JP7057720B2 - Video stream receiver and program - Google Patents

Description

The present invention relates to a moving image stream receiving device and a program that receives a moving image stream distributed via the Internet or the like and reproduces the moving image.

Conventionally, a video distribution service using a network such as the Internet in which the transmission speed or delay appropriately changes is known. In this video distribution service, a video stream distribution request is transmitted from the video stream receiving device, which is a viewing player, to the distribution server, and the video stream is distributed from the distribution server to the video stream receiving device.

In a network such as the Internet, the time from the transmission of the video stream receiving device to the reception of the video stream varies. Therefore, in general, a reception buffer is prepared in the moving image stream receiving device to absorb the influence of time fluctuation (see, for example, Non-Patent Document 1).

As a result, the moving image stream receiving device can play the moving image without interruption by storing the received moving image stream in the reception buffer for a predetermined period without being affected by the time fluctuation caused by the network.

ISO / IEC 23009-1: 2014, MPEG-DASH 2nd Edition Specification

In general, in order to ensure that playback is not interrupted while switching videos, that is, in order to switch videos seamlessly, it is necessary to receive video streams before and after switching so as not to exhaust the reception buffer. Therefore, the time from receiving the instruction of the moving image switching operation by the user (viewer) to the actual switching of the moving image requires a time of about the reception buffer delay.

Also, in order to switch videos quickly, it is necessary to end the video that was being played so far, acquire a new video stream, and start playing. However, since the video playback is temporarily interrupted during the video switching, seamless video switching cannot be performed.

In order to perform seamless video switching, it is necessary to perform video switching at the random access point of the video stream. Furthermore, in order to shorten the video switching time, it is necessary to shorten the interval between random access points.

The random access point indicates the position of the key frame on the moving image stream, and the key frame is a frame that can be played by itself. Therefore, by shortening the interval between the random access points of the moving image stream, it is possible to shorten the time from the moving image switching operation to the next moving image switching point.

However, since the key frame is intra-coded, the bit rate increases when the image quality is kept the same, and the image quality deteriorates when the bit rate is kept the same. That is, when the interval between random access points is shortened in order to shorten the video switching time, there is a problem that the bit rate increases or the image quality deteriorates.

Therefore, the present invention has been made to solve the above problems, and an object thereof is a video stream receiving device and a program for seamlessly and high-speed video switching without shortening the interval between random access points of the video stream. Is to provide.

In order to solve the above problem, the video stream receiving device according to claim 1 receives the video stream delivered from the distribution server, and in the video stream receiving device that reproduces the video, the video stream at a predetermined random access point interval. A second reception processing unit that receives the video stream and saves the video stream in the first buffer, and a second that receives a switching stream having a random access point interval shorter than that of the video stream and stores the switching stream in the second buffer. The reception processing unit, the first decoder that reads and decodes the moving image stream from the first buffer, outputs the first moving image, reads the switching stream from the second buffer, decodes it, and outputs the second moving image. Of the first moving image output by the first decoder and the second moving image output by the second decoder, which requests the distribution of the second decoder and the moving image stream and the switching stream to the distribution server. A switching control unit that generates a switching signal for selecting either one of the above and one of the first moving image and the second moving image based on the switching signal generated by the switching control unit. The distribution server includes a switch for selecting and outputting as the moving image for playback, and the switching control unit distributes the moving image stream after switching and the switching stream after switching according to the switching operation by the user. At the timing of the random access point of the first key frame in the switching stream after switching, the switching signal for selecting the second moving image of the switching stream after switching is generated, and the switching signal is used. The switching signal for selecting the first moving image of the moving image stream after switching at the timing of the random access point of the first key frame in the moving image stream after playing the second moving image based on the above. Is generated, and the first moving image is reproduced based on the switching signal.

The video stream receiving device according to claim 2 is the video stream receiving device according to claim 1, wherein the switching control unit requests distribution of the video stream after switching according to a switching operation by the user. One request and a second request for requesting distribution of the switching stream after switching are generated, the first request and the second request are transmitted to the distribution server, and the moving image before switching currently being played back. When the timing for reproducing the random access point of the first key frame is determined for the switching stream after switching corresponding to the second request based on the playback time of the stream, the second moving image of the switching stream after switching is determined. The switching signal for selecting is generated, the second moving image is reproduced based on the switching signal, and then the first request is made based on the reproduction time of the switching stream after switching currently being reproduced. When the timing for reproducing the random access point of the first key frame is determined for the corresponding video stream after switching, the switching signal for selecting the first video of the video stream after switching is generated, and the switching signal is generated. The first moving image is reproduced based on the switching signal.

Further, the video stream receiving device according to claim 3 receives the video stream delivered from the distribution server, receives the video stream at a predetermined random access point interval in the video stream receiving device for playing the video, and receives the video. A first reception processing unit that saves the stream in the first buffer, and a stream with a random access point interval shorter than that of the moving image stream, which receives a low-rate switching stream delivered at a low rate and receives the low-rate switching stream. Is stored in the second buffer, and a high-rate switching stream that is a stream with a random access point interval shorter than the moving image stream and delivered at a higher rate than the low-rate switching stream is received, and the high-rate switching stream is received. A second reception processing unit that stores the above in the second buffer, a first decoder that reads and decodes the moving image stream from the first buffer, and outputs the first moving image, and the high rate switching stream from the second buffer. Alternatively, the second decoder that reads and decodes the low-rate switching stream and outputs the second moving image, and the distribution server are requested to deliver the moving image stream and the high-rate switching stream, and the first decoder outputs the stream. A switching control unit that generates a switching signal for selecting either one of the first moving image and the second moving image output by the second decoder, and the switching signal generated by the switching control unit. A switching device that selects one of the first moving image and the second moving image and outputs the moving image for playback is provided, and the switching control unit follows a switching operation by the user. Requests the distribution server to deliver the video stream after switching and the high-rate switching stream after switching, and at the timing of the random access point of the key frame in the high-rate switching stream after switching, the high after switching. The switching signal for selecting the second moving image of the rate switching stream is generated, the second moving image is played based on the switching signal, and then the random access of the first key frame in the moving image stream after switching is performed. At the timing of the point, the switching signal for selecting the first moving image of the moving image stream after switching is generated, the first moving image is played back based on the switching signal, and then the low rate after switching is performed. Distribution of the switching stream to the distribution server It is characterized by requesting to.

