JP3931531B2 - Hierarchical coded video distribution system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an efficient moving image distribution system according to the capability of a receiving user terminal and the speed of a communication line in an IP network such as the Internet, an intranet, and a mobile communication packet.
[0002]
[Prior art]
Conventionally, a video distribution system using IP multicast can reduce the load on the transmitting server or the amount of data on the network compared to a video distribution system using IP unicast. It is spreading.
[0003]
However, in a video distribution system using a simple IP multicast, individual correspondence according to the capability and line speed of the receiving user terminal is not possible. Therefore, in order to receive appropriate information for each receiving terminal, the server side improves the image quality of the original video stream with one video stream including the minimum data necessary for video playback. By dividing the video stream into a plurality of video streams including data for each of the video streams and transmitting them on separate multicast channels for each video stream, and by requesting only the necessary multicast channel from the receiving user terminal to the relay router, Hierarchical video distribution systems capable of receiving a multicast channel corresponding to a receiving user terminal, synthesizing and displaying a video stream on the multicast channel have been proposed and put into practical use. References include S. Sakazawa, Y. Takishima, M. Wada and K. Amano, Bandwidth-Adaptive Video Transmission Method for Heterogeneous Network Environment, Proceedings of International Workshop on New Video Media Technology, pp. 49-54 (1997). Shigeru Sawazawa, Yasuhiro Takishima, Masahiro Wada: Coding transmission control method in video multicast, Journal of the Institute of Image Information and Television Engineers, Vol.52, No.6, pp.863-870 (1998).
[0004]
[Problems to be solved by the invention]
However, in the system configured as described above, the transmission video stream is hierarchically separated and transmitted through a plurality of multicast channels, and the video stream from the multicast channel registered according to the request of the receiving user terminal is combined and displayed at the receiving user terminal. However, if the processing capability of the receiving user terminal is low, such as a small mobile terminal, the reception of the multiple multicast channels, the multiple videos, etc. It is difficult to perform stream composition and display processing. Further, it is necessary to set the distribution data amount of a desired video stream on the user side according to the processing capability and the communication line speed of the receiving user terminal.
[0005]
Therefore, an object of the present invention is to eliminate the problem that there is a restriction on the processing capability of a user terminal when receiving, combining and displaying a plurality of IP multicast channels divided into layers in the receiving user terminal. .
[0006]
[Means for Solving the Problems]
The system of the present invention is characterized in that a multicast channel combining processing function is provided in a gateway or server provided on a communication network. Further, by notifying the gateway or server of the number of integrated layers corresponding to the desired bit rate obtained from the capability of the receiving user terminal and the communication line speed, the data processing capacity and / or communication line speed of the user terminal is changed. And a notification interface that can adaptively distribute multicast data for the integrated layer.
[0007]
Therefore, the hierarchical encoded video distribution system of the present invention is
Separation means for hierarchically separating the first video stream into m (m ≧ 1) second video streams, and distribution means for delivering each of the m second video streams using the first multicast channel A server having
Based on the receiving means for receiving each second video stream using the m first multicast channels and the desired number of integrated layers received from the user terminal, the m second video streams are converted into n A gateway having integration means for integrating (n ≧ 1) user terminals into respective third video streams, and distribution means for distributing the n third video streams;
Receiving means for receiving one third video stream; decoding means for decoding the third video stream; display means for displaying the decoded signal; and data processing capability and utilization for the user terminal The desired bit rate is calculated from the available communication bandwidth and / or the communication bandwidth usage state of a plurality of operating communication applications so that the bit rate of the third video stream becomes the maximum bit rate not exceeding the desired bit rate. And a determination unit for determining the number of integrated layers and notifying the gateway of the number of integrated layers .
[0008]
In addition, the system of the present invention
Separating means for layer-separating the first video stream into m (m ≧ 1) second video streams, and m second video streams based on the desired number of integrated layers received from the user terminal , A server having integration means for integrating the third video streams to n (n ≧ 1) user terminals, and distribution means for distributing the n third video streams;
Receiving means for receiving one third video stream; decoding means for decoding the third video stream; display means for displaying the decoded signal; and data processing capability and utilization for the user terminal The desired bit rate is calculated from the available communication bandwidth and / or the communication bandwidth usage state of a plurality of operating communication applications so that the bit rate of the third video stream becomes the maximum bit rate not exceeding the desired bit rate. And determining means for determining the number of integrated layers and notifying the server of the number of integrated layers .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0013]
FIG. 1 is a system configuration diagram of a first embodiment according to the present invention. In this system, a server 1, a gateway 2, and a user terminal 3 are arranged on a communication network.
[0014]
The server 1 includes a video stream hierarchical encoding function 11 and a video stream multicast channel distribution function 12. The video streams input to the video stream hierarchical encoding function 11 are encoded after being hierarchically separated into m streams and passed to the video stream multicast channel distribution function 12.
