JP2011049762A - Distribution device, receiver and distribution method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a distribution device which reliably reports the transmission state of content. <P>SOLUTION: A transmission format generator 10 generates packet data of a distribution transmission format based on content data, and a transmitter 12 transmits them to specified distribution destinations. When the transmission format generator 10 completes packet data generation, a status generator 11 generates packet data including status which indicates that content distribution is completed. The transmitter 12 transmits packet data including the status to the same distribution destinations as the packet data generated by the transmission format generator 10. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a distribution device for distributing content such as video and audio, a receiving device for receiving such content, and a distribution method.

Usually, when transmitting contents such as video and audio using IP (Internet Protocol), RTP (Real-time Transmission Protocol), RTCP (RTP Control Protocol) and the like are used. Since there is no information on the start or end of content in RTP itself, the transmission side can notify the reception side of the end of content transmission by sending RTCP (BYE).
However, if RTCP (BYE) is not normally transmitted to the receiving side due to a transmission error or the like, the receiving side cannot accurately recognize that the content transmission has ended.

  Therefore, conventionally, there has been a receiving apparatus that recognizes that the RTP packet has not been received for a certain period of time as a method for recognizing that the content transmission has ended (see, for example, Patent Document 1). Normally, if content is being transmitted, it may not be temporarily received due to a network transmission error, etc., but the content transmission is terminated based on the idea that it will not be received for a certain amount of time. It was judged that. Furthermore, by detecting whether or not a transmission error has occurred in the receiving device, if a transmission error is detected, the content may be transmitted. By not determining that the transmission has ended, the accuracy of recognition of the end of content transmission has been obtained.

JP 2002-354032 A

In the above conventional receiving apparatus, a transmission error is detected in the receiving apparatus, and the information is used as a material for determining the end of content transmission. However, the detected transmission error is not necessarily due to content transmission, and therefore there is a problem that an erroneous transmission end determination is made. In addition, when content is transmitted through a plurality of networks, a transmission error that occurs in each network is discarded in the network and is not transmitted to the next network. That is, there is a problem that the occurrence of transmission error may not be recognized by the receiving device.
Furthermore, for example, when content is received via mobile communication, communication may be interrupted for a long time in the tunnel. In such a case, no transmission error occurs and no content is transmitted. Since communication is not recovered until the tunnel exits, the content cannot be received for a long time, and the end of content transmission is erroneously recognized. In other words, there is a problem that it is not possible to accurately set a certain time of “a state in which reception is not possible for a certain time”.

  Further, when content is transmitted from the transmission side at a certain time, the reception device is in a state of waiting for content reception before that time. At this time, there is a problem that it is not possible to determine whether the receiving device does not start receiving the content because the content is not transmitted from the transmitting side or whether the content cannot be received because the wrong address or port number is accessed. It was.

  The present invention has been made to solve such problems, and an object of the present invention is to provide a distribution device, a reception device, and a distribution method that can accurately recognize the transmission state of content.

  The distribution device according to the present invention indicates that the content is not being distributed when the transmission format generation unit generates packet data of the transmission format for distribution from the content data, and the transmission format generation unit does not generate the packet data. A status generation unit that generates packet data including a status, and a transmission format generation unit and a transmission unit that transmits the packet data generated by the status generation unit to the same delivery destination are provided.

  The distribution device of the present invention generates packet data including a status indicating that content is not being distributed when the transmission format generation unit does not generate packet data. The transmission state can be notified reliably.

