JP2011061644A - Apparatus and method for transmitting content - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent viewing of a content from being suddenly interrupted when the content in moving transfer "Move" is viewed only by a transmitting apparatus. <P>SOLUTION: An apparatus for transmitting content includes a recording/reproduction control part which performs transfer control "Move" for moving a recorded content to a content receiver 200, and when the reproduction of the content or the distribution of the content to a content receiver connected through a network is instructed during the moving, changes a transfer rate of the moving transfer. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a transmission device and a content transmission method suitable for protecting the copyright of transmitted content when transmitting and receiving content such as video and audio via a network.

  When content is transmitted between digital AV devices, encryption is performed on the content transmission device side, and information for decryption is shared with the content reception device side, thereby being a transmission destination. Copy protection is implemented to prevent the creation of unlimited copies so that the content is not correctly received and decrypted by devices other than the content receiving device.

  As an example of such a copy protection method, there is a method described in Non-Patent Document 1, for example, which is incorporated in a digital AV device. In the method described in Non-Patent Document 1, content is classified and managed as “Copy free”, “Copy one generation”, “No more copies”, and “Copy never”, and the content of “Copy free” and “Copy one generation” is recorded in the recording device. Only “Copy one generation” content is recorded once, then treated as “No more copies”, and on the bus, except for “Copy free” content, encryption processing is performed on the transmission side and transmitted This prevents unlimited copying of content. In addition, when copying the contents of “Copy one generation” (hereinafter referred to as “Move”), the reception side sequentially enables the received data, and at the same time, the transmission source sequentially disables the data after transmission. A method is defined.

  In content transmission through a wired or wireless network, there is a method of Non-Patent Document 2 in which the method described in Non-Patent Document 1 is extended to an IP network to further enhance security. In the method described in Non-Patent Document 2, a method is disclosed in which copy control information in the method described in Non-Patent Document 1 is extended and a part of the copy control information is described in a header part of a transmission packet and transmitted. .

  When copying content that can be copied only once using the method described in Non-Patent Document 2, in addition to the method described above, sequential validation and invalidation are not performed, and the entire content has been transferred. Later, a method for performing content validation on the reception side and content invalidation on the transmission side almost simultaneously is defined by performing Move decision processing using a Move decision processing request from the reception side as a trigger. As a result, even if the transfer is interrupted due to an unexpected situation in the middle of Move, the content is not divided in a halfway manner.

JP 2007-272862 JP

DTCP Specification Volume 1 Version 1.51 (Information Version) DTLA DTCP Specification Volume 1 Supplement E Mapping DTCP to IP, Version 1.2 (Information Version) DTLA

  In the content move process according to the above-described conventional technology, the content invalidation process is performed on the transmission side after the content move transfer is completely completed. Therefore, during the content move transfer, the content is viewed or connected via a network. It is possible to transmit for viewing on the device.

  However, since the conventional technique needs to perform a confirmation process immediately after the move transfer of the content is completed, the move transfer is performed in the middle of transmission for watching the content or watching on a device connected to the network. However, there is a problem that viewing cannot be performed when the is completed.

  In order to deal with such a problem, in Patent Document 1, a method for delaying the start of the move confirmation process from the receiving device by notifying the receiving device of the move transfer destination of the timing at which content viewing is completed, or Move during the content viewing. A method has been proposed in which a request for confirmation processing is rejected (REJECT), and a retry is performed after the viewing completion time from the receiving device. However, in this method, it is necessary to deal with the receiving apparatus, such as controlling the timing at which the receiving apparatus side makes the move confirmation process request or implementing the retry process of the move confirmation process.

  In addition, a timeout is defined for the time from the completion of Move transfer until the Move confirmation process is performed, and there is a possibility that the process may be interrupted due to a timeout when the timing for performing the Move confirmation process request from the receiving apparatus is changed. is there. Therefore, a content transmission apparatus and a content transmission method that can prevent sudden interruption of viewing when viewing the content that is being transferred by using only the transmission device without requiring any response at the reception device. The purpose is to provide.

  In order to solve the above-mentioned problem, when transfer control for moving the recorded content to the content receiving device is performed, and playback of the content or distribution to the content receiving device connected via the network is instructed during Move Provides a content transmission apparatus and a content transmission method characterized by having a recording / reproduction control unit for changing the transfer rate of Move transfer.

  As described above, it is possible to prevent the viewing from being interrupted suddenly when the viewing of the content being transferred is being watched by only the transmitting device without requiring the receiving device.

It is explanatory drawing which showed the example of 1 structure of the system. It is explanatory drawing which showed the example of 1 structure of the content receiver. It is explanatory drawing which showed the example of 1 structure of the content transmitter. It is explanatory drawing which showed the example of 1 structure of the apparatus information management part. It is explanatory drawing which showed the example of 1 structure of the content management table. It is explanatory drawing which showed an example of the Move process sequence implemented between a content receiver and a content transmitter. It is explanatory drawing which showed an example of the apparatus authentication and key exchange process sequence for Move implemented between a content receiver and a content transmitter. It is explanatory drawing which showed an example of the Move transfer process sequence implemented between a content receiver and a content transmitter. It is explanatory drawing which showed an example of the Move decision processing sequence implemented between a content receiver and a content transmitter. It is explanatory drawing which showed an example of the Move transfer process sequence which lowers | hangs the transfer rate of Move transfer, when viewing of the content for Move is started during Move transfer. It is explanatory drawing which showed an example of the transfer rate change process sequence which lowers | hangs the transfer rate of Move transfer, when viewing of the content for Move is started during Move transfer. It is explanatory drawing which showed an example of the transfer rate change process sequence which raises the transfer rate of Move transfer when viewing of the content for Move is stopped during Move transfer. It is explanatory drawing which showed an example of the Move transfer process sequence which lowers | hangs the transfer rate of Move transfer when viewing and delivery of Move object content are started during Move transfer. It is an example of a delivery start and transfer rate determination procedure when starting delivery to a content receiving apparatus connected via a network while viewing a content being transferred. It is an example of a delivery stop and transfer rate determination procedure when stopping delivery to a content receiving apparatus connected via a network while viewing content being transferred. It is an example of a Move processing procedure for changing the transfer rate of the Move transfer and continuing the transfer when viewing of the content to be moved is started during the Move transfer. It is an example of a Move content transfer rate calculation processing procedure. This is an example of a case in which the time until completion of reproduction fluctuates due to fast-forwarding or the like in the Move processing procedure in which the transfer rate of the Move transfer is changed and the transfer is continued when viewing of the content to be moved is started during the Move transfer. It is a structural example of a state management table for managing the operation state of each function such as recording / playback / network viewing / distribution realized by the content transmission apparatus. It is an example of the Move transfer rate calculation processing procedure in the transfer rate determination processing unit of the recording / playback processing unit of the content transmitting apparatus. It is a configuration example of a state management table for managing the operation state of each function such as recording / playback / network viewing / distribution realized by the content transmission apparatus in order to effectively use resources. It is an example of a control diagram of a Move transfer rate when distribution is started to a receiving apparatus connected via a network during Move transfer.

  Embodiments will be described with reference to the drawings.