The video stream receiving device according to claim 4 is the video stream receiving device according to claim 3, wherein the switching control unit requests distribution of the video stream after switching according to a switching operation by the user. One request and a second request for requesting delivery of the high-rate switching stream after switching are generated, the first request and the second request are transmitted to the distribution server, and the current playback before switching is performed. When the timing for reproducing the random access point of the first key frame is determined for the high-rate switching stream after switching corresponding to the second request based on the playback time of the moving image stream, the high-rate switching after switching is performed. The switching signal for selecting the second moving image of the stream is generated, the second moving image is played back based on the switching signal, and then the playback time of the high-rate switching stream after switching currently being played is set. Based on this, when the timing for reproducing the random access point of the first key frame is determined for the video stream after switching corresponding to the first request, the first video of the video stream after switching is selected. The switching signal is generated, the first moving image is played back based on the switching signal, and then a third request for requesting distribution of the low-rate switching stream after switching is generated, and the third request is made. It is characterized in that it is transmitted to the distribution server.

The program according to claim 5 is characterized in that the computer functions as the moving image stream receiving device according to any one of claims 1 to 4.

As described above, according to the present invention, it is possible to perform video switching seamlessly and at high speed without shortening the interval between random access points of the video stream.

It is a block diagram which shows the whole configuration example of the moving image distribution system including the moving image stream receiving apparatus of Example 1, and the configuration example of the moving image stream receiving apparatus. It is a flowchart which shows the processing example of the switching control part in Example 1. FIG. It is a time chart explaining the timing of a signal in Example 1. FIG. It is a block diagram which shows the whole configuration example of the moving image distribution system including the moving image stream receiving apparatus of Example 2, and the configuration example of the moving image stream receiving apparatus. It is a flowchart which shows the processing example of the switching control part in Example 2. It is a time chart explaining the timing of a signal in Example 2. FIG.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. The moving image stream receiving device of the first embodiment described below receives the moving image stream S1 and also receives the switching stream K1 having a short random access point interval, and reproduces the moving image stream S1. Then, the moving image stream receiving device receives and reproduces the switched switching stream K2 at the time of moving image switching, and then receives and reproduces the switched moving image stream S2. As a result, moving images can be switched seamlessly and at high speed without shortening the intervals between the random access points of the moving image streams S1 and S2.

Further, the moving image stream receiving device of the second embodiment receives the moving image stream S1 at normal times, receives the low rate switching stream K1-L having a short random access point interval and low image quality, and reproduces the moving image stream S1. do. Then, at the time of moving image switching, the moving image stream receiving device receives and reproduces the high-rate switching stream K2-H having a short random access point interval and high image quality after switching. After that, the moving image stream receiving device receives and reproduces the switched moving image stream S2. As a result, in addition to the effect of Example 1, deterioration of image quality can be further suppressed.

[Example 1]
First, Example 1 will be described. As described above, the moving image stream receiving device of the first embodiment receives the moving image stream S1 and also receives the switching stream K1 having a short random access point interval, and reproduces the moving image stream S1. Then, the moving image stream receiving device receives and reproduces the switched switching stream K2 at the time of moving image switching, and then receives and reproduces the switched moving image stream S2.

FIG. 1 is a block diagram showing an overall configuration example of a video distribution system including the video stream receiving device of the first embodiment and a configuration example of the video stream receiving device. This video distribution system includes a distribution server 1 and a video stream receiving device 2. The distribution server 1 and the video stream receiving device 2 are connected by a network such as the Internet in which the transmission band and the transmission delay vary.

(Distribution server 1)
The distribution server 1 is a server that distributes the video stream S and the switching stream K in response to a request from the video stream receiving device 2.

Specifically, the distribution server 1 receives the moving image stream S and the switching stream K from an encoder or the like (not shown), or reads the moving image stream S and the switching stream K from a recording device (not shown). Then, the distribution server 1 holds a plurality of types of moving image streams S and switching streams K corresponding to the respective moving image streams S.

The distribution server 1 receives the content switching instruction from the moving image stream receiving device 2, and identifies the moving image stream S or the switching stream K in response to the content switching instruction. Then, the distribution server 1 transmits the moving image stream S or the switching stream K in response to the content switching instruction to the moving image stream receiving device 2.

The moving image stream S is a stream of moving image contents, and is reproduced by a device 14 described later provided in the moving image stream receiving device 2. Further, the switching stream K is a stream of the same moving image content as the moving image stream S, and is played back by the device 14 described later when the moving image is switched.

The random access point interval of the switching stream K is shorter than that of the moving stream S. As a result, the moving image stream receiving device 2 can reproduce the switching stream K in a shorter time than the switching moving image stream S by receiving the switching stream K of the switching moving image content at the time of moving the moving image. .. Therefore, by using the switching stream K having a short random access point interval, it is possible to perform moving image switching at high speed. Details will be described later.

(Video stream receiver 2)
The video stream receiving device 2 is a viewing player that switches the distributed video according to the switching operation of the user who is the viewer. The moving image stream receiving device 2 always receives the moving image stream S of the moving image content and also receives the switching stream K of the same moving image content. Then, the moving image stream receiving device 2 reproduces the moving image stream S at the normal time, reproduces the switching stream K after the switching at the time of switching, and then reproduces the moving image stream S after the switching.

The moving image stream receiving device 2 includes reception processing units 10-1, 10-2, decoders 11-1 and 11-2, a switching control unit 12, a switching device 13, a device 14, and a clock 15. The reception processing units 10-1 and 10-2 include buffers 20-1 and 20-2, respectively.