[0015]
The gateway 2 includes a video stream multicast channel reception function 13, a multicast channel integration function 14, a video stream distribution function 15, and a user management function 20. The video streams hierarchically separated into m streams by the video stream multicast channel distribution function 12 are distributed to the video stream multicast channel reception function 13 through the server-gateway communication interface 31 which is m multicast channels. In addition, the desired integrated hierarchy number of the user terminal is notified to the user management function 20 by the desired integrated hierarchy number notification interface 34 and is managed for each user. When there are n desired number of integrated layers of users managed by the user management function 20, the multicast channel integration function 14 integrates n video streams, and the video stream distribution function 15 to n gateway-user terminals. It is distributed to each user terminal through the inter-communication interface.
[0016]
The user terminal # 1 includes a video stream reception function 16, a video stream layer encoding / decoding function 17, a video stream display function 18, and a desired integrated layer number determination function 19. The video stream receiving function 16 selects a gateway-user terminal communication interface 33 corresponding to the desired number of integrated layers of the user terminal # 1 from the interface 32 and receives a video stream distributed on the interface 33. The received video stream is decoded by the video stream hierarchical encoding / decoding function 17 and displayed by the video stream display function 18. Also, the desired integrated hierarchy number notification interface 34 notifies the user management function 20 of the desired integrated hierarchy number determined by the desired integrated hierarchy number determination function 19.
[0017]
FIG. 2 is a system configuration diagram of the second embodiment according to the present invention. In this system, a server 1 and a user terminal 3 are arranged on a communication network.
[0018]
The server 1 includes a video stream hierarchical encoding function 11, a multicast channel integration function 14, a video stream distribution function 15, and a user management function 20. The video stream input to the video stream hierarchical encoding function 11 is encoded after being hierarchically separated into m streams and passed to the multicast channel integration function 14. In addition, the desired integrated hierarchy number of the user terminal is notified to the user management function 20 by the desired integrated hierarchy number notification interface 34 and is managed for each user. When the desired number of integrated layers of users managed by the user management function 20 is n, the multicast channel integration function 14 integrates n video streams, and the video stream distribution function 15 outputs n server-user terminals. It is distributed to each user terminal through the inter-communication interface 32.
[0019]
The user terminal # 1 includes a video stream reception function 16, a video stream layer encoding / decoding function 17, a video stream display function 18, and a desired integrated layer number determination function 19. The video stream receiving function 16 selects a server-user terminal communication interface 33 corresponding to the desired number of integrated layers of the user terminal # 1 from the interface 32 and receives a video stream distributed on the interface 33. The received video stream is decoded by the video stream hierarchical encoding / decoding function 17 and displayed by the video stream display function 18. Also, the desired integrated hierarchy number notification interface 34 notifies the user management function 20 of the desired integrated hierarchy number determined by the desired integrated hierarchy number determination function 19.
[0020]
FIG. 3 is a system configuration diagram of the third embodiment according to the present invention. FIG. 3 is different from FIG. 1 in that the implementation means for the desired integration number determination function 19, the implementation means for the gateway-user terminal communication interface 32, and the gateway-user terminal communication interface 33 among the interfaces 32 are selected. It defines the means to do.
[0021]
The desired integration number determination function 19 is determined based on the data processing capability of the user terminal, the communication band in which the communication function of the user terminal can be used, and / or the communication band usage state of a plurality of communication applications operating on the user terminal. The bit rate is calculated, and the number of integrated layers is determined so that the maximum bit rate does not exceed the desired bit rate.
[0022]
The integrated layer number determined by the desired integrated layer number determination function 19 is notified to the user management function 20 through the desired integrated layer number notification interface 34 and is also notified from the desired integrated layer number notification internal interface 35 to the video stream receiving function 16. The The gateway-user terminal communication interface, which is n multicast channels from the video stream distribution function 15, distributes using n multicast channels, and the video stream reception function 16 determines the desired number of integrated layers to be notified. The corresponding gateway-user terminal communication interface 33 is identified, registered to the multicast channel, and the video stream can be received.
[0023]
FIG. 4 is a system configuration diagram of the fourth embodiment according to the present invention. FIG. 4 is different from FIG. 1 in that the implementation unit for the desired integration number determination function 19, the implementation unit for the gateway-user terminal communication interface 32, and the gateway-user terminal communication interface 33 among the interfaces 32 are selected. It defines the means to do.
[0024]
The integration layer number determined by the desired integration number determination function 19 and the user terminal identification information for routing are notified to the user management function 20 through the desired integration layer number notification interface 34. The n video streams distributed from the video stream distribution function 15 are distributed using a gateway-user terminal communication interface that is n unicast channels, and the video stream reception function 16 notifies the desired integration layer. The gateway-user terminal communication interface 33 corresponding to the number and the user identification information is identified, and the video stream can be received.