  FIG. 1 shows a system configuration example. In the user home 1, the content transmission device 200, the content reception device 100, and the content reception device 300 are connected to the network hub device 11 by a wired LAN cable, and the network hub device 11 is connected to the router 12. The router 12 is connected to the Internet 2 via a modem or a photoelectric converter.

  In the network, standard IP (Internet Protocol) is used as a network protocol, and TCP (Transmission Control Protocol) and UDP (User Datagram Protocol) are used as upper transport protocols.

  For transmission of content, higher-level application protocols such as RTP (Real-time Transport Protocol), HTTP (Hyper Text Transfer Protocol), FTP (File Transfer Protocol) and the like are used. Note that IP has IPv4 and IPv6 as the version differences, but is not limited to either.

  The content transmission device 200, the content reception device 100, the content reception device 300, and the router 12 each have an IP address that identifies itself on the network. A 48-bit MAC (Media Access Control) address is given to the interface unit of each network communication processing circuit.

  For setting the IP address to each device, for example, the router 12 may be operated as a DHCP server by DHCP (Dynamic Host Configuration Protocol), and the IP address of each device may be assigned from here.

  When IPv6 (Internet Protocol Version 6) is used, each device can determine its own IP address from the upper 64 bits of the IP address of the router 12 and the MAC address by a method called stateless automatic setting.

  Here, in FIG. 1, each device in the user's home 1 is connected by a wired LAN, but a LAN using a wireless access point may be used. Alternatively, the hub 11 and the router 12 may be integrated.

FIG. 2 is a configuration example of the content receiving apparatus 100. The content receiving device 300 has the same configuration.
The content receiving apparatus 100 includes a tuner 101, a descrambler 102, a demultiplexer 103, a decoder 104, a display unit / speaker 105, a digital terminal 106, an input processing unit 107, a device authentication processing unit 108, a device information management unit 109, and a recording / playback. The processing unit 110, the recording unit 111, the encryption / decryption processing unit 112, the communication processing unit 113, the digital input / output terminal 114, and the control unit 115 are configured.

The tuner 101 selects a desired channel from a plurality of channels received from the broadcasting station via the antenna 10, and demodulates the digitally modulated program.
The descrambler 102 de-scrambles the program that is being played in order to be able to receive only the channel contracted with the service provider.

The demultiplexer 103 extracts audio data and video data from the broadcast program.
The decoder 104 decodes the compressed audio data and video data received from the broadcast program and the digital input / output terminal 114, and expands them to the original audio signal and video signal.
The display unit / speaker 105 reproduces the output signal from the decoder 104 and the signal input from the digital terminal 106. It may be external rather than internal.

The digital terminal 106 includes, for example, HDMI (High-Definition Multimedia Interface) for inputting uncompressed digital data.
The input processing unit 107 operates the content receiving apparatus 100 by using a remote control or a touch panel by a user.

Whether the device authentication processing unit 108 is a device that is mutually authorized in accordance with a specific authentication protocol with another AV device in order to transfer the copyright-protected content over the network. And share a key used for content encryption / decryption. Examples of the specific authentication protocol include the method described in Non-Patent Document 1.
The device information management unit 109 manages information related to the AV device that has been successfully authenticated by the device authentication processing unit 108.

The recording / playback processing unit 110 performs recording control for recording content in the recording unit 111 and playback control for playing back content recorded in the recording unit 111.
The recording unit 111 is a built-in memory that records a broadcast program. In addition, a removable HDD, an optical disk, a memory card, and a hybrid form combining these may be used.

  The encryption / decryption processing unit 112 encrypts or decrypts the content received via the digital input / output terminal 114 via the broadcast program or the network using the key shared by the device authentication processing unit 108.

  The communication processing unit 113 transmits and receives content and control commands to and from other AV devices connected via a network via the digital input / output terminal 114. Identification codes such as “Copy free”, “Copy one generation”, “No more copies”, and “Copy never” indicating how to handle the content are added.

The digital input / output terminal 114 inputs / outputs contents and control commands via the LAN.
The control unit 115 comprehensively controls the operation of each unit in the content receiving device 100.
The timer 116 is used when the device authentication processing unit 108 (as well as 208) confirms whether or not an authentication partner device exists in the home, or for time-out confirmation from the completion of Move transfer to the Move confirmation processing.

FIG. 3 is a configuration example of the content transmission apparatus 200.
The content transmission apparatus 200 includes a tuner 201, a descrambler 202, a demultiplexer 203, a decoder 204, a display unit / speaker 205, a digital terminal 206, an input processing unit 207, a device authentication processing unit 208, a device information management unit 209, and a recording / playback. The processing unit 210, the recording unit 211, the encryption / decryption processing unit 212, the communication processing unit 213, the digital input / output terminal 214, and the control unit 215 are configured.

The tuner 201 selects a desired channel from a plurality of channels received from the broadcasting station via the antenna 20, and demodulates the digitally modulated program.
The descrambler 202 de-scrambles the program that is being executed so as to be able to receive only the channel contracted with the service provider.

The demultiplexer 203 extracts audio data and video data from the broadcast program.
The decoder 204 decodes the compressed audio data and video data received from the broadcast program and the digital input / output terminal 214 and expands them to the original audio signal and video signal.
The display / speaker 205 reproduces the output signal from the decoder 204 and the signal input from the digital terminal 206. It may be external rather than internal.

The digital terminal 206 inputs uncompressed digital data, for example, HDMI.
The input processing unit 207 operates the content transmission apparatus 200 by using a remote control or a touch panel by a user.

Whether the device authentication processing unit 208 is a device that is mutually authorized in accordance with a specific authentication protocol with another AV device in order to transfer the content subject to copyright protection via the LAN. And share a key used for content encryption / decryption. A specific authentication protocol includes, for example, the DTCP method.
The device information management unit 209 manages information related to the AV device that has been successfully authenticated by the device authentication processing unit 208.

The recording / playback processing unit 210 performs recording control for recording content in the recording unit 211 and playback control for playing back content recorded in the recording unit 211.
The recording unit 211 is a built-in memory that records a broadcast program. In addition, a removable HDD, an optical disk, a memory card, and a hybrid form combining these may be used.

  The encryption / decryption processing unit 212 encrypts or decrypts the content received via the digital input / output terminal 214 via the broadcast program or the LAN using the key shared by the device authentication processing unit 208.

  The communication processing unit 213 transmits and receives content and control commands to and from other AV devices connected via a LAN through the digital input / output terminal 214. Identification codes such as “Copy free”, “Copy one generation”, “No more copies”, and “Copy never” indicating how to handle the content are added to the transmitted content.

The digital input / output terminal 214 inputs / outputs contents and control commands via the LAN.
The control unit 215 comprehensively controls the operation of each unit in the content transmission device 200.
The timer 216 is used when the device authentication processing unit 108 (as well as 208) confirms whether an authentication partner device exists in the home, or for time-out confirmation from the completion of Move transfer to the Move confirmation processing.

FIG. 4 is a configuration example of the recording / playback processing unit 110 (same for 210) in each device.
The recording / playback processing unit 110 includes a playback / distribution control unit 1101, a content information storage unit 1102, a Move transfer control unit 1103, a transfer rate determination processing unit 1104, and a recording control unit 1105.