The reception processing unit 10-1 receives the moving image stream S in response to the content switching request from the distribution server 1, and temporarily stores the moving image stream S in the buffer 20-1. The moving image stream S stored in the buffer 20-1 is read out to the decoder 11-1 in accordance with the reproduction timing by the device 14.

The decoder 11-1 reads the moving image stream S from the buffer 20-1 in accordance with the reproduction timing by the device 14, decodes the moving image stream S, and outputs the decoded moving image S'to the switch 13.

The reception processing unit 10-2 receives the switching stream K in response to the content switching request from the distribution server 1, and temporarily stores the switching stream K in the buffer 20-2. The switching stream K stored in the buffer 20-2 is read out to the decoder 11-2 in accordance with the reproduction timing by the device 14.

The decoder 11-2 reads the switching stream K from the buffer 20-2 in accordance with the reproduction timing by the device 14, decodes the switching stream K, and outputs the decoded moving image K'to the switch 13.

The switching control unit 12 inputs time information from the clock 15, and manages the playback time of the moving image S'(or moving image K') to be reproduced on the device 14 by using the time information. Further, the switching control unit 12 manages the random access point interval of the moving image stream S and the random access point interval of the switching stream K.

When the user performs a video content switching operation, the switching control unit 12 generates a content switching request, outputs the content switching request to a transmission processing unit (not shown), and the transmission processing unit sends the content switching request to the distribution server 1. Send.

Further, the switching control unit 12 generates a switching signal from the moving image S'to the moving image K'or a switching signal from the moving image K'to the moving image S'at a predetermined timing according to the switching operation by the user, and the switching signal. Is output to the switch 13.

Specifically, the switching control unit 12 generates a content switching request requesting transmission of the switching stream K after switching according to the switching operation by the user, and also generates a content switching request requesting transmission of the video stream S after switching. To generate. Then, the switching control unit 12 outputs these content switching requests to a transmission processing unit (not shown), and the transmission processing unit transmits these content switching requests to the distribution server 1.

When the switching control unit 12 determines the reproduction start timing of the switching stream K after switching, it generates a switching signal from the moving image S'to the moving image K'and outputs the switching signal to the switching device 13. As a result, the switching device 13 switches from the moving image S'before switching to the moving image K'after switching, and the device 14 reproduces the moving image K'after switching.

When the switching control unit 12 determines the reproduction start timing of the moving image stream S after switching, the switching control unit 12 generates a switching signal from the moving image K'to the moving image S'and outputs the switching signal to the switching device 13. As a result, the switching device 13 switches from the switched moving image K'to the switched moving image S', and the device 14 reproduces the switched moving image S'. The details of the switching control unit 12 will be described later.

The switch 13 inputs a moving image S'from the decoder 11-1, a moving image K'from the decoder 11-2, and further inputs a switching signal from the switching control unit 12.

When the switching signal indicates switching from the moving image S'to the moving image K', the switching device 13 selects (switches to) the moving image K'and outputs the moving image K'to the device 14. On the other hand, when the switching signal indicates switching from the moving image K'to the moving image S', the switching device 13 selects the moving image S'and outputs the moving image S'to the device 14.

The device 14 inputs a moving image S'or a moving image K'from the switch 13 and reproduces the input moving image S'or the moving image K'. For example, the device 14 is a display device such as a monitor, a speaker that outputs sound, and the like. The clock 15 is a timer that manages the time information of reproduction, and outputs the time information to the switching control unit 12.

(Switching control unit 12)
Next, the switching control unit 12 of the moving image stream receiving device 2 shown in FIG. 1 will be described in detail. FIG. 2 is a flowchart showing a processing example of the switching control unit 12 in the first embodiment, and FIG. 3 is a time chart illustrating the timing of the signal in the first embodiment.

The switching control unit 12 manages the random access point interval of the moving image stream S and the random access point interval of the switching stream K in advance.

Specifically, the switching control unit 12 transmits a manifest file request requesting transmission of the manifest file from a transmission processing unit (not shown) to the distribution server 1 when the power of the video stream receiving device 2 is turned on or periodically. .. Then, the moving image stream receiving device 2 receives the manifest file transmitted from the distribution server 1.

The switching control unit 12 extracts data of the random access point interval of the moving image stream S and the random access point interval of the switching stream K from the manifest file, and manages them by storing them in a memory or the like. In this case, the random access point interval of the switching stream K is shorter than the random access point interval of the moving image stream S.

First, it is assumed that the moving image stream receiving device 2 receives the moving image stream S1 and the switching stream K1 at normal times. As shown in FIG. 3, the video stream S1 is read from the buffer 20-1 by the decoder 11-1 and decoded, and the switching stream K1 is read from the buffer 20-2 by the decoder 11-2, decoded, and switched. It is assumed that the moving image stream S1 is output from the device 13 ((a) in FIG. 3). That is, the moving image stream S1 is being played back on the device 14.

Further, the switching control unit 12 manages the reproduction time of the moving image stream S1 by using the time information input from the clock 15, that is, manages the key frame time of the moving image stream S1.

With reference to FIG. 2, the switching control unit 12 determines whether or not there is an input for a switching operation by the user (step S201). When the switching control unit 12 determines in step S201 that there is an input for a switching operation by the user (step S201: Y), the switching control unit 12 generates a content switching request requesting transmission of the video stream S2 and the switching stream K2 after switching. (Step S202).

The switching control unit 12 transmits the content switching request of the switching stream K2 from the transmission processing unit (not shown) to the distribution server 1 when the buffer 20-2 is free, and when the buffer 20-1 is free, the moving image stream. The content switching request of S2 is transmitted from the transmission processing unit (not shown) to the distribution server 1 (step S203).

On the other hand, when the switching control unit 12 determines in step S201 that there is no input of the switching operation by the user (step S201: N), the switching control unit 12 waits until the input of the switching operation is input.

