JP2013042457A - Moving image distribution device, moving image distribution system, moving image distribution method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress overflow or underflow of a buffer of a moving image distribution device even if no function is added to a terminal.SOLUTION: A moving image receiver 210 receives a moving image from a moving image providing device 100 via a first communication network 10. A buffer 240 temporarily stores the moving image data received by the moving image receiver 210. A moving image distributor 250 reads the moving image data from the buffer 240 and distributes the moving image data to a terminal 300 via the first communication network 10. A first bit rate measurement unit 220 measures a first bit rate being a bit rate when the moving image receiver 210 receives the moving image data. A second bit rate determination unit 230 determines a second bit rate being a bit rate when the moving image distributor 250 distributes the moving image data to the terminal 300 using the first bit rate.

Description

  The present invention relates to a moving image distribution device, a moving image distribution system, a moving image distribution method, and a program for distributing a moving image received from a moving image providing device to a terminal.

  With the development of communication technology using the Internet, moving images are distributed to terminals via the Internet. In order to distribute a moving image to a terminal, it is necessary to continue distributing moving image data to the terminal at an appropriate speed.

  On the other hand, the communication speed of the Internet changes every moment depending on how busy the line is. For this reason, there is a possibility that the terminal buffer overflows or underflows depending on the communication speed. On the other hand, Patent Document 1 describes the following technique. First, a terminal that receives a moving image instructs the moving image distribution apparatus to adjust the distribution rate of the moving image based on the buffer usage of the terminal. The moving image distribution apparatus adjusts the distribution rate of the moving image data in accordance with the received instruction.

JP 2006-148789 A

  When a moving image is distributed to a terminal via a communication network, the buffer of the moving image distribution device may overflow or underflow depending on the communication speed. It is conceivable to apply the technique of Patent Document 1 to suppress buffer overflow and underflow of the moving image distribution apparatus. However, in the technique of Patent Document 1, it is necessary to add a function to the terminal. On the other hand, some users do not want to add functions to their terminals.

  An object of the present invention is to provide a moving image distribution device, a moving image distribution system, a moving image distribution method, and a program capable of adjusting the distribution rate of a moving image without adding a function to a terminal.

According to the present invention, a moving image receiving means for receiving a moving image from the moving image providing apparatus via the first communication network;
Buffer means for temporarily storing the moving picture received by the moving picture receiving means;
A moving image distribution means for reading out the moving image from the buffer means and distributing the moving image to a terminal via the first communication network;
First bit rate measuring means for measuring a first bit rate which is a bit rate when the moving picture receiving means receives the moving picture;
Second bit rate determining means for determining a second bit rate, which is a bit rate when the moving image distribution means distributes the moving image to the terminal, using the first bit rate;
Is provided.

According to the present invention, a video providing device;
A video delivery device for receiving a video from the video providing device via the first communication network and delivering the received video to a terminal;
With
The video distribution device
Moving image receiving means for receiving the moving image from the moving image providing apparatus;
Buffer means for temporarily storing the moving picture received by the moving picture receiving means;
A moving image distribution means for reading out the moving image from the buffer means and distributing the moving image to a terminal via the first communication network;
First bit rate measuring means for measuring a first bit rate which is a bit rate when the moving picture receiving means receives the moving picture;
Second bit rate determining means for determining a second bit rate, which is a bit rate when the moving image distribution means distributes the moving image to the terminal, using the first bit rate;
Is provided.

According to the present invention, the video distribution device receives a video from the video providing device via the first communication network,
The video distribution device temporarily stores the received video in a buffer, and then distributes it to the terminal via the first communication network,
The bit rate when the moving image distribution device measures the first bit rate, which is the bit rate when receiving the moving image, and distributes the moving image to the terminal using the measured first bit rate. A moving image distribution method for determining the second bit rate is provided.

According to the present invention, there is provided a program for causing a computer to function as a video distribution device,
In the computer,
A function of receiving video from the video providing device via the first communication network;
A function of temporarily storing the received video in a buffer and then delivering it to the terminal via the first communication network;
A first bit rate that is a bit rate when receiving the moving image is measured, and a second bit rate that is a bit rate when the moving image is distributed to the terminal is determined using the measured first bit rate. Function to
A program for realizing the above is provided.

  ADVANTAGE OF THE INVENTION According to this invention, even if it does not add a function to a terminal, it can suppress that the buffer of a moving image delivery apparatus overflows or underflows.