  The reproduction / distribution control unit 1101 performs content reproduction and distribution control in accordance with an instruction from the user or the state of the content. The reproduction of content means that the content receiving device itself holding the content in the storage unit 111 reproduces it. Content distribution means that a content receiving device holding content in the storage unit 111 transmits the content recorded in the storage unit 111 to another content receiving device, and the other content receiving device transmits it. Receiving and playing (viewing).

The content information storage unit 1102 holds information regarding the content when the content is newly registered.
The Move transfer control unit 1103 controls transmission or reception of content in Move.
The transfer rate determination processing unit 1104 determines the transfer rate of Move transfer.
The recording control unit 1105 controls content recording in accordance with an instruction from the user.

FIG. 5 is a configuration example of the content management table 1000 stored in the content information storage unit 1102 of the recording / playback processing unit 210 of the content transmission apparatus 200.
The content management table 1000 includes an ID 1001, a title 1002, a duration 1003, a playback state 1004, a distribution state 1005, and a Move state 1006.

ID 1001 indicates the registration number of the table and is an ID for uniquely identifying the content.
A title 1002 indicates the title of the registered content.
The duration 1003 indicates the content length of the registered content in terms of time.
The playback state 1004 indicates whether the registered content is in a “playing” state or a “stopped” state.

The distribution state 1005 indicates whether the registered content state is a “distributing” state or a “stopped” state for viewing on a content receiving apparatus connected via a network.
The Move state 1006 indicates whether the state of the registered content is “Transferring” state or “Stopped” state during Move processing.

FIG. 6 is an example of a Move processing procedure 500 executed between the content transmission device 200 and the content reception device 100 in the system configuration shown in FIG.
In the Move process, first, move device authentication and key exchange processing is performed between the content transmitting apparatus 200 and the content receiving apparatus 100 (S501).

  Thereafter, the move target content is transferred (S502), and when the move transfer process is completed, the move confirmation process is performed within a predetermined time (T1) (S503). The contents to be moved are valid on the transmission side until the move confirmation process S503 is performed, and are invalidated during the move confirmation process S503. On the receiving side, it is invalid until the Move confirmation process S503, and is validated in the Move confirmation process S503.

FIG. 7 is an example of a move device authentication and key exchange processing procedure 600 executed between the content transmitting apparatus 200 and the content receiving apparatus 100 in the system configuration shown in FIG. This process corresponds to S501 in FIG.
Here, TCP is used as a protocol for transmission / reception of information for device authentication processing. When various information such as an authentication request to the other device and an authentication response to the other device is transmitted, the reception confirmation is received from the other device. As a result, a communication path capable of detecting a transmission error is secured.
In FIG. 7, data transmission / reception for establishing and discarding a connection by TCP is omitted.

First, the device authentication processing unit 108 of the content receiving apparatus 100 sends a Move start request to the content transmitting apparatus 200 via the communication processing unit 111 (S601).
Upon receiving the Move start request from the content receiving device 100, the device authentication processing unit 208 of the content transmitting device 200 transmits a reception confirmation to the content receiving device 100 via the communication processing unit 211 (S602).

  An authentication request is created from the content receiving apparatus 100 side. The device authentication processing unit 108 of the content receiving apparatus 100 attaches device-specific information including a device ID to the authentication request and a certificate for the information, and sends the information to the content transmitting device 200 via the communication processing unit 111 (S603). .

  When the device authentication processing unit 208 of the content transmission device 200 receives the authentication request via the communication processing unit 207 and sends a reception confirmation to the content reception device 100 (S604), the device authentication processing unit 208 of the content transmission device 200 An authentication request from the user side is created, and the authentication request is sent to the content receiving apparatus 100 with the unique information of the content transmitting apparatus 200 and its certificate attached, as in the case of the content receiving apparatus (S605).

The device authentication processing unit 108 of the content receiving apparatus 100 receives the authentication request and sends a reception confirmation to the content transmitting apparatus 200 (S606).
Next, the device authentication processing unit 208 of the content transmitting apparatus 200 verifies each piece of information received in the authentication request, and sends an authentication response with parameters necessary for generating key information to the content receiving apparatus 100 (S607).

  The device authentication processing unit 108 of the content receiving apparatus 100 receives the authentication response and sends the reception confirmation to the content transmitting apparatus 200 (S608), and then creates an authentication response from its own side, as in the case of the content transmitting apparatus. An authentication response with parameters necessary for generating key information is sent to the content transmitting apparatus 200 (S609), and an authentication key common to the content transmitting apparatus 200 is generated using the necessary parameters.

The device authentication processing unit 208 of the content transmitting apparatus 200 receives an authentication response and sends a reception confirmation to the content receiving apparatus 100 (S610). Similar to the content receiving apparatus, the device authentication processing unit 208 uses the necessary parameters in common with the content receiving apparatus 100. Generate an authentication key.
Through the procedure so far, the device authentication processing unit 108 of the content transmitting device 200 and the device authentication processing unit 208 of the content receiving device generate and share a common authentication key.

Next, the content transmitting apparatus 200 transmits to the content receiving apparatus 100 that preparation for in-home confirmation is performed in order to confirm whether the content receiving apparatus 100 is a device existing in the house (S611).
When the device authentication processing unit 108 of the content receiving device 100 receives the notification of the in-home confirmation preparation and sends the reception confirmation to the content transmitting device 200 (S612), it creates the in-home confirmation preparation notification from its own side and transmits the content. The data is sent to the device 200 (S613).

When the device authentication processing unit 208 of the content transmitting apparatus 200 receives the notification of the in-home confirmation preparation and sends the reception confirmation to the content receiving apparatus 100 (S614), the device authentication processing unit 208 sends an in-home confirmation setting request with information necessary for in-home confirmation to the content. The data is sent to the receiving device 100 (S615).
The device authentication processing unit 108 of the content receiving apparatus 100 receives the home confirmation setting request, makes preparations necessary for home confirmation, and sends the reception confirmation to the content transmitting apparatus 200 (S616).

The device authentication processing unit 208 of the content transmitting apparatus 200 that has received the reception confirmation starts a timer 216 and then sends a home confirmation execution request to the content receiving apparatus 100 for confirming whether the content receiving apparatus 100 exists in the home ( S617).
The device authentication processing unit 108 of the content receiving apparatus 100 receives the in-home confirmation execution request and sends the reception confirmation to the content transmitting apparatus 200 (S618).

  Upon receiving the reception confirmation, the device authentication processing unit 208 of the content transmission apparatus 200 stops the timer 216 and acquires a measurement value (T2) from when the home confirmation execution request is issued until the reception confirmation is received. The device authentication processing unit 208 acquires a reference value (T) stored in the recording unit 111. It is confirmed that the measured value (T2) does not exceed the reference value (T). When measurement value (T2) ≦ reference value (T), it is determined that content receiving apparatus 100 exists in the home and is within the range of personal use, and is sent to content receiving apparatus 100 as a home confirmation result. Send (S619). The reference value (T) takes a value of, for example, 7 milliseconds.