1 is a configuration diagram of a system including a distribution device and a reception device of the present invention. It is a block diagram which shows the delivery apparatus by Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the delivery apparatus by Embodiment 1 of this invention. It is a block diagram which shows the delivery apparatus by Embodiment 2 of this invention. It is a flowchart which shows operation | movement of the delivery apparatus by Embodiment 2 of this invention. It is explanatory drawing which shows the structural example of the packet data containing the status of the delivery apparatus by Embodiment 2 of this invention. It is explanatory drawing which shows the example of the change of the information content which the delivery apparatus by Embodiment 2 of this invention transmits. It is explanatory drawing which shows the example of the transmission timing of the content which the delivery apparatus by Embodiment 2 of this invention transmits. It is explanatory drawing which shows another example of the transmission destination of the content which the delivery apparatus by Embodiment 2 of this invention transmits, a status, and transmission timing. It is a block diagram of the receiver by Embodiment 3 of this invention. It is a block diagram of the receiver by Embodiment 4 of this invention.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a system including a distribution device and a reception device according to the present invention.
In FIG. 1, a distribution device 1 is a device capable of transmitting content, a plurality of reception devices 2 are devices that receive content transmitted from the distribution device 1, and a network 3 is a distribution device 1 and a reception device 2. It has a function as a transmission path that mediates data transmission and reception between them. It is also possible to directly connect the distribution device 1 and the reception device 2 without using a network. The distribution device 1 can also distribute content to a plurality of reception devices 2 at the same time. Furthermore, although only two receiving apparatuses 2 are shown, the number is not limited to this number.
In such a system, the distribution apparatus 1 transmits content while performing packet communication with the reception apparatus 2 via the network 3.

FIG. 2 is a configuration diagram illustrating the distribution apparatus according to the first embodiment.
In FIG. 2, the distribution apparatus 1 includes a transmission format generation unit 10, a status generation unit 11, and a transmission unit 12. The transmission format generation unit 10 generates a plurality of packet data from content data input from the outside according to the distribution protocol, and the status generation unit 11 generates a block of packet data using the status regarding the distribution state as information, and transmission The unit 12 is a block that transmits the generated packet data to the network 3.

Next, the operation of the distribution apparatus 1 according to the first embodiment will be described.
First, the transmission format generation unit 10 in the distribution apparatus 1 divides content data into a size that can be transmitted by IP packets from the outside of the apparatus, and further assigns control information according to a distribution protocol to perform formatting. Packet data is generated and passed to the transmission unit 12. Here, the distribution protocol may be a streaming protocol such as RTP or a file transfer protocol. Then, when all of the packet data generated by the transmission format generation unit 10 has been delivered to the transmission unit 12, the status generation unit 11 is notified that the content transmission has ended. When notified from the transmission format generation unit 10 that the content transmission has been completed, the status generation unit 11 periodically generates packet data including the status of the content distribution completion and passes it to the transmission unit 12.

  The transmission unit 12 converts a plurality of packet data including the content data passed from the transmission format generation unit 10 into IP packets, and transmits the IP packets to a distribution destination address and a port number that are content destinations. When all the packet data including the content data has been transmitted, the packet data including the status is transferred from the status generation unit 11, converted into an IP packet, and transmitted to the same distribution destination address and port number as before. In this way, when the content distribution is completed, the IP packet including the distribution end status is distributed.

FIG. 3 is a flowchart showing the processing contents of the distribution apparatus according to Embodiment 1 of the present invention.
The transmission format generation unit 10 checks the presence / absence of distribution content (step ST1). When the distribution content exists (step ST1 “YES”), the distribution destination is set in the transmission unit 12 (step ST2), and the transmission format generation unit 10 sets a plurality of packet data formatted with the distribution protocol. Is transmitted by the transmitter 12 (step ST3). When the transmission of the content is completed and there is no content to be distributed (step ST1 “NO”), the status generation unit 11 generates packet data including the status of the content non-distribution, and the transmission unit 12 distributes the same distribution destination as before. The packet data is transmitted (step ST4). It is confirmed whether there is content to be distributed again (step ST1). If there is no content, the status generation unit 11 generates packet data including the status, and the transmission unit 12 transmits it. Thereafter, transmission of packet data including the status is continued until distribution content is generated.

  As described above, according to the distribution device 1 of the first embodiment, the transmission format generation unit 10 that generates packet data of the transmission format for distribution from the content data, and the packet data is not generated by the transmission format generation unit 10 Sometimes, a status generation unit 11 that generates packet data including a status indicating that content is not being distributed, and a transmission unit that transmits packet data generated by the transmission format generation unit 10 and the status generation unit 11 to the same distribution destination 12, since the data including the status of content non-delivery is delivered after the content delivery is completed, the receiving side can reliably recognize whether or not the content delivery is finished.

