration of an audio device.
FIG. 3 is a block diagram illustrating an example of a configuration of a data server.
4A and 4B are schematic diagrams showing an example of information stored in a content management DB, where FIG. 4A is a diagram of program content management information, and FIG. 4B is a diagram of music data management information.
FIG. 5 is a schematic diagram showing an example of specific contents of a user information management DB.
FIG. 6 is a flowchart for explaining content reception processing and content distribution processing according to the first embodiment of the present invention;
FIG. 7 is a flowchart for explaining content reception processing according to the second embodiment of the present invention;
FIG. 8 is a flowchart for explaining content reception processing according to a third embodiment of the present invention;
[Explanation of symbols]
1 Audio equipment
11 Tuner unit
12 MD recording / playback unit
13 Signal processor
14 Network adapter
15 Hard disk
16 Flash memory
17 Timing unit
18 Operation unit
19 Display
20 Control unit
21 Source selection section
22 Amplifier
23 Speaker
3 Data server
30 database
31 Content management DB
32 User information management DB
41 Processing control unit
42 Encoding processing unit
43 Communication control unit

Claims (12)

A distribution system in which a server and an audio device are connected via a network,
The server
Content storage means for storing content to be distributed;
In response to a request from the audio device, a distribution unit that distributes the target content stored in the content storage unit to the audio device by streaming distribution or download distribution, and
The audio equipment is
Receiving means for receiving content distributed from the server by the distributing means;
An acquisition means for sequentially acquiring the size of a transmission band reserved for transmission while the receiving means is receiving content to be streamed;
According to the size of the transmission band sequentially acquired by the acquisition unit, a determination unit that sequentially determines whether parallel distribution of streaming distribution and download distribution is possible,
In accordance with the discrimination means by that determination result, the said receiving means, and reception of the content to be streamed, a reception control means for the reception, to receive by switching the content to be concurrently delivered by streaming and download distribution, Comprising
A distribution system characterized by that. Said reception control means at a timing that is determined to not be concurrent delivery by the determination means, by controlling the receiving means, to stop the reception of the content to be downloaded delivered, allow concurrent delivery by said discrimination means At the timing determined to be, the receiving means is controlled to resume the reception of the content to be downloaded and distributed,
The distribution system according to claim 1. The acquisition means sequentially acquires the size of the transmission band reserved for transmission according to the time required for the reception means to receive a predetermined amount of content to be streamed ,
The determination means sequentially compares the size of the transmission band sequentially acquired by the acquisition means with the size of the transmission band required for parallel distribution of streaming distribution and download distribution, and whether parallel distribution is possible or not. sequentially determined,
The delivery system according to claim 1 or 2 , wherein A distribution system in which a server and an audio device are connected via a network,
The server
Content storage means for storing content to be distributed;
In response to a request from the audio device, a distribution unit that distributes the target content stored in the content storage unit to the audio device by streaming distribution or download distribution, and
The audio equipment is
Receiving means for receiving content distributed from the server by the distributing means;
An acquisition unit that acquires a size of a current transmission band reserved for transmission when download distribution is instructed while the reception unit receives streaming content.
A determination unit that determines whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired by the acquisition unit;
A reception control unit that causes the reception unit to receive the content to be downloaded and distributed in parallel with the reception of the content to be distributed by streaming when the determination unit determines that parallel distribution is possible;
A distribution system characterized by that. An audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
Receiving means for receiving content distributed from the server;
An acquisition means for sequentially acquiring the size of a transmission band reserved for transmission while the receiving means is receiving content to be streamed;
According to the size of the transmission band sequentially acquired by the acquisition unit, a determination unit that sequentially determines whether parallel distribution of streaming distribution and download distribution is possible,
In accordance with the discrimination means by that determination result, the said receiving means, and reception of the content to be streamed, a reception control means for the reception, to receive by switching the content to be concurrently delivered by streaming and download distribution,
An audio device comprising: The reception control unit controls the reception unit at a timing when the determination unit determines that parallel distribution is not possible, and stops the reception of the content to be downloaded and distributed by the determination unit. At the timing when it is determined that the content is to be downloaded and resumed by controlling the receiving means,
The audio device according to claim 5. The acquisition means sequentially acquires the size of the transmission band reserved for transmission according to the time required for the reception means to receive a predetermined amount of content to be streamed ,
The determination means sequentially compares the size of the transmission band sequentially acquired by the acquisition means with the size of the transmission band required for parallel distribution of streaming distribution and download distribution, and whether parallel distribution is possible or not. sequentially determined,
The audio device according to claim 5 or 6 , wherein An audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
Receiving means for receiving content distributed from the server;
An acquisition unit that acquires a size of a current transmission band reserved for transmission when download distribution is instructed while the reception unit receives streaming content.
A determination unit that determines whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired by the acquisition unit;
When it is determined by the determination means that parallel distribution is possible, the reception control means for causing the reception means to receive the content to be downloaded and distributed in parallel with the reception of the content to be distributed by streaming;
An audio device comprising: A reception control method in an audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
A receiving step for receiving content distributed from the server;
An acquisition step of sequentially acquiring the size of the transmission band reserved for transmission while receiving the content that is streamed in the reception step;
A determination step of sequentially determining whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band sequentially acquired in the acquisition step;
According the determination result by the determination step, and controlling said receiving step, the receiving control step of receiving a reception, the reception of the content to be concurrently delivered by streaming and downloading delivery, the by switching the content to be streamed When,
A reception control method comprising: The reception control step controls the reception step at a timing when it is determined by the determination step that parallel distribution is not possible. Stop receiving, and at the timing when it is determined that parallel distribution is possible by the determination step, control the reception step to resume reception of content to be downloaded and distributed;
The reception control method according to claim 9. The acquisition step sequentially acquires the size of the transmission band reserved for transmission according to the time required for the reception means to receive a predetermined amount of content to be streamed ,
The determination step sequentially compares the size of the transmission band acquired sequentially in the acquisition step with the size of the transmission band necessary for parallel distribution of streaming distribution and download distribution, and whether parallel distribution is possible. or sequentially determined,
11. The reception control method according to claim 9 or 10 , wherein: A reception control method in an audio device connected via a network to a server that distributes content by streaming distribution or download distribution,
A receiving step for receiving content distributed from the server;
An acquisition step of acquiring the size of the current transmission band reserved for transmission when download distribution is instructed while receiving the content to be streamed in the reception step;
A determination step of determining whether parallel distribution of streaming distribution and download distribution is possible according to the size of the transmission band acquired in the acquisition step;
When it is determined in the determination step that parallel distribution is possible, the reception control step of controlling the reception step and receiving the content distributed by download in parallel with the reception of the content distributed by streaming;
A reception control method comprising:

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