  On the other hand, when the measured value (T2)> the reference value (T), the content receiving apparatus 100 determines that there is a possibility that the content receiving apparatus 100 exists outside the home, interrupts the subsequent processing, and ends the device authentication processing. The device authentication processing unit 108 of the content receiving device 100 that has received the in-home confirmation result sends a reception confirmation to the content transmitting device 200 (S620), and when the device authentication processing unit 208 of the content transmitting device 200 encrypts the content to be moved. A Move exchange key to be used is generated, and the Move exchange key is encrypted using the authentication key, and sent to the content receiving apparatus 100 together with an ID for identifying the exchange key (S621).

The device authentication processing unit 108 of the content receiving device 100 decrypts the Move exchange key transmitted from the content transmitting device 200 using the authentication key, and sends a reception confirmation (S622).
From the above, the device authentication processing unit 208 of the content transmitting device 200 and the device authentication processing unit 108 of the content receiving device 100 share a common Move exchange key. The Move exchange key is used to generate a common key for encrypting / decrypting content.

The above procedure describes the move device authentication and key exchange processing executed between the content transmitting apparatus 200 and the content receiving apparatus 100 when the content Move process is performed at home.
By performing the above-described procedure, it is possible to confirm that the devices are mutually authorized devices, and to share a key used for encryption / decryption of the content to be moved.

FIG. 8 is an example of a move target content transfer processing procedure 700 executed between the content transmitting apparatus 200 and the content receiving apparatus 100 in the system configuration shown in FIG. This corresponds to S502 in FIG.
First, the Move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmitting apparatus 200 sends a content transfer request to the content receiving apparatus 100 via the communication processing unit 213 (S701).

  When the move transfer control unit 1103 of the recording / playback processing unit 110 of the content receiving apparatus 100 receives the content transfer request and completes preparation for receiving the content, the content transmission preparation completion notification is sent to the content transmitting apparatus 200 via the communication processing unit 113. Transmit (S702).

  Upon receiving the content reception preparation completion notification, the move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 updates the move state 1006 of the content management table 1000 in FIG. The key shared in the device authentication and key exchange processing procedure 600 for the Move is acquired from the processing unit 208, the content to be moved is divided into an appropriate size, encrypted by the encryption / decryption processing unit 212, and passed through the communication processing unit 213. To the content receiving device 100 (S703).

  When the move transfer control unit 1103 of the recording / playback processing unit 110 of the content reception device 100 completes the reception of the content to be moved, it transmits a completion notification to the content reception device 100 via the communication processing unit 213 (S704). On the other hand, the Move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 updates the Move state 1006 of the content management table 1000 in FIG.

As the transfer procedure, for example, an HTTP POST process may be used. In this case, the content request in S701 is a POST request, the reception preparation completion notification in S702 is a 100-Continue response, and the completion notification in S704 is a 200-OK or 201-Created response.
By performing the above procedure, the content is encrypted and transferred using the shared key, so that the content can be transferred safely.

FIG. 9 is an example of a Move confirmation processing procedure 800 executed between the content transmission device 200 and the content reception device 100 in the system configuration shown in FIG.
First, the device authentication processing unit 108 of the content receiving apparatus 100 generates a random number, generates a MAC value from the generated random number and the exchange key for Move, and sends a Move confirmation request including the random number and the MAC value to the communication processing unit 113. Is transmitted to the content transmitting apparatus 200 via S1 (S801).

  When the device authentication processing unit 208 of the content transmitting apparatus 200 receives the Move confirmation request, it verifies the received MAC value. If the verification result is successful, the device authentication processing unit 208 requests the recording control unit 1105 of the recording / playback processing unit 210 to move it. The target content is invalidated, and a reception confirmation (success) is transmitted to the content receiving apparatus 100 via the communication processing unit 213 (S802).

  When the verification result of the MAC value is unsuccessful or when a predetermined timeout period has elapsed, a reception confirmation (failure) is transmitted to the content receiving apparatus 100 via the communication processing unit 213 without invalidating the content to be moved. .

  When the device authentication processing unit 108 of the content receiving apparatus 100 receives the reception confirmation, if the response is a success response, the device authentication processing unit 108 requests the recording control unit 1105 of the recording / playback processing unit 110 to validate the move target content and complete the communication process. A move completion notification is transmitted to the content transmitting apparatus 200 via the unit 113 (S803). If the received confirmation is a failure response, the process is interrupted without doing anything.

Upon receiving the Move completion notification, the device authentication processing unit 208 of the content transmitting apparatus 200 transmits a reception confirmation to the content receiving apparatus 100 via the communication processing unit 213, and completes the Move process (S804).
When the device authentication processing unit 108 of the content receiving apparatus 100 receives the reception confirmation, the Move processing is completed.

By performing the above procedure, the content for which the Move transfer has been completed can be invalidated by the transmitting apparatus 200 and simultaneously validated by the receiving apparatus 100.
By executing the procedure described above with reference to FIGS. 6, 7, 8, and 9, even if the transfer is interrupted due to an unexpected situation during the move, the content is divided in a halfway manner. Therefore, it is possible to safely move content.

FIG. 10 shows a case where the move transfer is performed when the move target content is started during the move transfer in the case where the move process is executed by the procedure described with reference to FIGS. 6, 7, 8, and 9. It is an example of the Move process procedure which continues transmission by reducing the transfer rate.
First, a device authentication and key exchange processing procedure 600 for Move is executed between the content transmission device 200 and the content reception device 100.

  When the move device authentication and key exchange processing procedure 600 is completed, the move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmitting apparatus 200 sends a content transfer request to the content receiving apparatus 100 via the communication processing unit 213 ( S901).

  When the move transfer control unit 1103 of the recording / playback processing unit 110 of the content receiving apparatus 100 receives the content transfer request and completes preparation for receiving the content, the content transmission preparation completion notification is sent to the content transmitting apparatus 200 via the communication processing unit 113. Transmit (S902).

  When the move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 receives the content reception preparation completion notification, the move shared control unit 600 uses the key shared by the device authentication and key exchange processing procedure 600 for move from the device authentication processing unit 208. The content to be moved is divided into an appropriate size, encrypted by the encryption / decryption processing unit 212, and transmitted to the content receiving apparatus 100 via the communication processing unit 213 (S903).

  An appropriate size is, for example, 1 MByte. At the start of transmission, the Move state 1006 of the content in the content management table 1000 of FIG. 5 is updated to “Transferring”. At this time, in order to complete the move transfer as soon as possible, the move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 performs the transmission process at the maximum transfer rate possible for the system.

  Upon receiving a playback instruction from the user via the input processing unit 207, the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 performs a playback start process and changes the Move transfer rate therein. (S904). At this time, a fixed value such as 1 Kbps is used as the minimum transfer rate at which Move transfer can be continued as the transfer rate when Move transfer and playback are performed simultaneously. The playback start processing procedure will be described in detail with reference to FIG.

The Move transfer control unit 1103 of the recording / reproduction processing unit 210 of the content transmission apparatus 200 continues the transmission process at the transfer rate acquired during the reproduction start process (S905).
When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 plays back to the end of the content or receives a playback stop instruction from the user via the input processing unit 207, the playback / distribution control unit 1101 performs playback stop processing. Among them, the Move transfer rate is changed (S906).