  In addition, according to the distribution method of the first embodiment, the content is not distributed when the transmission format generation step generates packet data of the transmission format for distribution from the content data, and the packet data is not generated in the transmission format generation step. Content distribution end because it includes a status generation step for generating packet data including a status indicating that it is, and a transmission step for transmitting the packet data generated in the transmission format generation step and the status generation step to the same distribution destination. After that, since data including a status indicating that content is not being distributed is distributed, it is possible to reliably recognize whether or not the distribution of content has been completed on the receiving side.

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a distribution apparatus according to Embodiment 2 of the present invention.
The illustrated distribution apparatus 1 includes a transmission format generation unit 10a, a status generation unit 11a, a transmission unit 12a, and a management unit 13. The transmission format generation unit 10a generates a plurality of packet data in which the content is matched with the transmission format for distribution, similarly to the transmission format generation unit 10 of the first embodiment. Based on the delivery schedule. The status generation unit 11a is also configured to generate packet data including a status indicating that content is not being distributed based on an instruction from the management unit 13. The transmission unit 12a is configured to transmit packet data to the same delivery destination in accordance with an instruction from the management unit 13. The management unit 13 is a functional unit that performs distribution control of each unit as the distribution apparatus 1 based on a given distribution schedule.

Next, the operation of the distribution apparatus according to the second embodiment will be described.
Basic operations such as packet data generation in the transmission format generation unit 10a and packet data generation in the status generation unit 11a are the same as those in the first embodiment.
The management unit 13 in the distribution apparatus 1 controls the transmission format generation unit 10a and the status generation unit 11a based on a distribution schedule fetched from outside the apparatus.
For example, when the management unit 13 obtains a distribution schedule for distributing content a at time Ta, the management unit 13 notifies the status generation unit 11a of the status before content distribution. The time Ta is the time after the delivery instruction is received by the management unit 13. As a result, the status generation unit 11a periodically generates packet data including the status before content distribution and passes the packet data to the transmission unit 12a. The transmission unit 12a converts the packet data including the status passed from the status generation unit 11a into an IP packet, and transmits the packet to a distribution destination address and a port number as a content destination. The destination of the content is notified from the management unit 13 to the transmission unit 12a, but is set by the transmission unit 12a based on the packet data from the transmission format generation unit 10a and the packet data from the status generation unit 11a. Also good.

  Thereafter, when the time Ta is reached, the management unit 13 instructs the transmission format generation unit 10a to distribute the content. The transmission format generation unit 10a notifies the status generation unit 11a that the content is being distributed, and the status generation unit 11a stops generating packet data including the status before the content distribution. After that, the transmission format generation unit 10a divides the content data from the outside of the device into sizes that can be transmitted by IP packets, further formats the control data according to the distribution protocol, and generates a plurality of packet data To the transmission unit 12a. When all of the packet data generated by the transmission format generation unit 10a has been passed to the transmission unit 12a, the status generation unit 11a is notified that the content transmission has ended. When notified from the transmission format generation unit 10a that the content transmission has ended, the status generation unit 11a periodically generates packet data including the status of the content distribution completion and passes it to the transmission unit 12a.

The transmission unit 12a converts a plurality of packet data including the content data passed from the transmission format generation unit 10a into IP packets, and transmits the IP packets to a distribution destination address and a port number as a content destination. When all of the packet data including the content data has been transmitted, the packet data including the status is transferred from the status generation unit 11a, converted into an IP packet, and transmitted to the same distribution destination address and port number as before.
In addition, regarding the generation timing of the packet data in the status generation unit 11a and the transmission format generation unit 10a, the management unit 13 may centrally manage and control the timing. That is, when the time Ta comes, the management unit 13 may instruct the status generation unit 11a to stop status distribution and the transmission format generation unit 10a to start distribution of content data. At the end of content distribution, the transmission format generation unit 10a may notify the management unit 13 of the end of content distribution, and the management unit 13 may instruct the status generation unit 11a to transmit the content distribution end status.

  In this way, the status before distribution is distributed before content distribution, and the status of distribution end is distributed after content distribution. Note that the status may be represented by only one status of content non-distribution instead of two statuses before content distribution and content distribution end.