It is a figure for demonstrating the structure and use environment of the moving image delivery system which concern on 1st Embodiment. It is a block diagram which shows the function structure of a moving image provision apparatus. It is a block diagram which shows the function structure of a moving image delivery apparatus. It is a flowchart explaining operation | movement of the moving image delivery apparatus when moving image data is delivered to a terminal. It is a block diagram which shows the function structure of the moving image delivery apparatus which concerns on 2nd Embodiment. It is a flowchart explaining operation | movement of the moving image delivery apparatus when moving image data is delivered to a terminal. It is a figure for demonstrating the use environment of the moving image delivery system which concerns on 3rd Embodiment. It is a figure which shows the structure of the image delivery system which concerns on 4th Embodiment. It is a block diagram which shows the function structure of a terminal. It is a block diagram which shows the function structure of the moving image delivery apparatus which concerns on 5th Embodiment. It is a flowchart which shows operation | movement of a moving image delivery apparatus.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same reference numerals are given to the same components, and the description will be omitted as appropriate.

(First embodiment)
FIG. 1 is a diagram for explaining a configuration and usage environment of a moving image distribution system according to the first embodiment. The moving image distribution system according to the present embodiment is a system for distributing a moving image to the terminal 300, and includes a moving image providing apparatus 100 and a moving image distribution apparatus 200. The moving image providing apparatus 100 provides a moving image distributed to the terminal 300. The moving image providing apparatus 100 generates image data as a live video, for example. The moving image distribution device 200 distributes the moving image provided by the moving image providing device 100 to at least one terminal 300.

  The moving image distribution device 200 receives a moving image from the moving image providing device 100 via the first communication network 10 and distributes the moving image to the terminal 300 via the first communication network 10. The first communication network 10 is the Internet, for example, and the terminal 300 is a fixed terminal such as a personal computer. When distributing a moving image to the terminal 300, the moving image distribution device 200 distributes the moving image to the terminal 300 using the bit rate when receiving the moving image from the moving image providing device 100 (hereinafter referred to as the first bit rate). Bit rate (hereinafter referred to as second bit rate) is determined. Therefore, it is possible to prevent the buffer of the moving image distribution device 200 from overflowing or underflowing without adding a function to the terminal 300.

  FIG. 2 is a block diagram illustrating a functional configuration of the moving image providing apparatus 100. The moving image providing apparatus 100 includes an imaging unit 110, an encoding unit 120, and a moving image transmission unit 130. The imaging unit 110 includes an imaging element such as a CCD, for example, and generates moving image data. The encoding unit 120 encodes the moving image data generated by the imaging unit 110 into a predetermined format. The moving image transmission unit 130 transmits the image data encoded by the encoding unit 120 to the moving image distribution apparatus 200 via the first communication network 10. When the moving image distribution system illustrated in FIG. 1 is a live image distribution system, the moving image providing apparatus 100 transmits the image data generated by the imaging unit 110 to the moving image distribution apparatus 200 on the spot.

  FIG. 3 is a block diagram illustrating a functional configuration of the moving image distribution device 200. The video distribution device 200 includes a video reception unit 210, a first bit rate measurement unit 220, a second bit rate determination unit 230, a buffer 240, and a video distribution unit 250.

  The moving image receiving unit 210 receives a moving image from the moving image providing apparatus 100 via the first communication network 10. The buffer 240 temporarily stores the moving image data received by the moving image receiving unit 210. The moving image distribution unit 250 reads moving image data from the buffer 240 and distributes the moving image data to the terminal 300 via the first communication network 10.

  The first bit rate measuring unit 220 measures a first bit rate that is a bit rate when the moving image receiving unit 210 receives moving image data. Second bit rate determining section 230 uses the first bit rate to determine a second bit rate that is a bit rate when moving picture distribution section 250 delivers moving picture data to terminal 300.

  Each component of the moving image distribution apparatus 200 shown in FIG. 3 is not a hardware unit configuration but a functional unit block. Each component of the moving image distribution apparatus 200 is centered on an arbitrary computer CPU, memory, a program for realizing the components shown in FIG. It is realized by any combination of hardware and software. There are various modifications of the implementation method and apparatus.

  FIG. 4 is a flowchart for explaining the operation of the moving image distribution device 200 when moving image data is distributed to the terminal 300. While the moving image receiving unit 210 receives moving image data, the moving image distribution apparatus 200 repeats the following operation (for example, at intervals of 1 minute). First, the first bit rate measuring unit 220 measures the first bit rate (step S10).