At this time, the maximum transfer rate is applied so that the move transfer is completed as soon as possible. The playback stop processing procedure will be described in detail with reference to FIG.
The Move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission device 200 continues the transmission process at the transfer rate acquired in the playback stop process (S907).

  When the move transfer control unit 1103 of the recording / playback processing unit 110 of the content receiving device 100 completes the reception of the content to be moved, it transmits a completion notification to the content transmitting device 200 via the communication processing unit 213 (S908). On the other hand, the Move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 updates the Move state 1006 of the content management table 1000 in FIG.

By performing the above procedure, even when viewing of the Move target content is started during Move transfer, it is possible to continue viewing until the end of the content without being invalidated due to the completion of Move processing during viewing. it can. Further, by setting the Move transfer rate of the content after the viewing is completed again to the maximum rate, the Move transfer time can be shortened while continuing the viewing until the end of the content.
In this example, the case of viewing has been described as an example, but the same applies to the case of distribution to a content receiving apparatus connected via a network.

FIG. 11 is an example of a playback start procedure when viewing content that is being transferred by the content transmitting apparatus 200. This process corresponds to the process of S904 in FIG.
When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 receives a playback instruction from the user via the input processing unit 207 (S1101), the content management table 1000 is referred to and the content management table 1000 is referred to. The Move state is acquired (S1102).

  Thereafter, it is determined from the acquired information whether or not the content is being transferred (S1103). As a result of the determination, when the content to be played is being transferred (Yes in S1103), the playback / distribution control unit 1101 of the recording / playback processing unit 210 requests the transfer rate determination processing unit 1104 to acquire the Move transfer rate ( S1104).

  The transfer rate determination processing unit 1104 determines a predetermined transfer rate as a transfer rate when performing playback processing during Move transfer from the state of the content (S1105), and records / plays back along with whether or not the transfer rate is changed. The processing unit 210 is notified (S1106). When notified of the transfer rate, the recording / playback processing unit 210 confirms whether the transfer rate has been changed (S1107).

  When there is a change in the transfer rate (Yes in S1107), it requests the Move transfer control unit 1103 to change the Move transfer rate (S1108). The Move transfer control unit 1103 changes the transfer rate according to the instruction (S1109). If there is no change in the transfer rate (no in S1107), nothing is done.

  Thereafter, the playback / distribution control unit 1101 updates the playback state of the content in the content management table 1000 to “playing”, and starts playback of the content (S1110). On the other hand, if the content to be played is not being transferred (No in S1103), the playback state of the content in the content management table 1000 is updated to “playing”, and the content is played (S1110).

  By performing the above procedure, the transfer rate of Move transfer can be changed as necessary when content to be transferred is to be reproduced. In the example of FIG. 10, the Move transfer rate can be lowered in this procedure.

  FIG. 12 shows an example of a playback stop procedure when viewing content that is being transferred by the content transmitting apparatus 200. This process corresponds to the process of S906 in FIG.

  When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmitting apparatus 200 receives a stop instruction from the user via the input processing unit 207 or completes playback to the end of the content (S1201), By referring to the content management table 1000, the Move state of the corresponding content is acquired (S1102).

  Thereafter, it is determined from the acquired information whether or not the content is being transferred (S1103). As a result of the determination, when the content to be played is being transferred (Yes in S1103), the playback / distribution control unit 1101 of the recording / playback processing unit 210 requests the transfer rate determination processing unit 1104 to acquire the Move transfer rate ( S1104).

The transfer rate determination processing unit 1204 determines a predetermined transfer rate as a transfer rate when only Move transfer is performed from the state of the content (S1105), and sends it to the recording / reproduction processing unit 210 together with whether or not the transfer rate is changed. Notification is made (S1106).
When notified of the transfer rate, the recording / playback processing unit 210 confirms whether the transfer rate has been changed (S1107).

When there is a change in the transfer rate (Yes in S1107), it requests the Move transfer control unit 1103 to change the Move transfer rate (S1108). The Move transfer control unit 1103 changes the transfer rate according to the instruction (S1109).
If there is no change in the transfer rate (no in S1107), nothing is done. Thereafter, the playback / distribution control unit 1101 updates the playback state of the content in the content management table 1000 to “stop”, and stops playback of the content (S1210).

On the other hand, if the content to be played is not being transferred (No in S1103), the playback state of the content in the content management table 1000 is updated to “stop”, and the content is stopped (S1210).
By performing the above procedure, the transfer rate of the Move transfer can be changed as necessary when the reproduction of the content being transferred is to be stopped. In the example of FIG. 10, the Move transfer rate can be increased in this procedure.

  FIG. 13 shows an example of a transfer rate change procedure in the case where the content being transferred is distributed to the content receiving device 300 connected to the network simultaneously with reproduction and viewed by the content receiving device 300.

  The procedure from the device authentication and move key exchange process 600 to the content receiving apparatus 100 to the transfer process S905 after the start of reproduction and transfer rate change may be the same as that described with reference to FIG. In addition, in order for the content receiving device 300 to receive the content, viewing device authentication and key exchange processing are required between the content transmitting device 200 and the content receiving device 300, which are also completed in advance. The description is omitted.

  The reproduction / distribution control unit 1101 of the recording / reproduction processing unit 110 of the content receiving apparatus 300 is connected via the communication processing unit 113 in order to view the content on the content receiving apparatus 300 after starting the reproduction of the content being transferred. A content transfer request is sent to the content transmitting apparatus 200 (S1301).

When receiving the content transfer request, the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission device 200 sends a reception confirmation to the content reception device 300 via the communication processing unit 213 (S1302).
Thereafter, the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 performs a distribution start process, but here, the Move transfer rate is not changed (S1303).
The distribution start processing procedure will be described in detail with reference to FIG.

  The reproduction / distribution control unit 1101 encrypts the content by the encryption / decryption processing unit 212 and transmits it to the content receiving device 300 (S1304), and the Move transfer control unit 1103 moves the content without changing the rate. (S1305).

When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmitting apparatus 200 plays back to the end of the content or receives a playback stop instruction from the user via the input processing unit 207, the playback / distribution control unit 1101 performs playback completion processing processing. This is performed (S1306).
The playback completion processing procedure is basically the same as the content described in FIG. 12, but here, in the processing of S1105 in FIG. 12, the transfer rate determination processing unit 1104 is that the delivery of the content to be moved continues. Therefore, it is determined that the transfer rate is not changed.

When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission device 200 distributes to the end of the content or receives a distribution stop instruction from the content reception device 300 via the communication processing unit 113, the playback / distribution control unit 1101 stops the distribution. Processing is performed, and the Move transfer rate is changed (S1307).
The delivery stop processing procedure will be described in detail with reference to FIG. Hereinafter, the procedure up to the completion of the Move process may be the same as the procedure from S907 to 800 in FIG.

  By performing the above procedure, even if the content being transferred is played back during Move transfer and distribution to a content receiving device connected to the network is started, the move process is completed during viewing and distribution. Viewing and distribution can be continued until the end of the content without invalidating the content.