FIG. 5 is a flowchart showing the processing contents of the distribution apparatus according to Embodiment 2 of the present invention.
The management unit 13 checks whether there is a distribution schedule (step ST11). If the distribution schedule exists (step ST11 “YES”), the distribution destination is set in the transmission unit 12a (step ST12), and if it is before the distribution time (step ST13 “NO”), the content is generated by the status generation unit 11a. Packet data including the status before distribution is generated, and the packet data is transmitted to the distribution destination set earlier by the transmission unit 12a (step ST14). Thereafter, the process of step ST14 is repeated until the delivery time is reached. Instead of setting the delivery destination from the management unit 13 to the transmission unit 12a, the delivery destination may be set by IP packet data from the status generation unit 11a.

  When the distribution time comes (step ST13 “YES”), the transmission format generation unit 10a generates a plurality of packet data in which the distribution content is formatted by the distribution protocol, and transmits the packet data by the transmission unit 12a (step ST15). When the transmission of the content is completed and the distribution schedule is lost or there is sufficient time until the next schedule (step ST11 “NO”), the status generation unit 11a generates packet data including the status of the content distribution end. The transmitting unit 12a transmits the packet data to the same delivery destination as before (step ST16). Returning to step ST11, the management unit 13 confirms the distribution schedule again. If there is no distribution schedule, the status generation unit 11a generates packet data including the status, and the transmission unit 12a transmits the packet data. Thereafter, transmission of packet data including the status is continued until the next distribution schedule occurs.

  As described above, since the packet data including the status before content distribution and the content distribution end status is distributed before and after the content distribution, the receiving side can recognize whether the distribution is not started or ended.

FIG. 6 shows an example of the structure of packet data including the status of the present invention.
As illustrated, the packet data includes a header 101, content identification information 102, status information 103, and option information 104. Here, the header 101 is header information for distinguishing the distribution protocol, the content identification information 102 is identification information for uniquely identifying the target content, and the status information 103 is before or after distribution of the content. The status information indicating the distribution state and the option information 104 are option information other than the content identification information 102 and the status information 103.

By including the content identification information 102 in the packet data including the status, for example, when the receiving device receives the packet data including the status before the content distribution, it confirms in advance whether the content to be distributed is the desired content. be able to.
Further, since the status is transmitted at the same location as the address and port number to which the content is distributed, the receiving device can confirm that there is no error in the accessed address and port number.

  As described above, since the content identification information is included in the packet data including the status, the information on the content to be distributed can be notified to the receiving device before distribution.

Further, by setting the time until the start of content distribution in the option information 104, the receiving apparatus can recognize how long the distribution will start. Also, it can be recognized that the delivery is surely performed by confirming that the time is reduced.
In this manner, by adding the time until the start of distribution to the packet data including the status, it is possible to notify the receiving apparatus how long the content distribution has started before the distribution.

FIG. 7 shows an example of a change in the amount of information transmitted by the distribution apparatus 1 of the present invention.
By transmitting the status with an information generation amount sufficiently smaller than that at the time of content transmission, it is possible to prevent the network from being loaded at the time of status transmission and affect the content distribution of other distribution apparatuses.
Control of the amount of status information generated can be realized by adjusting the generation interval of packet data generated by the status generation unit 11a. That is, the status generation unit 11a is configured so that the generation interval of packet data including the status can be arbitrarily changed. For example, if it is desired to reduce the amount of information generated, the status generation interval may be increased. On the other hand, if the generation interval is set too long, the interval at which the status is received on the receiving side becomes long, and the frequency of recognizing the status becomes low. Therefore, it is necessary to set the generation interval suitable for practical use.
As described above, since the status generation interval is adjusted, the load on the network due to status transmission can be adjusted, and the frequency of status distribution to the receiving device 2 can be adjusted.

In a transmission system using a function such as IP header compression, header data compression is not performed on only some IP packets, and header data compression is performed on many other IP packets, thereby reducing the amount of transmitted data. The receiving side can receive IP packets with header compression after receiving some IP packets without header compression.
Therefore, even if the content is sent suddenly, it cannot be normally received unless it is from an IP packet that is not subjected to header compression on the receiving side.
However, by transmitting the status before content transmission as in the present invention, if an IP packet not subjected to header compression is included in the status transmission, it can be normally received during subsequent content transmission.
As described above, when IP header compression is performed, the status is periodically transmitted before content transmission. Therefore, even when content is IP header compressed, the reception side normally receives the content when transmitting the content. be able to.