Specifically, the switching control unit 12 follows the switching operation by the user, and the first key frame of the switching stream K2 is based on the random access point interval of the video stream S and the random access point interval of the switching stream K that are managed. Is determined (the subsequent time based on the current playback time of the moving image stream S1, the playback start timing). Further, the switching control unit 12 similarly determines the reproduction start timing for reproducing the first key frame of the moving image stream S2.

In addition, the switching control unit 12 determines in advance each playback start timing based on the time when there is a switching operation by the user, based on the random access point interval of the moving image stream S and the random access point interval of the switching stream K. You may try to keep it.

For example, it is assumed that the random access point interval of the moving image stream S is 10 seconds and the random access point interval of the switching stream K is 1 second. The switching control unit 12 determines that the reproduction start timing for reproducing the first key frame of the switching stream K2 is 11 seconds after the present time according to the switching operation by the user ((b) in FIG. 3). Further, the switching control unit 12 determines that the reproduction start timing for reproducing the first key frame of the moving image stream S2 is 20 seconds after the present time (9 seconds after the reproduction start timing of the switching stream K2).

Then, the switching control unit 12 generates and transmits a content switching request requesting transmission of the switching stream K2 in which the time code is set so that the first key frame can be played 11 seconds after the current time (FIG. FIG. 3 (c)). The switching stream K2 including such a time code reproduces the first key frame at the time of the time code (at the reproduction start timing).

Further, the switching control unit 12 generates and transmits a content switching request requesting transmission of the video stream S2 in which the time code is set so that the first key frame can be played 20 seconds after the current time (FIG. FIG. 3 (d)). The moving image stream S2 including such a time code reproduces the first key frame at the time of the time code (at the reproduction start timing).

When the content switching request of the switching stream K2 is transmitted by the process of step S203 of FIG. 2, the switching stream K2 is distributed from the distribution server 1. The switching control unit 12 determines whether or not the playback start timing of the switching stream K2 has arrived (step S204).

Specifically, the switching control unit 12 compares the playback start timing determined when generating the content switching request of the switching stream K2 with the playback time managed by itself, and sets the playback time to the playback start timing. Determine if it has arrived.

When the switching control unit 12 determines in step S204 that the reproduction start timing of the switching stream K2 has arrived (step S204: Y), the switching control unit 12 generates a switching signal to the switching stream K side, and the switching signal is used by the switching device 13. Is output to (step S205). As a result, the switching stream K2 is played back on the device 14. The switching control unit 12 manages the reproduction time of the switching stream K2 by using the time information input from the clock 15.

In the above example, the switching stream K2 is stored in the buffer 20-2 and decoded by the decoder 11-2 ((e) in FIG. 3). The switching control unit 12 generates a switching signal for switching to the switching stream K2 when it is determined that the switching stream K2 has arrived at the playback start timing of 11 seconds based on the playback time of the managed moving image stream S1. ((F) in FIG. 3), and this is output to the switch 13. As a result, the switching device 13 outputs the switching stream K2 ((g) in FIG. 3), and the switching stream K2 is reproduced by the device 14.

On the other hand, when the switching control unit 12 determines in step S204 that the reproduction start timing of the switching stream K2 has not arrived (step S204: N), the switching control unit 12 waits until that timing.

When the content switching request of the moving image stream S2 is transmitted by the process of step S203 of FIG. 2, the moving image stream S2 is transmitted from the distribution server 1. The switching control unit 12 determines whether or not the playback start timing of the moving image stream S2 has arrived (step S206).

Specifically, the switching control unit 12 compares the reproduction start timing of the moving image stream S2 with the reproduction time managed by itself, and determines whether or not the reproduction time has reached the reproduction start timing.

When the switching control unit 12 determines in step S206 that the reproduction start timing of the moving image stream S2 has arrived (step S206: Y), the switching control unit 12 generates a switching signal to the moving image stream S side, and the switching signal is used as the switching device 13. Is output to (step S207). As a result, the moving image stream S2 is played back on the device 14.

In the above example, the moving image stream S2 is stored in the buffer 20-1 and decoded by the decoder 11-1 ((h) in FIG. 3). When the switching control unit 12 determines that the video stream S2 has arrived at the playback start timing of 20 seconds (9 seconds from the playback start timing of the switching stream K2) based on the playback time of the managed switching stream K2. , A switching signal for switching to the moving image stream S2 is generated ((i) in FIG. 3), and this is output to the switching device 13. As a result, the switch 13 outputs the moving image stream S2 ((j) in FIG. 3), and the moving image stream S2 is played back on the device 14.

On the other hand, when the switching control unit 12 determines in step S206 that the reproduction start timing of the moving image stream S2 has not arrived (step S206: N), the switching control unit 12 waits until that timing.

The switching control unit 12 repeats the processes of steps S201 to S207 shown in FIG. 2 unless the process is completed (step S208).

As described above, according to the video stream receiving device 2 of the first embodiment, the switching control unit 12 follows the switching operation by the user, and has a random access point interval of the video stream S and a switching stream K shorter than the video stream S. Based on the random access point interval, the reproduction start timing of the first key frame in the switching stream K2 and the reproduction start timing of the first key frame in the moving image stream S2 are determined.

The switching control unit 12 generates a content switching request requesting transmission of the switching stream K2 and content switching requesting transmission of the moving image stream S2 so that the first key frame can be played back at each playback start timing. Generate requests and send them.

When the switching control unit 12 determines that the reproduction start timing of the switching stream K2 has arrived based on the managed reproduction time, the switching control unit 12 outputs a switching signal to the switching device 13 and causes the device 14 to reproduce the switching stream K2. ..

After that, when the switching control unit 12 determines that the playback start timing of the video stream S2 has arrived based on the managed playback time, the switching control unit 12 outputs a switching signal to the switch 13 and outputs the video stream S2 to the device 14. Let it play.

As a result, according to the switching operation by the user, first, the moving image stream S1 before switching is switched to the switching stream K2 after switching, and then the switching stream K2 is switched to the moving image stream S2 after switching.