Also, by setting the transfer rate of the content after completion of viewing and distribution again to the maximum rate, the Move transfer time can be shortened while continuing viewing and distribution until the end of the content.
In this example, the example in which the distribution starts after the start of reproduction has been described. However, when the order is reversed or when the distribution is performed to a plurality of content receiving apparatuses, it is possible to deal with the above procedure. .

  FIG. 14 is an example of a distribution start procedure when distribution is started to a content receiving apparatus connected via a network while viewing a content being transferred by the content transmitting apparatus 200. This process corresponds to the process of S1303 in FIG.

The reproduction / distribution control unit 1101 of the recording / reproduction processing unit 210 of the content transmission apparatus 200 receives a distribution instruction from the content reception apparatus 300 via the communication processing unit 213 (S1301), refers to the content management table 1000, and applies. The Move state of the content to be acquired is acquired (S1102).
Thereafter, it is determined from the acquired information whether or not the content is being transferred (S1103).

  As a result of the determination, when the content to be played is being transferred (Yes in S1103), the playback / distribution control unit 1101 of the recording / playback processing unit 210 requests the transfer rate determination processing unit 1104 to acquire the Move transfer rate ( S1104).

The transfer rate determination processing unit 1204 determines that the transfer rate is not changed because the move target content has already been reproduced in the processing of S1105, and the recording / reproduction processing unit 210 determines whether or not to change the transfer rate. Notification is made (S1106).
When notified of the transfer rate, the recording / playback processing unit 210 confirms whether the transfer rate has been changed (S1107).

When there is a change in the transfer rate (Yes in S1107), it requests the Move transfer control unit 1103 to change the Move transfer rate (S1108). The Move transfer control unit 1103 changes the transfer rate according to the instruction (S1109).
If there is no change in the transfer rate (no in S1107), nothing is done. Thereafter, the playback / distribution control unit 1101 updates the distribution state of the content in the content management table 1000 to “distributing” and starts distributing the content (S1410).

  On the other hand, if the content to be distributed is not being transferred (No in S1103), the distribution status of the content in the content management table 1000 is updated to “distributing”, and the content is distributed (S1410).

  By performing the above procedure, the transfer rate of the Move transfer can be changed as necessary when content to be transferred is to be distributed. In the example of FIG. 13, the Move transfer rate can be unchanged in this procedure.

  FIG. 15 shows an example of a distribution stop procedure when the content transmitting apparatus 200 stops distribution to a content receiving apparatus connected via a network while viewing the content being transferred. This process corresponds to the process of S1307 in FIG.

The playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 receives a distribution stop instruction via the communication processing unit 213 or completes the distribution until the end of the content (S1501). With reference to the table 1000, the Move state of the corresponding content is acquired (S1102).
Thereafter, it is determined from the acquired information whether or not the content is being transferred (S1103).

As a result of the determination, when the content to be played is being transferred (Yes in S1103), the playback / distribution control unit 1101 of the recording / playback processing unit 210 requests the transfer rate determination processing unit 1104 to acquire the Move transfer rate ( S1104).
The transfer rate determination processing unit 1204 determines a predetermined transfer rate as a transfer rate when only Move transfer is performed from the state of the content (S1105), and sends it to the recording / reproduction processing unit 210 together with whether or not the transfer rate is changed. Notification is made (S1106).

  When notified of the transfer rate, the recording / playback processing unit 210 confirms whether the transfer rate has been changed (S1107). When there is a change in the transfer rate (Yes in S1107), it requests the Move transfer control unit 1103 to change the Move transfer rate (S1108). The Move transfer control unit 1103 changes the transfer rate according to the instruction (S1109). If there is no change in the transfer rate (no in S1107), nothing is done.

Thereafter, the playback / distribution control unit 1101 updates the distribution state of the content in the content management table 1000 to “stop”, and stops the distribution of the content (S1510).
On the other hand, if the content to be played is not being transferred (No in S1103), the playback state of the content in the content management table 1000 is updated to “stop”, and the content is stopped (S1510).

  By performing the above procedure, the transfer rate of the Move transfer can be changed as necessary when the content that is being transferred and is being distributed is to be stopped. In the example of FIG. 13, the Move transfer rate can be increased in this procedure.

  As described above, even when viewing and distribution of the Move target content is started during Move transfer, the content can be continuously viewed until the end of the content without being invalidated due to the completion of the Move process during the viewing and distribution. it can. In addition, by setting the transfer rate of the content after completion of viewing again to the maximum rate, it is possible to shorten the Move transfer time while continuing viewing until the end of the content.

  In the first embodiment described above, a fixed value such as 1 Kbps is used as the minimum transfer rate at which the move transfer can be continued with the changed value of the move transfer rate when viewing of the content to be moved is started during the move transfer. Was. In the second embodiment, the transfer rate is controlled so that the Move process is completed earliest while the viewing content is continuously viewed.

FIG. 16 shows an example of a Move processing procedure for changing the transfer rate of the Move transfer and continuing the transfer when the viewing of the Move target content is started during the Move transfer in the present embodiment.
The procedure from the device authentication and key exchange process 600 for the move with the content receiving apparatus 100 to the move transfer process S903 may be the same as that described with reference to FIG.

  Upon receiving a playback instruction from the user via the input processing unit 207, the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 performs a playback start process and changes the Move transfer rate therein. (S904). At this time, as the transfer rate of the Move transfer, a value is set such that the Move transfer can be continued and the Move transfer is completed at the same time as the content reproduction is completed. The playback start processing procedure may be the same as the procedure shown in FIG. 11, but only the transfer rate determination procedure is different, and will be described in detail with reference to FIG. 17 separately.

The Move transfer control unit 1103 of the recording / playback processing unit 210 of the content transmission apparatus 200 continues the transmission process at the transfer rate changed during the playback start process (S1602).
When the playback / distribution control unit 1101 of the recording / playback processing unit 210 of the content transmission apparatus 200 plays back to the end of the content, the playback state 1004 of the content in the content management table 1000 is updated to “stopped”, and playback stop processing is performed. This is performed (S1603). Here, the Move transfer rate is not changed.

Hereinafter, the procedure up to the completion of the Move process may be the same as the procedure from S908 to S800 in FIG.
According to the above procedure, even when viewing the content being transferred, it is possible to minimize the Move processing time while continuing to play the content to the end.
Further, when content playback is stopped before the playback completion time according to a user instruction, the Move processing time can be minimized by increasing the Move transfer rate after the playback is stopped according to the procedure described in FIG.

  FIG. 17 is an example of a Move transfer rate calculation processing procedure in the transfer rate determination processing unit 1104 of the recording / playback processing unit 210 of the content transmission apparatus 200. This processing corresponds to the processing in S1105 in FIG. 11, and is performed in S904 in FIG.

  The transfer rate determination processing unit 1104 of the recording / playback processing unit 210 of the content transmission apparatus 200 acquires the value of the duration 1003 of the content from the content management table 1000 (S1701). From the reproduction start position of the content and the value of duration 1003, “time until completion of reproduction” is calculated (S1702).

Next, the recording / playback processing unit 210 acquires “size of untransferred portion” in the Move transfer process of the content (S1703). Finally, a move transfer rate is calculated by performing an operation of “Move transfer rate” = “size of untransferred portion” ÷ “time until completion of reproduction” (S1704).
By the above procedure, it is possible to determine the transfer rate at which the move transfer ends in accordance with the playback / distribution completion time of the move target content.