FIG. 8 shows an example of the transmission timing of the content transmitted by the distribution apparatus 1 of the present invention.
The illustrated example shows an operation when two types of content are continuously distributed. The content A is transmitted with the port number A as the distribution destination, and when the transmission of the content A is completed, the status of content A distribution completion is transmitted. Further, during transmission of content A at port number A, status before distribution of content B is transmitted at port number B, and transmission of content B at port number B is started when transmission of content A is completed.
In this way, the receiving side can recognize the end of the distribution of the content A and can prepare the start of the distribution of the content B. Furthermore, since the content A and the content B can be transmitted continuously, the network bandwidth can be effectively used.
In this example, the port number is changed as the change of the delivery destination, but the same effect can be obtained by changing the address (multicast address or the like).
Although the status generation unit 11a outputs two types of statuses simultaneously, this function can be realized by distributing to the different port numbers by the transmission unit 12a. Alternatively, two sets of transmission format generation unit 10a, status generation unit 11a, and transmission unit 12a may be prepared and the operation may be performed for each content.
As described above, when a plurality of contents are continuously distributed, the receiving apparatus can receive each status by changing the distribution destination address or the port number.

FIG. 9 shows another example of the content transmitted by the distribution apparatus of the present invention, the status transmission destination, and the transmission timing.
As in FIG. 8, when two types of content are continuously distributed, only the status is transmitted to another transmission destination. That is, the transmission unit 12a transmits the packet data generated by the transmission format generation unit 10a and the packet data generated by the status generation unit 11a to different delivery destinations. In the example of FIG. 9, the transmission destination of content A is set to port number A, the transmission destination of content B is set to port number B, and the transmission destination of status (for content A and content B) is set to port number C. . When the content A is being transmitted and before the content B is transmitted, the status before the transmission of the content B is transmitted to the port number C. When the transmission of the content A is finished and the transmission of the content B is started, the port In the number C, the status of the transmission end of the content A is transmitted. If the transmission of the content B is not started immediately after the transmission of the content A, two types of statuses before the transmission of the content A and before the transmission of the content B are transmitted to the port number C.

  In this way, the distribution side of the content can be confirmed by monitoring only the port number C on the receiving side. Also, when transmitting two contents at the same time, the distribution status of the two contents can be confirmed by confirming only the port number for status. In this example, the status distribution destination is different depending on the port number. However, the status transmission destination may be different from the content by changing the address (particularly the multimedia address).

  As described above, by separating the status distribution destination from the content distribution destination, the reception side can confirm all the content distribution statuses by receiving only the status distribution destination.

  Although the examples in FIGS. 6 to 9 have been described with the configuration of the second embodiment, the same applies to the first embodiment.

  As described above, according to the distribution device 1 of the second embodiment, the management unit 13 that manages the distribution operation based on the distribution schedule, and the packet data of the transmission format for distribution is generated from the content data according to the instruction of the management unit 13 The transmission format generation unit 10a to perform, and the status generation unit to generate packet data including a status indicating that content is not being delivered when the transmission format generation unit 10a does not generate packet data according to an instruction from the management unit 13 11a and a transmission unit 12a that transmits the packet data generated by the transmission format generation unit 10a and the status generation unit 11a to the same distribution destination, so that the state before content distribution can be notified to the reception side, As a result, the receiving side can recognize whether it was before or after the start of distribution. .

  Further, according to the distribution apparatus 1 of the second embodiment, the management unit 13 that manages the distribution operation based on the distribution schedule, and the transmission format that generates the packet data of the distribution transmission format from the content data according to the instruction of the management unit 13 A status generation unit 11a that generates packet data including a status indicating that content is not being delivered when packet data is not generated by the transmission format generation unit 10a according to an instruction from the generation unit 10a and the management unit 13; Since the transmission format generation unit 10a and the transmission unit 12a for transmitting the packet data generated by the status generation unit 11a to different distribution destinations are provided, all contents can be obtained by receiving only the distribution destination for status on the reception side. The delivery status can be confirmed.