Since the random access point interval of the switching stream K is shorter than that of the video stream S, switching from the video stream S1 to the switching stream K2 is faster than switching directly from the video stream S1 to the video stream S2. It can be realized. In this case, since the switching is performed at the random access point which is a key frame, seamless switching is possible.

Therefore, the moving image can be switched seamlessly and at high speed without shortening the interval between the random access points of the moving image stream S.

[Example 2]
Next, Example 2 will be described. As described above, the moving image stream receiving device of the second embodiment receives the moving image stream S1 at normal times, and also receives the low-rate switching stream K1-L having a short random access point interval and low image quality, and the moving image stream S1. To play. Then, at the time of moving image switching, the moving image stream receiving device receives and reproduces the high-rate switching stream K2-H having a short random access point interval and high image quality after switching. After that, the moving image stream receiving device receives and reproduces the switched moving image stream S2. In Example 2, in addition to the effect of Example 1, deterioration of image quality can be further suppressed.

FIG. 4 is a block diagram showing an overall configuration example of a video distribution system including the video stream receiving device of the second embodiment and a configuration example of the video stream receiving device. This video distribution system includes a distribution server 3 and a video stream receiving device 4. The distribution server 3 and the video stream receiving device 4 are connected by a network such as the Internet in which the transmission band and the transmission delay fluctuate, as in the first embodiment shown in FIG.

(Distribution server 3)
The distribution server 3 is a server that distributes the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH in response to a request from the moving image stream receiving device 4.

Specifically, the distribution server 3 receives the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH from an encoder or the like (not shown), or the moving image stream S, low from a recording device (not shown). Read the rate switching stream KL and the high rate switching stream KH. Then, the distribution server 3 holds a plurality of types of moving image streams S, and low-rate switching streams KL and high-rate switching streams KH corresponding to the respective moving image streams S.

The distribution server 3 receives the content switching instruction from the moving image stream receiving device 4, and identifies the moving image stream S, the low rate switching stream KL, or the high rate switching stream KH in response to the content switching instruction. Then, the distribution server 3 transmits the moving image stream S, the low rate switching stream KL, or the high rate switching stream KH in response to the content switching instruction to the moving image stream receiving device 4.

The moving image stream S is a stream of moving image contents, and is played by the device 14 provided in the moving image stream receiving device 4. Further, the low rate switching stream KL is a stream of the same moving image content as the moving image stream S, and is transmitted at a low rate, so that the image quality is low. Further, the high rate switching stream KH is a stream of the same moving image content as the moving image stream S, has high image quality because it is transmitted at a high rate, and is reproduced by the device 14 at the time of moving image switching.

It is assumed that the random access point intervals of the low-rate switching stream KL and the high-rate switching stream KH are shorter than those of the moving image stream S. As a result, the video stream receiving device 4 receives the high-rate switching stream KH after switching at the time of video switching, so that the high-rate switching stream KH can be switched in a shorter time than the video stream S after switching. Can be played.

Therefore, by using the high-rate switching stream KH with a short random access point interval, it is possible to perform moving image switching at high speed. Further, since the high-rate switching stream KH is played at the time of moving image switching, high-quality reproduction can be realized not only at the normal time but also at the time of moving image switching. Further, in the normal state, the bit rate can be suppressed by receiving the low rate switching stream KL instead of the high rate switching stream KH. Details will be described later.

(Video stream receiver 4)
Similar to the first embodiment shown in FIG. 1, the moving image stream receiving device 4 is a viewing player that switches distributed moving images according to a switching operation of a user who is a viewer. The moving image stream receiving device 4 always receives the moving image stream S of the moving image content and also receives the low rate switching stream KL of the same moving image content. Then, the moving image stream receiving device 4 normally reproduces the moving image stream S, receives and reproduces the high-rate switching stream KH after switching at the time of switching, and then reproduces the moving image stream S after switching. ..

The moving image stream receiving device 4 includes reception processing units 10-1, 10-2, decoders 11-1 and 11-2, a switching control unit 16, a switching device 13, a device 14, and a clock 15. The reception processing units 10-1 and 10-2 include buffers 20-1 and 20-2, respectively.

Comparing the video stream receiving device 2 of the first embodiment shown in FIG. 1 with the video stream receiving device 4, both video stream receiving devices 2 and 4 have reception processing units 10-1, 10-2 and a decoder 11-. It is common in that it includes 1, 11-2, a switch 13, a device 14, and a clock 15. On the other hand, the moving image stream receiving device 4 is different in that it includes a switching control unit 16 different from the switching control unit 12 of the moving image stream receiving device 2.

The reception processing units 10-1, 10-2, decoders 11-1, 11-2, switch 13, device 14, and clock 15 are the same as those in the first embodiment shown in FIG. 1, and thus a detailed description thereof will be given here. Is omitted.

In the second embodiment, the reception processing unit 10-2 receives the low rate switching stream KL or the high rate switching stream KH in response to the content switching request from the distribution server 3, and the low rate switching stream KL. Alternatively, the high rate switching stream KH is temporarily stored in the buffer 20-2. The low-rate switching stream KL or the high-rate switching stream KH stored in the buffer 20-2 is read out to the decoder 11-2 in accordance with the reproduction timing by the device 14.

The decoder 11-2 decodes the low rate switching stream KL or the high rate switching stream KH, and outputs the decoded moving image K'to the switch 13.

The switching control unit 16 inputs time information from the clock 15, and manages the time of the moving image S'(or moving image K') to be played back on the device 14 by using the time information. Further, the switching control unit 16 manages the respective random access point intervals in the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH.

When the user has an operation to switch the moving image content, the switching control unit 16 generates a content switching request and transmits the content switching request from a transmission processing unit (not shown) to the distribution server 3.

Further, the switching control unit 16 generates a switching signal from the moving image S'to the moving image K'or a switching signal from the moving image K'to the moving image S'at a predetermined timing according to the switching operation by the user, and the switching signal. Is output to the switch 13.