  Then, the second bit rate determination unit 230 determines the second bit rate using the first bit rate measured by the first bit rate measurement unit 220 (step S20). At this time, the second bit rate determination unit 230 may determine the second bit rate by using an average value of the first bit rates for a certain period immediately before. Specifically, when the first bit rate increases, the second bit rate determination unit 230 determines that the first communication network 10 is not congested and increases the second bit rate. Conversely, when the first bit rate decreases, the second bit rate determination unit 230 determines that the first communication network 10 is congested, and decreases the first bit rate. The second bit rate determining unit 230 may use the first bit rate measured by the first bit rate measuring unit 220 as it is as the second bit rate.

  Then, the moving image distribution unit 250 changes the second bit rate, which is the bit rate for distributing the moving image to the terminal 300, to the bit rate determined in step S20 (step S30).

  As described above, according to the present embodiment, the second bit rate determination unit 230 of the moving image distribution device 200 uses the bit rate (first bit rate) when the moving image reception unit 210 receives the moving image data. 250 determines a bit rate (second bit rate) when moving image data is read from the buffer 240 and distributed to the terminal 300. Therefore, it is possible to prevent the buffer of the moving image distribution device 200 from overflowing or underflowing without adding a function to the terminal 300.

(Second Embodiment)
FIG. 5 is a block diagram illustrating a functional configuration of the moving image distribution apparatus 200 according to the second embodiment. The moving image distribution system according to the present embodiment has the same configuration as the moving image distribution system according to the first embodiment, except for the function of the second bit rate determination unit 230 of the moving image distribution device 200.

  In the present embodiment, the second bit rate determination unit 230 determines the second bit rate using not only the first bit rate but also the data amount of the moving image data stored in the buffer 240. For example, the second bit rate determination unit 230 increases the second bit rate when the data amount of the moving image data stored in the buffer 240 exceeds the first reference value. Further, the second bit rate determination unit 230 decreases the second bit rate when the data amount of the moving image data stored in the buffer 240 falls below the second reference value that is lower than the first reference value. .

  FIG. 6 is a flowchart for explaining the operation of the moving image distribution device 200 when moving image data is distributed to the terminal 300. As in the first embodiment, while the moving image receiving unit 210 receives moving image data, the moving image distribution device 200 repeatedly performs the following operation. First, the first bit rate measuring unit 220 measures the first bit rate (step S10). The second bit rate determining unit 230 measures the amount of moving image data (or the remaining free space in the buffer) stored in the buffer 240 (step S15).

  Then, the second bit rate determination unit 230 determines the second bit rate using the first bit rate measured by the first bit rate measurement unit 220 and the amount of moving image data stored in the buffer 240 (step S20). ). Specifically, the amount of moving image data stored in the buffer 240 with respect to the bit rate amount determined based on the first bit rate measured by the first bit rate measuring unit 220 (for example, the first bit rate itself). The second bit rate amount is calculated by adding (or subtracting) the bit rate adjustment amount determined based on the above.

  For example, when the amount of moving image data stored in the buffer 240 is greater than or equal to the second reference value and less than or equal to the first reference value, the second bit rate determination unit 230 sets the bit rate adjustment amount to zero. The second bit rate determination unit 230 sets the bit rate adjustment amount to a positive value when the amount of moving image data stored in the buffer 240 exceeds the first reference value. The second bit rate determining unit 230 sets the bit rate adjustment amount to a negative value when the amount of moving image data stored in the buffer 240 becomes less than the second reference value. The magnitude of this adjustment amount may be determined based on the difference between the amount of moving image data stored in the buffer 240 and the first reference value (or the second reference value).

  Then, the moving image distribution unit 250 changes the second bit rate, which is the bit rate for distributing the moving image to the terminal 300, to the bit rate determined in step S20 (step S30).

  Also according to this embodiment, the same effect as that of the first embodiment can be obtained. In addition, since the second bit rate determination unit 230 corrects the second bit rate using the amount of moving image data stored in the buffer 240, the buffer of the moving image distribution device 200 overflows or underflows. Can be suppressed.