  Further, according to the distribution apparatus 1 of the second embodiment, the status includes at least one of the state before content distribution and the state of content distribution end, so the reception side is before the start of distribution. Can be recognized.

  Further, according to the distribution apparatus 1 of the second embodiment, since the status includes the content identification information to be distributed, the data including the status is transmitted before distribution to the receiving side. Information on the content to be distributed can be notified.

  Further, according to the distribution apparatus 1 of the second embodiment, when the status indicates a state before content distribution, the time until the content distribution is started is included as a parameter, so that the distribution side can determine how much time is distributed to the receiving side. Can be notified. Further, the receiving side can recognize that the delivery is surely performed by confirming that the time is reduced.

  Further, according to the distribution apparatus 1 of the second embodiment, the status generation unit 11a can arbitrarily change the generation interval of packet data including the status, so that the content transmission can be performed by controlling the generation amount of status information. The status can be transmitted with an information generation amount sufficiently smaller than the time.

  Further, according to the distribution apparatus 1 of the second embodiment, the transmission unit 12a changes the port number or address as the distribution destination when transmitting a plurality of contents continuously. The end of content distribution can be notified to the user, and a content distribution schedule different from this can be notified.

  Further, according to the distribution method of the second embodiment, the transmission unit includes the management unit 13 that manages the distribution operation based on the distribution schedule, and generates packet data of the transmission format for distribution from the content data according to an instruction from the management unit 13 A generation step, a status generation step for generating packet data including a status indicating that the content is not being distributed when packet data is not generated in the transmission format generation step according to an instruction from the management unit 13, and a transmission format generation Since it includes a transmission step for transmitting the packet data generated in the step and the status generation step to the same distribution destination, the reception side can be notified of the state before the content distribution, and as a result, the distribution side starts distribution on the reception side You can recognize whether it was before or ended.

Embodiment 3 FIG.
FIG. 10 is a block diagram showing a receiving apparatus 2 as Embodiment 3 of the present invention.
In FIG. 10, the reception device 2 includes a reception unit 20, a status analysis unit 21, and a content assembly unit 22. The receiving unit 20 receives packet data via the network 3 and separates the content packet data from the status packet data. The status analysis unit 21 extracts the status from the status packet data and analyzes the block. The assembly unit 22 is a block that generates content data by combining a plurality of content packet data.

Next, the operation of receiving apparatus 2 of Embodiment 3 will be described.
First, the receiving unit 20 receives packet data via the network 3. The receiving unit 20 analyzes the received packet data, and if it is a content distribution protocol, passes the packet data to the content assembling unit 22. The content assembling unit 22 performs protocol processing on the packet data passed from the receiving unit 20 in accordance with the content distribution protocol to restore and output the content data. If all the content packet data cannot be received, the content assembly unit 22 may not complete the restoration of the content data.

When the reception unit 20 detects the status packet data, it passes the packet data to the status analysis unit 21. The status analysis unit 21 extracts the status indicating the content distribution state from the packet data, and notifies the content assembly unit 22 of the fact that the status is not being distributed including the distribution end state. The content assembling unit 22 ignores the status when the restoration of the content data is completed, and forcibly terminates the restoration according to the status when the restoration of the content data is not completed, and outputs only the restored part. To do.
In this way, even when the received packet data cannot be completely received and the content restoration operation is not completed, the restoration operation is not completed indefinitely when there is no status as in the past, By forcibly terminating the restoration operation according to the status, the content restoration operation can be completed.

  As described above, according to the receiving device 2 of the third embodiment, the receiving unit 20 that receives the packet data and separates the data into data including the content and data including the status indicating the content distribution state, and the receiving unit 20 Assembling the content extracted based on the transmission format for distribution from the data including the status separated from the data including the status separated by the status analysis unit 21 for recognizing that the content distribution is completed, and the receiving unit 20; When the status analysis unit 21 recognizes that the content distribution has been completed, the content analysis unit 21 includes a content assembly unit 22 that completes the content assembly. Therefore, when the distribution completion status is received, the content restoration operation is forcibly terminated. Thus, it is possible to generate content up to the middle.