Specifically, the switching control unit 16 generates a content switching request requesting transmission of the high-rate switching stream KH after switching according to the switching operation by the user, and requests transmission of the moving image stream S after switching. Generate a content switching request. Then, the switching control unit 16 transmits these content switching requests from a transmission processing unit (not shown) to the distribution server 3.

When the switching control unit 16 determines the reproduction start timing of the high-rate switching stream KH after switching, it generates a switching signal from the moving image S'to the moving image K'and outputs the switching signal to the switching device 13. As a result, the switching device 13 switches from the moving image S'before switching to the moving image K'after switching, and the device 14 reproduces the moving image K'after switching.

When the switching control unit 16 determines the reproduction start timing of the moving image stream S after switching, the switching control unit 16 generates a switching signal from the moving image K'to the moving image S'and outputs the switching signal to the switching device 13. As a result, the switching device 13 switches from the switched moving image K'to the switched moving image S', and the device 14 reproduces the switched moving image S'.

(Switching control unit 16)
Next, the switching control unit 16 of the moving image stream receiving device 4 shown in FIG. 4 will be described in detail. FIG. 5 is a flowchart showing a processing example of the switching control unit 16 in the second embodiment, and FIG. 6 is a time chart illustrating the timing of the signal in the second embodiment.

Similar to the first embodiment shown in FIG. 1, the switching control unit 16 manages each random access point interval in the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH in advance. There is. In this case, the random access point interval of the low rate switching stream KL and the high rate switching stream HK is shorter than the random access point interval of the moving image stream S.

First, it is assumed that the moving image stream receiving device 4 normally receives the moving image stream S1 and the low rate switching stream K1-L. As shown in FIG. 6, the video stream S1 is read from the buffer 20-1 by the decoder 11-1 and decoded, and the low rate switching stream K1-L is read from the buffer 20-2 by the decoder 11-2. It is assumed that the video stream S1 is decoded and output from the switch 13 ((a) in FIG. 6). That is, the moving image stream S1 is being played back on the device 14.

Further, the switching control unit 16 manages the playback time of the moving image stream S1 by using the time information input from the clock 15 as in the switching control unit 12 shown in FIG. 1, that is, the moving image stream S1. It manages the time of key frames.

With reference to FIG. 5, the switching control unit 16 determines whether or not there is an input for a switching operation by the user (step S501). When the switching control unit 16 determines in step S501 that there is an input for a switching operation by the user (step S501: Y), the switching control unit 16 generates a content switching request requesting transmission of the moving image stream S2 and the high rate switching stream K2-H. (Step S502).

When the buffer 20-2 has a vacancy, the switching control unit 16 transmits a content switching request of the high rate switching stream K2-H from a transmission processing unit (not shown) to the distribution server 3, and the buffer 20-1 has a vacancy. In this case, the content switching request of the moving image stream S2 is transmitted from the transmission processing unit (not shown) to the distribution server 3 (step S503).

On the other hand, when the switching control unit 16 determines in step S501 that there is no input of the switching operation by the user (step S501: N), the switching control unit 16 waits until the input of the switching operation is input.

Specifically, the switching control unit 16 switches to a high rate based on the respective random access point intervals in the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH according to the switching operation by the user. Determines the playback start timing for playing the first key frame of stream K2-H. Further, the switching control unit 16 similarly determines the reproduction start timing for reproducing the first key frame of the moving image stream S2.

The switching control unit 16 is based on the random access point intervals of the moving image stream S, the low rate switching stream KL, and the high rate switching stream KH, respectively, based on the time when there is a switching operation by the user. The reproduction start timing of the above may be determined in advance.

Similar to the above example, it is assumed that the random access point interval of the moving image stream S is 10 seconds, and the random access point interval of the low rate switching stream KL and the high rate switching stream HK is 1 second.

The switching control unit 16 determines that the playback start timing for reproducing the first key frame of the high-rate switching stream K2-H is 11 seconds after the current time according to the switching operation by the user ((b) in FIG. 6). .. Further, the switching control unit 16 determines that the reproduction start timing for reproducing the first key frame of the moving image stream S2 is 20 seconds after the present time.

Then, the switching control unit 16 generates a content switching request requesting transmission of the high-rate switching stream K2-H in which the time code is set so that the first key frame can be played 11 seconds after the current time, and this is generated. It is transmitted ((c) in FIG. 6). The high rate switching stream K2-H including such a time code reproduces the first key frame at the time of the time code.

Further, the switching control unit 16 generates and transmits a content switching request requesting transmission of the video stream S2 in which the time code is set so that the first key frame can be played 20 seconds after the current time (FIG. FIG. 6 (d)). The moving image stream S2 including such a time code plays the first key frame at the time of the time code.

When the content switching request of the high rate switching stream K2-H is transmitted by the process of step S503 of FIG. 5, the high rate switching stream K2-H is transmitted from the distribution server 3. The switching control unit 16 determines whether or not the high rate switching stream K2-H has arrived at the reproduction start timing (step S504).

Specifically, the switching control unit 16 compares the playback start timing determined when generating the content switching request for the high-rate switching stream K2-H with the playback time managed by itself, and the playback time. It is determined whether or not the playback start timing has arrived.

When the switching control unit 16 determines in step S504 that the reproduction start timing of the high rate switching stream K2-H has arrived (step S504: Y), the switching control unit 16 generates a switching signal to the switching stream K side and the switching signal. Is output to the switch 13 (step S505). As a result, the high rate switching stream K2-H is played back on the device 14. The switching control unit 16 manages the reproduction time of the high-rate switching stream K2-H by using the time information input from the clock 15.