(Third embodiment)
FIG. 7 is a diagram for explaining a use environment of the moving image distribution system according to the third embodiment. In the present embodiment, the terminal 300 is connected to the second communication network 20. When the terminal 300 is a wireless communication terminal, the second communication network 20 is a wireless communication network. The second communication network 20 is connected to the first communication network 10 via the relay device 30. The moving image distribution device 200 distributes the moving image to the first communication network 10 by connecting to the second communication network 20 via the first communication network 10.

  Note that the configuration of the moving image distribution apparatus 200 is the same as that in the first embodiment or the second embodiment.

  According to this embodiment, the same effect as that of the first embodiment or the second embodiment can be obtained.

(Fourth embodiment)
FIG. 8 is a diagram illustrating a configuration of an image distribution system according to the fourth embodiment. The image distribution system according to the present embodiment includes a moving image distribution apparatus 200 and a plurality of terminals 400. The image distribution system according to the present embodiment is a conference system or a video transmission relay system that performs video and audio interaction, and the terminal 400 functions as a function of the video providing device 100 and the terminal 300 in the first to third embodiments. It has a function.

  FIG. 9 is a block diagram showing a functional configuration of terminal 400. The terminal 400 includes an imaging unit 410, an encoding unit 420, a moving image transmission unit 430, a moving image reception unit 440, a decoding unit 450, and a display unit 460. The imaging unit 410 has an imaging element such as a CCD, for example, and generates moving image data. The encoding unit 420 encodes the moving image data generated by the imaging unit 410 into a predetermined format. The video transmission unit 430 transmits the image data encoded by the encoding unit 420 to the video distribution device 200 via the first communication network 10.

  The moving image distribution device 200 transmits the moving image data received from a certain terminal 400 to another terminal 400. The moving image distribution device 200 has the same configuration as in the first to third embodiments.

  The moving image receiving unit 440 of the terminal 400 receives moving image data from the moving image distribution device 200. The decoding unit 450 decodes the moving image data received by the moving image receiving unit 440. Display unit 460 displays the moving image data decoded by decoding unit 450.

  Also according to the present embodiment, the same effects as those of the first to third embodiments can be obtained.

(Fifth embodiment)
FIG. 10 is a block diagram illustrating a functional configuration of the moving image distribution apparatus 200 according to the fifth embodiment. The moving image distribution system according to the present embodiment is, for example, a recording distribution system or a CGM (Consumer Generated Media) system. The moving image distribution system has the same configuration as that of any of the first to third embodiments, except that the moving image distribution device 200 includes a moving image storage unit 260 and a moving image reading unit 270.

  In the present embodiment, the moving image data received by the moving image receiving unit 210 is stored in the moving image storage unit 260. When the moving image reading unit 270 receives information indicating that distribution of moving image data is desired from the terminal 300, the moving image reading unit 270 reads the moving image data stored in the moving image storage unit 260. The moving image data read here is distributed by the moving image distribution unit 250 via the buffer 240.

  Note that the moving image reading unit 270 may read the moving image data from the beginning and distribute it to the moving image distribution unit 250 (start over), or read the moving image data halfway and distribute it to the moving image distribution unit 250 (time shift). Also good. The moving image reading unit 270 may read the moving image data already stored in the moving image storage unit 260 and distribute the moving image data to the moving image distribution unit 250 while the moving image storage unit 260 stores the moving image data. The moving image reading unit 270 may read the moving image data from the moving image storage unit 260 and distribute it to the moving image distribution unit 250 after the moving image storage unit 260 finishes storing the moving image data.

  In the present embodiment, the second bit rate determination unit 230 determines the second bit rate using the first bit rate at the timing when the moving image distribution unit 250 distributes the moving image data to the terminal 300. Note that the first bit rate when determining the second bit rate is the bit rate when the moving image receiving unit 210 receives moving image data different from the moving image data distributed by the moving image distribution unit 250. There is also.

  FIG. 11 is a flowchart showing the operation of the moving image distribution apparatus 200. The moving image receiving unit 210 receives moving image data from the moving image providing apparatus 100 at an arbitrary timing, and stores the received moving image data in the moving image storage unit 260.

  When the moving image reading unit 270 receives the moving image data distribution request from the terminal 300 via the first communication network 10, the moving image reading unit 270 reads the moving image data from the moving image storage unit 260 and temporarily stores the moving image data in the buffer 240. The data is distributed to the unit 250 (steps S4 to S8). At this time, the first bit rate measurement unit 220, the second bit rate determination unit 230, and the moving image distribution unit 250 control the second bit rate by performing the process shown in FIG. 4 or FIG. 6 (step S6). ).