FIG. 18 shows a case in which the time until the completion of reproduction fluctuates due to fast-forwarding or the like in the Move processing procedure in which the transfer rate of the Move transfer is changed and the transfer is continued when viewing of the Move target content is started during the Move transfer. It is an example.
The procedure from the device authentication and key exchange process 600 to the content receiving apparatus 100 to the move transfer process S1602 may be the same as that described with reference to FIG.

When the recording / playback processing unit 210 of the content transmitting apparatus 200 receives a fast-forward instruction or a fast-reverse instruction from the user via the input processing unit 207, the recording / playback processing unit 210 performs a playback position change process according to the user instruction (S1801).
The recording / playback processing unit 210 of the content transmission apparatus 200 performs playback start processing in content playback restart processing from the changed position after the playback position change processing is completed, and changes the Move transfer rate in the processing (S1802). .

Here, the reproduction restart process may be performed according to the reproduction start process procedure shown in FIG. However, the procedure described in FIG. 17 is used for the transfer rate determination processing in S1105.
The recording / playback processing unit 210 of the content transmission device 200 continues the transmission process at the transfer rate changed during the playback restart process (S1803).
Hereinafter, the procedure up to the completion of the Move process may be the same as the procedure from S1603 to S800 in FIG.

According to the above procedure, when viewing the content that is being transferred, even if the playback position is changed midway, it is possible to minimize the Move processing time while continuing playback to the end of the content.
In addition, when content playback is stopped before the playback completion time according to a user instruction, it is possible to minimize the Move processing time by increasing the Move transfer rate after playback stop according to the procedure described in FIG. Needless to say.

  As described above, even when the viewing of the Move target content is started during the Move transfer, the viewing can be continued until the end of the content without being invalidated due to the completion of the Move process during the viewing. Further, by controlling the Move transfer rate during viewing, it is possible to minimize the Move processing time while continuing viewing until the end of the content.

  Further, as described in the first embodiment, even when the content transmitting apparatus 200 performs reproduction and distribution at the same time, reproduction start / reproduction stop, distribution start / distribution stop, resumption after reproduction / distribution position change, etc. By recalculating and changing the Move transfer rate each time an event occurs, it is possible to minimize the Move processing time while continuing to reproduce and distribute the content.

  In the second embodiment described above, only the viewing completion time of the move target content is used to calculate the move transfer rate when the view of the move target content is started during the move transfer. If the transfer rate of Move transfer is calculated only from the viewing completion time of the content to be moved, and transfer is performed at that rate, the network bandwidth used for the network reception function and distribution function and the resources of the control unit 215 may be occupied. May adversely affect other functions that operate simultaneously, such as a network reception function, a distribution function, and a recording function.

  In the third embodiment, while the viewing content is continuously viewed, the transfer rate is controlled so that the Move process is completed earliest within a range in which the Move transfer does not adversely affect other functions such as recording and distribution.

FIG. 19 is a state management table 2000 for managing the operation state of each function such as recording / playback / network viewing / distribution realized by the content transmission apparatus 200, and is stored in the control unit 215 of the content transmission apparatus 200. To do.
ID 2001 indicates the registration number of the table, and is an ID assigned for each function.
A function name 2002 is a name of each function such as “recording”, “reproduction”, “network viewing”, and “distribution” that operates.

  The necessary bandwidth 2003 indicates a network bandwidth that should be freed when each function operates. Also for functions that do not use the network, if the resources of the control unit 215 are the same, the resources of the available control unit become the network bandwidth that can be used in the system, so registration is performed replacing the network bandwidth.

The operation number 2004 indicates the number of the functions simultaneously operating, and is incremented by 1 when the operation starts and decremented by 1 when the operation stops.
When this table is used, the network bandwidth that can be used by the content transmission apparatus 200 when a plurality of functions are operating simultaneously is
Network bandwidth that can be used by the content transmission apparatus 200 = bandwidth that can be used by the content transmission apparatus 200 during normal time- (total bandwidth required for each function 2003 × number of operations 2004 for each function).

For example, as shown in the example of FIG. 19, the network bandwidth that can be used by the content transmission apparatus 200 at normal time is 90 Mbps, the required bandwidth for the recording function is 10 Mbps, the required bandwidth for the playback function is 10 Mbps, and the required bandwidth for the network viewing function is Assuming that the required bandwidth for the distribution function is 30 Mbps and the recording function and the network reception function are operating, the network bandwidth that can be used by the content transmission apparatus 200 is 90 Mbps− (10 Mbps × 1 + 30 Mbps × 1), 50 Mbps.
By using this table, it is possible to calculate a network bandwidth that can be used by the content transmission apparatus 200 when a plurality of functions are operating simultaneously.

FIG. 20 is an example of a Move transfer rate calculation processing procedure in the transfer rate determination processing unit 1104 of the recording / playback processing unit 210 of the content transmission apparatus 200. This processing corresponds to the processing in S1105 in FIG. 11, and is performed in S904 in FIG.
First, the Move transfer rate is calculated from the viewing completion time of the Move target content (S2001). This is the same as the procedure described in FIG.

Next, the network bandwidth available in the system is calculated using the state management table 2000 (S2002).
The calculated Move transfer rate is compared with the network bandwidth available in the system (S2003). If the Move transfer rate is smaller (no in S2003), the Move transfer rate is the value calculated in S2001.

On the other hand, when the Move transfer rate is larger than the network bandwidth available in the system (Yes in S2003), the network bandwidth available in the system is set as the Move transfer rate (S2004).
By using this procedure, it is possible to calculate a Move transfer rate at which Move transfer does not adversely affect other functions such as recording and distribution even when a plurality of functions are operating simultaneously.

In the state management table 2000 of FIG. 19, the network bandwidth that should be freed during the operation of each function is fixed, but in this case, resources cannot be effectively used when the actually required bandwidth is smaller than the set value.
FIG. 21 is a state management table 3000 obtained by changing the state management table 2000 described in FIG. 19 so as to effectively use resources.

An ID 3001 indicates a registration number of the table, and is an ID assigned for each function that operates. In this table, unlike the state management table 2000, even when a plurality of the same functions operate, each is registered as a different record.
A function name 3002 is a name of each function such as “recording”, “reproduction”, “network viewing”, and “distribution” that operates.

The content rate 3003 indicates the rate of the content being processed by the function. The content rate 3003 is registered when the functional operation starts or when the content rate is found, and is deleted when the functional operation stops.
The required bandwidth 3004 indicates a network bandwidth required when the function processes content at a rate registered in the content rate 3003.
The relationship between each function, the content rate 3003 to be processed, and the necessary bandwidth 3004 is set using a table or a conversion formula.

When this table is used, the network bandwidth that can be used by the content transmission apparatus 200 when a plurality of functions are operating simultaneously is
Network bandwidth that can be used by the content transmission apparatus 200 = bandwidth that can be used by the content transmission apparatus 200 during normal time- (total required bandwidth 3004 for each function).