In the above example, the high rate switching stream K2-H is stored in the buffer 20-2 and decoded by the decoder 11-2 (FIG. 6 (e)). When the switching control unit 16 determines that the high-rate switching stream K2-H has arrived at 11 seconds, which is the playback start timing of the high-rate switching stream K2-H, based on the playback time of the managed moving image stream S1, the high-rate switching stream K2-H A switching signal for switching to is generated ((f) in FIG. 6), and this is output to the switch 13. As a result, the switch 13 outputs the high-rate switching stream K2-H ((g) in FIG. 6), and the high-rate switching stream K2-H is reproduced by the device 14.

On the other hand, when the switching control unit 16 determines in step S504 that the reproduction start timing of the high rate switching stream K2-H has not arrived (step S504: N), the switching control unit 16 waits until that timing.

When the content switching request of the moving image stream S2 is transmitted by the process of step S503 of FIG. 5, the moving image stream S2 is transmitted from the distribution server 3. The switching control unit 16 determines whether or not the playback start timing of the moving image stream S2 has arrived (step S506).

Specifically, the switching control unit 16 compares the playback start timing determined when generating the content switching request of the video stream S2 with the playback time managed by itself, and sets the playback time to the playback start timing. Determine if it has arrived.

When the switching control unit 16 determines in step S506 that the reproduction start timing of the moving image stream S2 has arrived (step S506: Y), the switching control unit 16 generates a switching signal to the moving image stream S side and converts the switching signal into the switching device 13. Is output to (step S507). As a result, the moving image stream S2 is played back on the device 14.

In the above example, the moving image stream S2 is stored in the buffer 20-1 and decoded by the decoder 11-1 ((h) in FIG. 6). The switching control unit 16 has 20 seconds (9 seconds from the playback start timing of the high rate switching stream K2-H), which is the playback start timing of the moving image stream S2, based on the playback time of the managed high rate switching stream K2-H. ) Is determined, a switching signal for switching to the moving image stream S2 is generated ((i) in FIG. 6), and this is output to the switch 13. As a result, the switch 13 outputs the moving image stream S2 ((j) in FIG. 6), and the moving image stream S2 is played back on the device 14.

On the other hand, when the switching control unit 16 determines in step S506 that the reproduction start timing of the moving image stream S2 has not arrived (step S506: N), the switching control unit 16 waits until that timing.

The switching control unit 16 shifts from step S507 to generate a content switching request requesting transmission of the low-rate switching stream K2-L (step S508).

When the buffer 20-2 has a vacancy, the switching control unit 16 transmits a content switching request for the low-rate switching stream K2-L from a transmission processing unit (not shown) to the distribution server 3 (step S509). As a result, the low rate switching stream K2-L is transmitted from the distribution server 3.

In the above example, when the content switching request of the low rate switching stream K2-L is transmitted ((k) in FIG. 6), the low rate switching stream K2-L is transmitted from the distribution server 3. Then, the low rate switching stream K2-L is stored in the buffer 20-2 and decoded by the decoder 11-2 ((l) in FIG. 6). Since the low-rate switching stream K2-L is decoded but cannot be switched by the switch 13, the device 14 does not reproduce the low-rate switching stream K2-L.

The switching control unit 16 repeats the processes of steps S501 to S509 shown in FIG. 5 unless the process is completed (step S510).

As described above, according to the video stream receiving device 4 of the second embodiment, the switching control unit 16 follows the switching operation by the user, the random access point interval of the video stream S, and the high rate switching stream shorter than the video stream S. Based on the random access point intervals of the KH and the low rate switching stream KL, the playback start timing of the first keyframe in the high rate switching stream K2-H and the playback start timing of the first keyframe in the video stream S2 are set. decide.

The switching control unit 16 generates a content switching request requesting transmission of the high-rate switching stream K2-H and transmits the moving image stream S2 so that the first key frame can be reproduced at each playback start timing. Generates the requested content switching request and sends them.

When the switching control unit 16 determines that the reproduction start timing of the high rate switching stream K2-H has arrived based on the managed reproduction time, the switching control unit 16 outputs a switching signal to the switching device 13 and outputs the switching signal to the device 14 at a high rate. Play the switching stream K2-H.

After that, when the switching control unit 16 determines that the playback start timing of the video stream S2 has arrived based on the managed playback time, the switching control unit 16 outputs a switching signal to the switch 13 and outputs the video stream S2 to the device 14. Let it play.

The switching control unit 16 generates a content switching request requesting transmission of the low-rate switching stream K2-L, and transmits this.

As a result, according to the switching operation by the user, first, the moving image stream S1 before switching is switched to the high rate switching stream K2-H after switching, and then the high rate switching stream K2-H is switched to the moving image stream S2 after switching.

Since the random access point interval of the high rate switching stream K2-H is shorter than that of the video stream S, switching from the video stream S1 to the high rate switching stream K2-H directly switches from the video stream S1 to the video stream S2. It is possible to realize switching in a shorter time than that. In this case, since the switching is performed at the random access point which is a key frame, seamless switching is possible.

Therefore, as in the first embodiment, the moving image can be switched seamlessly and at high speed without shortening the interval between the random access points of the moving image stream S. Further, since the high-rate switching stream K2-H reproduced at the time of switching has high image quality, deterioration of image quality at the time of switching can be suppressed.

Further, before the switching, the moving image stream S1 and the low rate switching stream K1-L are received, and after the switching, the moving image stream S2 and the low rate switching stream K2-L are received. In either case, since the high rate switching streams K1-H and K2-H are not normally received, the bit rate can be suppressed.

Although the present invention has been described above with reference to Examples 1 and 2, the present invention is not limited to the above Examples 1 and 2, and can be variously modified without departing from the technical idea. For example, the distribution servers 1 and 3 distribute the video stream S at a predetermined rate, but may distribute the video stream S at a plurality of rates so that adaptive streaming can be performed.

As the hardware configuration of the moving image stream receiving devices 2 and 4 according to the embodiment of the present invention, a normal computer can be used. The moving image stream receiving devices 2 and 4 are composed of a computer provided with a volatile storage medium such as a CPU and RAM, a non-volatile storage medium such as a ROM, and an interface.