  Also according to the present embodiment, the same effects as those of the first to third embodiments can be obtained.

  As mentioned above, although embodiment of this invention was described with reference to drawings, these are the illustrations of this invention, Various structures other than the above are also employable.

10 first communication network 20 second communication network 30 relay device 100 moving image providing device 110 imaging unit 120 encoding unit 130 moving image transmitting unit 200 moving image distribution device 210 moving image receiving unit 220 first bit rate measuring unit 230 second bit rate determining unit 240 Buffer 250 Movie distribution unit 260 Movie storage unit 270 Movie reading unit 300 Terminal 400 Terminal 410 Imaging unit 420 Encoding unit 430 Movie transmission unit 440 Movie reception unit 450 Decoding unit 460 Display unit

Claims (12)

Moving image receiving means for receiving a moving image from the moving image providing device via the first communication network;
Buffer means for temporarily storing the moving picture received by the moving picture receiving means;
A moving image distribution means for reading out the moving image from the buffer means and distributing the moving image to a terminal via the first communication network;
First bit rate measuring means for measuring a first bit rate which is a bit rate when the moving picture receiving means receives the moving picture;
Second bit rate determining means for determining a second bit rate, which is a bit rate when the moving image distribution means distributes the moving image to the terminal, using the first bit rate;
A video distribution device comprising: The video distribution device according to claim 1,
The moving image distribution device, wherein the second bit rate determining means determines the second bit rate using an average value of the first bit rates. In the moving image delivery apparatus according to claim 1 or 2,
The second bit rate determining means is a moving picture distribution device for further determining the second bit rate using the moving picture data amount stored in the buffer means. The video distribution device according to claim 3,
The second bit rate determining means includes
Increasing the second bit rate when the data amount of the moving image stored in the buffer means exceeds a first reference value;
A moving image distribution apparatus for decreasing the second bit rate when the data amount of the moving image stored in the buffer means falls below a second reference value lower than the first reference value. In the moving image delivery apparatus as described in any one of Claims 1-4,
Video storage means for storing the video received by the video reception means;
A moving image reading means for reading out the moving image from the moving image storage means when there is a distribution request for the moving image from the terminal;
With
The second bit rate determining means is a moving picture distribution apparatus that determines the second bit rate using the first bit rate at a timing when the moving picture distribution means distributes the moving picture to the terminal. In the moving image delivery apparatus according to any one of claims 1 to 5,
The terminal is connected to a second communication network;
The moving image distribution device, wherein the moving image distribution unit distributes the moving image to the terminal by connecting to the second communication network via the first communication network. The video distribution device according to claim 6,
The terminal is a wireless communication terminal;
The moving image distribution apparatus, wherein the second communication network is a wireless communication network. A video providing device;
A video delivery device for receiving a video from the video providing device via the first communication network and delivering the received video to a terminal;
With
The video distribution device
Moving image receiving means for receiving the moving image from the moving image providing apparatus;
Buffer means for temporarily storing the moving picture received by the moving picture receiving means;
A moving image distribution means for reading out the moving image from the buffer means and distributing the moving image to a terminal via the first communication network;
First bit rate measuring means for measuring a first bit rate which is a bit rate when the moving picture receiving means receives the moving picture;
Second bit rate determining means for determining a second bit rate, which is a bit rate when the moving image distribution means distributes the moving image to the terminal, using the first bit rate;
A video distribution system. The moving image distribution system according to claim 8,
The moving image providing apparatus includes:
A moving image distribution system including an imaging unit that generates a moving image by imaging. The video distribution system according to claim 9,
The moving image providing apparatus is a moving image distribution system that also serves as the terminal. The video distribution device receives the video from the video providing device via the first communication network,
The video distribution device temporarily stores the received video in a buffer, and then distributes it to the terminal via the first communication network,
The bit rate when the moving image distribution device measures the first bit rate, which is the bit rate when receiving the moving image, and distributes the moving image to the terminal using the measured first bit rate. A moving image distribution method for determining a second bit rate. A program for causing a computer to function as a video distribution device,
In the computer,
A function of receiving video from the video providing device via the first communication network;
A function of temporarily storing the received video in a buffer and then delivering it to the terminal via the first communication network;
A first bit rate that is a bit rate when receiving the moving image is measured, and a second bit rate that is a bit rate when the moving image is distributed to the terminal is determined using the measured first bit rate. Function to
A program that realizes

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