[0025]
FIG. 5 is a system configuration diagram of the fifth embodiment according to the present invention. FIG. 5 is different from FIG. 2 in that the implementation means for the desired integration number determination function 19, the implementation means for the server-user terminal communication interface 32, and the server-user terminal communication interface 33 among the interfaces 32 are selected. It defines the means to do.
[0026]
The integrated layer number determined by the desired integrated layer number determination function 19 is notified to the user management function 20 through the desired integrated layer number notification interface 34 and is also notified from the desired integrated layer number notification internal interface 35 to the video stream receiving function 16. The The server-user terminal communication interface, which is n multicast channels from the video stream distribution function 15, distributes using the n multicast channels. The corresponding server-user terminal communication interface 33 is identified, registered to the multicast channel, and the video stream can be received.
[0027]
6 selects a desired integration number determination function 19 implementation method, a server-user terminal communication interface 32 implementation method, and a server-user terminal communication interface 33 among the interfaces 32 in the configuration of FIG. It is the block diagram which prescribed | regulated the method.
[0028]
The integration layer number determined by the desired integration number determination function 19 and the user terminal identification information for routing are notified to the user management function 20 through the desired integration layer number notification interface 34. The n video streams distributed from the video stream distribution function 15 are distributed using a gateway-user terminal communication interface that is n unicast channels, and the video stream reception function 16 notifies the desired integration layer. The server-user terminal communication interface 33 corresponding to the number and the user identification information is identified, and the video stream can be received.
[0029]
The above-described various embodiments of the hierarchically encoded video distribution system of the present invention can be easily changed, modified, and omitted by those skilled in the art within the scope of the technical idea and viewpoint of the present invention. . The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.
[0030]
【The invention's effect】
As described above in detail, according to the hierarchically encoded video distribution system of the present invention, a receiving user terminal having a low processing capability such as a small mobile terminal flows on a multicast channel distributed over the Internet. Video stream composition and display processing can be performed.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a first embodiment according to the present invention.
FIG. 2 is a system configuration diagram of a second embodiment according to the present invention.
FIG. 3 is a system configuration diagram of a third embodiment according to the present invention.
FIG. 4 is a system configuration diagram of a fourth embodiment according to the present invention.
FIG. 5 is a system configuration diagram of a fifth embodiment according to the present invention.
FIG. 6 is a system configuration diagram of a sixth embodiment according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Server 2 Gateway 3 User terminal 11 Video stream hierarchy encoding function 12 Video stream multicast channel delivery function 13 Video stream multicast channel reception function 14 Multicast channel integration function 15 Video stream delivery function 16 Video stream reception function 17 Video stream hierarchy encoding decoding Function 18 Video stream display function 19 Desired integration layer number determination function 20 User management function 31 Server-gateway communication interface 32 Gateway-user terminal communication interface 33 Gateway-user terminal communication interface 34 Desired integration layer number notification interface 35 Desired integration Layer number notification internal interface

Claims (2)

Separation means for hierarchically separating the first video stream into m (m ≧ 1) second video streams, and distribution means for delivering each of the m second video streams using the first multicast channel A server having
Receiving means for receiving each of the second video streams using m first multicast channels, and the m second video streams based on the desired number of integrated layers received from a user terminal A gateway having integration means for integrating n (n ≧ 1) user terminals into respective third video streams, and distribution means for delivering the n third video streams;
Receiving means for receiving one third video stream; decoding means for decoding the third video stream; display means for displaying the decoded signal ; data processing capability for the user terminal; Calculating a desired bit rate from the available communication bandwidth and / or the communication bandwidth usage state of a plurality of operating communication applications, and a maximum bit rate at which the bit rate of the third video stream does not exceed the desired bit rate; A hierarchically encoded video distribution system comprising: a user terminal having a determination unit that determines the number of integrated layers and notifies the gateway of the number of integrated layers . Separating means for hierarchically separating the first video stream into m (m ≧ 1) second video streams, and the m second video streams based on the desired number of integrated layers presented from the user terminal A server having integration means for integrating n (n ≧ 1) user terminals into respective third video streams, and distribution means for distributing the n third video streams;
Receiving means for receiving one third video stream; decoding means for decoding the third video stream; display means for displaying the decoded signal ; data processing capability for the user terminal; Calculating a desired bit rate from the available communication bandwidth and / or the communication bandwidth usage state of a plurality of operating communication applications, and a maximum bit rate at which the bit rate of the third video stream does not exceed the desired bit rate; And a determining means for determining the number of integrated layers and notifying the server of the number of integrated layers .

Images