The functions of the reception processing units 10-1, 10-2, decoders 11-1, 11-2, switching control unit 12, switching device 13, device 14, and clock 15 provided in the moving image stream receiving device 2 are these functions. Is realized by having the CPU execute the program in which the above is described. Further, the functions of the reception processing units 10-1, 10-2, decoders 11-1 and 11-2, switching control unit 16, switching device 13, device 14 and clock 15 provided in the moving image stream receiving device 4 are also included in these functions. Each of these is realized by having the CPU execute a program that describes the functions of.

These programs are stored in the storage medium, read by the CPU, and executed. In addition, these programs can be stored and distributed in storage media such as magnetic disks (floppy (registered trademark) disks, hard disks, etc.), optical disks (CD-ROM, DVD, etc.), semiconductor memories, etc., and can be distributed via a network. You can also send and receive.

1,3 Distribution server 2,4 Video stream receiver 10 Reception processing unit 11 Decoder 12, 16 Switching control unit 13 Switching device 14 Device 15 Clock

Claims (5)

In a video stream receiving device that receives a video stream distributed from a distribution server and plays a video
A first reception processing unit that receives the video stream at a predetermined random access point interval and stores the video stream in the first buffer.
A second reception processing unit that receives a switching stream with a random access point interval shorter than the moving image stream and stores the switching stream in the second buffer.
A first decoder that reads the moving image stream from the first buffer, decodes it, and outputs the first moving image.
A second decoder that reads the switching stream from the second buffer, decodes it, and outputs a second moving image.
Requesting the distribution of the moving image stream and the switching stream to the distribution server, one of the first moving image output by the first decoder and the second moving image output by the second decoder is selected. A switching control unit that generates a switching signal for selection,
A switching device that selects one of the first moving image and the second moving image based on the switching signal generated by the switching control unit and outputs the moving image for reproduction is provided.
The switching control unit
According to the switching operation by the user, the distribution server is requested to distribute the video stream after switching and the switching stream after switching.
At the timing of the random access point of the first key frame in the switching stream after switching, the switching signal for selecting the second moving image of the switching stream after switching is generated, and the first switching signal is generated based on the switching signal. 2 Play the video and
Then, at the timing of the random access point of the first key frame in the video stream after switching, the switching signal for selecting the first moving image of the video stream after switching is generated, and based on the switching signal. A moving image stream receiving device characterized in that the first moving image is reproduced. In the moving image stream receiving device according to claim 1,
The switching control unit
According to the switching operation by the user, the first request for requesting the distribution of the video stream after switching and the second request for requesting the distribution of the switching stream after switching are generated, and the first request and the said The second request is sent to the distribution server,
When the timing for reproducing the random access point of the first key frame is determined for the switched stream after switching corresponding to the second request based on the playback time of the video stream before switching during current playback, after switching. The switching signal for selecting the second moving image of the switching stream is generated, and the second moving image is played back based on the switching signal.
Then, based on the playback time of the switching stream currently being played back, the timing for playing back the random access point of the first key frame for the switched video stream corresponding to the first request is determined. A moving image stream receiving device, characterized in that a switching signal for selecting the first moving image of the moving image stream after switching is generated, and the first moving image is reproduced based on the switching signal. In a video stream receiving device that receives a video stream distributed from a distribution server and plays a video
A first reception processing unit that receives the video stream at a predetermined random access point interval and stores the video stream in the first buffer.
A stream with a random access point interval shorter than the video stream, which receives a low-rate switching stream delivered at a low rate, stores the low-rate switching stream in a second buffer, and is shorter than the video stream at random. A second reception processing unit that receives a high-rate switching stream that is a stream at an access point interval and is delivered at a higher rate than the low-rate switching stream, and stores the high-rate switching stream in the second buffer.
A first decoder that reads the moving image stream from the first buffer, decodes it, and outputs the first moving image.
A second decoder that reads the high-rate switching stream or the low-rate switching stream from the second buffer, decodes the stream, and outputs a second moving image.
One of the first moving image output by the first decoder and the second moving image output by the second decoder after requesting the distribution server to distribute the moving image stream and the high rate switching stream. A switching control unit that generates a switching signal to select one,
A switching device that selects one of the first moving image and the second moving image based on the switching signal generated by the switching control unit and outputs the moving image for reproduction is provided.
The switching control unit
According to the switching operation by the user, the distribution server is requested to distribute the video stream after switching and the high-rate switching stream after switching.
At the timing of the random access point of the key frame in the high-rate switching stream after switching, the switching signal for selecting the second moving image of the high-rate switching stream after switching is generated, and the switching signal is generated based on the switching signal. Play the second video and
Then, at the timing of the random access point of the first key frame in the video stream after switching, the switching signal for selecting the first moving image of the video stream after switching is generated, and based on the switching signal. Play the first video,
After that, the moving image stream receiving device is characterized in that the distribution of the low-rate switching stream after switching is requested to the distribution server. In the moving image stream receiving device according to claim 3,
The switching control unit
According to the switching operation by the user, a first request for requesting distribution of the video stream after switching and a second request for requesting distribution of the high-rate switching stream after switching are generated, and the first request is generated. And the second request is transmitted to the distribution server,
When determining the timing to reproduce the random access point of the first key frame for the high-rate switching stream after switching corresponding to the second request, based on the playback time of the video stream before switching currently being played. The switching signal for selecting the second moving image of the high-rate switching stream after switching is generated, and the second moving image is played back based on the switching signal.
Then, based on the playback time of the switched high-rate switching stream currently being played, it is determined when to play the random access point of the first key frame for the switched video stream corresponding to the first request. Then, the switching signal for selecting the first moving image of the moving image stream after switching is generated, and the first moving image is played back based on the switching signal.
After that, a moving image stream receiving device characterized in that a third request for requesting distribution of the low-rate switching stream after switching is generated, and the third request is transmitted to the distribution server. A program for operating a computer as the video stream receiving device according to any one of claims 1 to 4.

Images