Embodiment 4 FIG.
FIG. 11 is a block diagram showing another example of the receiving device 2 as Embodiment 4 of the present invention.
The illustrated receiving apparatus 2 includes a receiving unit 20a, a status analyzing unit 21a, and a content assembling unit 22, and the content assembling unit 22 is the same as that of the third embodiment. The receiving unit 20a is a block that receives the packet data having the port number or address as the status of the distribution destination information and the content identification information as the status, and separates the data into data including the content and data including the status. Yes, the status analysis unit 21a confirms the content identification information of the content to be received from the data including the status separated by the reception unit 20a. If the content is not the content to be received, the status analysis unit 21a receives another port number or address to the reception unit 20a. It is a block that instructs to do so.

Next, the operation of the fourth embodiment will be described.
First, the receiving unit 20 a in the receiving device 2 receives packet data via the network 3. The receiving unit 20a analyzes the received packet data, and if it is a content distribution protocol, passes the packet data to the content assembling unit 22. The content assembling unit 22 performs protocol processing on the packet data delivered from the receiving unit 20a in accordance with the content distribution protocol to restore and output the content data.

When the status packet data is detected by the reception unit 20a, the packet data is transferred to the status analysis unit 21a. The status analysis unit 21a extracts the status indicating the content distribution status from the packet data, and confirms the content identification information and status. If the content identification information is the desired content and the status is pre-distribution, nothing is done. If the content identification information is not the desired content, the status analysis unit 21a instructs the reception unit 20a to access another address or port number. The receiving unit 20a accesses another address or port number, and then passes the received packet data including the status to the status analyzing unit 21a. The status analysis unit 21a checks the content identification information and does nothing if it is a desired content. If it is not the desired content, the status analysis unit 21a instructs the receiving unit 20a to access another address or port number. By repeating this operation, it becomes possible to prepare to receive desired content before distribution.
If such a status check is not performed, it is determined that the content cannot be received by the receiving device 2 after the content distribution is started, and then the content is received by accessing another address or port number. Even if you can, you can only receive content from the middle.

  As described above, when the pre-distribution status is received, if the desired content identification information is not included, another address or port number is accessed. Ready to do.

In addition, when the data including the status of the content is not passed by the status analysis unit 21a by a predetermined time before the content distribution start time, the status analysis unit 21a instructs the reception unit 20a to receive another port number or address. This may be done as described below.
If the receiving unit 20a cannot receive the packet data including the status before distributing the content, no data is passed to the status analyzing unit 21a. The fact that the status before the distribution of the desired content cannot be received although the content distribution time is approaching in the status analysis unit 21a is highly likely that the correct address or port number has not been accessed. Therefore, when the status before distribution of desired content cannot be received by a predetermined time before the content distribution time, the status analysis unit 21a instructs the reception unit 20a to access another address or port number. The receiving unit 20a accesses another address or port number, and then passes the received packet data including the status to the status analyzing unit 21a. The status analysis unit 21a checks the content identification information and does nothing if it is a desired content. If the content is not desired or the status cannot be received, the status analysis unit 21a instructs the receiving unit 20a to access another address or port number again. By repeating this operation, it becomes possible to prepare to receive desired content before distribution.

  As described above, when the status before distribution cannot be received, another address or port number is accessed, so that preparation for receiving content normally can be made before content distribution.

  As described above, according to the receiving device 2 of the fourth embodiment, the packet data having the port number or the address as the status of the delivery destination information and the content identification information as the status is received and the data including the content is received. The receiving unit 20a that separates the data including the status and the data including the status separated by the receiving unit 20a confirms the content identification information of the content to be received. Since it includes a status analysis unit 21a that instructs to receive a number or address, and a content assembly unit 22 that assembles content extracted from data including content separated by the reception unit 20a based on a transmission format for distribution. Before content delivery It can be ready to receive the Ntsu.

  In addition, according to the receiving device 2 of the fourth embodiment, the receiving unit 20a that receives packet data having a port number or address as the status of the delivery destination information and separates the packet data into data including the content and data including the status; The status analysis that instructs the receiving unit 20a to receive another port number or address when data including the content status is not passed from the receiving unit 20a by a predetermined time before the content distribution start time. Unit 21a and content assembling unit 22 for assembling the content extracted from the data including the content separated by receiving unit 20a based on the transmission format for distribution, so that preparation for receiving content normally before content distribution is provided. Can be arranged.