  For example, as shown in the example of FIG. 21, the network bandwidth that can be used by the content transmission apparatus 200 at normal time is 90 Mbps, the required bandwidth for recording of 24 Mbps content is 10 Mbps, and the required bandwidth for the network viewing function of 18 Mbps content is 24 Mbps, 8 Mbps. Assuming that the required bandwidth of the content distribution function is 12 Mbps, when the recording function and the network reception function are operating, the network bandwidth that can be used by the content transmission apparatus 200 is 90 Mbps- (10 Mbps + 24 Mbps + 12 Mbps), which is 44 Mbps.

By using this table, it is possible to calculate the network bandwidth that can be used by the content transmission apparatus 200 so that resources can be effectively utilized to the maximum when a plurality of functions are operating simultaneously.
By using this table and using the procedure shown in FIG. 20, even when a plurality of functions are operating at the same time, the Move transfer rate that does not adversely affect other functions such as recording and distribution can be set. Can be calculated.

  By using the state management table 3000 shown in FIG. 21 and using the procedure shown in FIG. 20, even when a plurality of functions are operating at the same time, Move transfer adversely affects other functions such as recording and distribution. The Move transfer rate that is not given can be calculated.

Since the rate of the content to be processed is not always known at the start of each functional operation, this can be further improved.
FIG. 22 is a control diagram of the Move transfer rate when distribution is started to a receiving apparatus connected via a network during Move transfer.
A network band 4001 indicates a network band used by the function.
A time 4002 indicates an elapsed time.

A distribution band 4003 indicates a network band that is used for distribution processing to a receiving apparatus connected via a network.
The Move transfer band 4004 indicates a network band used for Move transfer.
The distribution start time 4005 indicates the timing at which distribution starts during Move transfer.
As shown in this diagram, in the period (4006) in which only the Move transfer is operating, the Move transfer is performed using the maximum bandwidth available for the system.

Next, at the distribution start timing (4005), the band used for Move transfer is set to 0, and distribution is started.
During the period (4007) from the start of distribution until the network band used for distribution stabilizes, Move transfer at the maximum rate is not performed, and the band used for Move transfer is gradually increased.

When the network bandwidth used for distribution is stabilized (4008), Move transfer is performed at the maximum rate available to the system using the state management table 3000 described in FIG. 21 and the procedure described in FIG. 20 (4009). ).
Thereby, even when the necessary band at the start of the operation is not known, the Move transfer rate can be determined without adversely affecting other functions such as recording and distribution.

  As described above, even when the viewing of the Move target content is started during the Move transfer, the viewing can be continued until the end of the content without being invalidated by the completion of the Move process during the viewing. In addition, by controlling the Move transfer rate by the function operating at the same time, it is possible to minimize the Move processing time within a range that does not adversely affect other functions while continuing to watch until the end of the content.

200 ... content transmission device 100, 300 ... content reception device 107,207 ... input processing unit 108,208 ... device authentication processing unit 109,209 ... device information management unit 110, 210 ... Recording / reproduction processing unit 112, 212 ... Encryption / decryption processing unit 111, 211 ... Recording unit 113, 213 ... Communication processing unit 116, 216 ... Timer 1101 ... Reproduction / distribution control unit 1102 ... Content information storage unit 1103 ... Move transfer control unit 1104 ... Transfer rate determination processing unit 1105 ... Recording control unit 1000 ... Content management table 2000, 3000 ... Status management table

Claims (14)

A content transmission device that transmits content to a content reception device connected via a network,
A communication processing unit for performing communication processing when transmitting content to the content receiving device;
A device authentication processing unit that receives an authentication request from the content receiving device, performs authentication processing, and exchanges key information;
An encryption processing unit for encrypting data to be transmitted to the content receiving device;
An input processing unit for receiving an operation instruction from the user;
A recording unit for recording content;
The transfer control for moving the recorded content to the content receiving device is performed, and when the content is transferred to the content, the content is reproduced or distributed to another content receiving device connected via a network. A control unit that changes the transfer rate of the Move transfer of the content when receiving the instruction;
A content transmission apparatus comprising: The content transmission device according to claim 1,
The content transmission apparatus according to claim 1, wherein when the reproduction or distribution of the content that has been transferred is stopped, the control unit changes a transfer rate of Move transfer of the content. The content transmission device according to claim 1,
The content transmission apparatus characterized in that the transfer rate of the Move transfer of the content changed by the control unit is a predetermined fixed value. The content transmission device according to claim 2,
The control unit sets the transfer rate of the Move transfer of the content after the reproduction or distribution of the content that has been transferred to a value increased compared to before the reproduction or distribution stops. Content transmitting apparatus. The content transmission device according to claim 2,
The control unit does not change the transfer rate of the move transfer of the content when the playback or distribution of the content that has been transferred is stopped and the content is still played or distributed. A content transmission device. The content transmission device according to claim 1,
The control unit calculates a content transfer rate from a time until the reproduction or distribution of the content being transferred is completed and an untransferred size of the content being transferred, and the calculated content transfer rate Based on the above, the content transmission apparatus changes the transfer rate of Move transfer of the content. The content transmission device according to claim 1,
When the playback or distribution position is moved by a user's fast-forward operation or the like, the control unit determines the content from the time until playback or distribution from that position is completed and the untransferred size of the content that is being transferred. A content transmission apparatus that calculates a transfer rate and changes a transfer rate of Move transfer of the content based on the calculated content transfer rate. A content transmission method for transmitting content to a content receiving device connected via a network,
The device authentication processing unit receives the authentication request from the content receiving device, performs authentication processing, exchanges key information,
When the control unit moves the content recorded in the recording unit to the content receiving device and moves the content to the Move, the control unit reproduces the content or distributes the content to another content receiving device connected via a network. When the instruction is received, the content transmission method is characterized in that the transfer rate of the Move transfer of the content is changed. The content transmission method according to claim 8, wherein
The content transmission method according to claim 1, wherein when the reproduction or distribution of the content that has been transferred is stopped, the control unit changes a transfer rate of the Move transfer of the content. The content transmission method according to claim 8, wherein
The content transmission method, wherein a transfer rate of the Move transfer of the content changed by the control unit is a predetermined fixed value. The content transmission method according to claim 9,
The control unit sets the transfer rate of the Move transfer of the content after the reproduction or distribution of the content that has been transferred to a value increased compared to before the reproduction or distribution stops. To send content. The content transmission method according to claim 9,
When the reproduction or distribution of the content being transferred is stopped, the control unit does not change the transfer rate of the move transfer of the content when the content is still being reproduced or distributed. Content transmission method. The content transmission device according to claim 8,
The control unit calculates a content transfer rate from a time until the reproduction or distribution of the content being transferred is completed and an untransferred size of the content being transferred, and the calculated content transfer rate The content transmission method is characterized in that the transfer rate of the Move transfer of the content is changed based on the above. The content transmission method according to claim 8,
When the playback or distribution position is moved by a user's fast-forward operation or the like, the control unit determines the content from the time until playback or distribution from that position is completed and the untransferred size of the content that is being transferred. A content transmission method, comprising: calculating a transfer rate, and changing the transfer rate of Move transfer of the content based on the calculated content transfer rate.

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