  DESCRIPTION OF SYMBOLS 1 Distribution apparatus, 2 receivers, 3 network, 10, 10a Transmission format production | generation part, 11, 11a Status production | generation part, 12, 12a Transmission part, 13 Management part, 20, 20a Reception part, 21, 21a Status analysis part, 22 Content assembly unit, 101 header, 102 content identification information, 103 status information, 104 option information.

Claims (13)

A transmission format generator for generating packet data of a transmission format for distribution from content data;
A status generation unit that generates packet data including a status indicating that content is not being delivered when packet data is not generated in the transmission format generation unit;
A distribution apparatus comprising: a transmission unit that transmits packet data generated by the transmission format generation unit and the status generation unit to the same distribution destination. A management unit for managing the distribution operation based on the distribution schedule;
According to the instruction of the management unit, a transmission format generation unit that generates packet data of a transmission format for distribution from content data,
In response to an instruction from the management unit, when the packet data is not generated by the transmission format generation unit, a status generation unit that generates packet data including a status indicating that content is not being distributed;
A distribution apparatus comprising: a transmission unit that transmits packet data generated by the transmission format generation unit and the status generation unit to the same distribution destination. A management unit for managing the distribution operation based on the distribution schedule;
According to the instruction of the management unit, a transmission format generation unit that generates packet data of a transmission format for distribution from content data,
In response to an instruction from the management unit, when the packet data is not generated by the transmission format generation unit, a status generation unit that generates packet data including a status indicating that content is not being distributed;
A distribution apparatus comprising: a transmission unit that transmits packet data generated by the transmission format generation unit and the status generation unit to different distribution destinations.   4. The distribution apparatus according to claim 2, wherein the status includes at least one of a state before content distribution and a state of content distribution end.   The distribution apparatus according to claim 1, wherein the status includes content identification information to be distributed.   5. The distribution apparatus according to claim 4, wherein the status includes a time until the start of content distribution as a parameter when indicating a state before content distribution.   The distribution apparatus according to claim 1, wherein the status generation unit can arbitrarily change a generation interval of packet data including a status.   8. The transmission unit according to claim 1, wherein the transmission unit changes a port number or an address as a change of a distribution destination when transmitting a plurality of contents continuously. 9. Distribution device. A receiving unit that receives packet data and separates into data including content and data including a status indicating a content distribution state;
A status analysis unit for recognizing that content distribution has ended from data including status separated by the receiving unit;
Content assembly that assembles content extracted from data including content separated by the receiving unit based on a transmission format for distribution and completes content assembly when the status analysis unit recognizes that content distribution has ended And a receiving device. A receiving unit that receives the packet data having the port number or the address as the status of the distribution destination information and the content identification information as the status, and separates the data including the content and the data including the status;
Status analysis that confirms the content identification information of the content to be received from the data including the status separated by the receiving unit, and instructs the receiving unit to receive another port number or address if the content is not the received content And
A receiving apparatus comprising: a content assembling unit that assembles content extracted from data including content separated by the receiving unit based on a transmission format for distribution. A receiving unit that receives packet data having a port number or address as a status of distribution destination information, and separates the data into data including content and data including status;
Status analysis that instructs the receiving unit to receive another port number or address when data including the status of the content is not passed from the receiving unit by a predetermined time before the content distribution start time. And
A receiving apparatus comprising: a content assembling unit that assembles content extracted from data including content separated by the receiving unit based on a transmission format for distribution. A transmission format generation step of generating packet data of a transmission format for distribution from content data;
A status generation step of generating packet data including a status indicating that content is not being delivered when packet data is not generated in the transmission format generation step;
A distribution method comprising: a transmission step of transmitting the packet data generated in the transmission format generation step and the status generation step to the same distribution destination. A management unit that manages distribution operations based on the distribution schedule,
A transmission format generation step for generating packet data of a transmission format for distribution from content data in accordance with an instruction from the management unit;
A status generation step of generating packet data including a status indicating that content is not being delivered when packet data is not generated in the transmission format generation step according to an instruction of the management unit;
A distribution method comprising: a transmission step of transmitting the packet data generated in the transmission format generation step and the status generation step to the same distribution destination.

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