JP2005191949A - Video image distribution apparatus and video image browsing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique for preventing the deterioration of the quality of a video image displayed in a window even when the size of the window displaying the video image is expanded. <P>SOLUTION: When receiving the size of the window for displaying the video image which is changed by a video image browsing apparatus, a video image distribution apparatus decides the transmission rate of video image data according to the size as a transmission rate suitable for a size after change. Then, video image data having the decided transmission rate is distributed to the video image browsing apparatus. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to a technique related to a video distribution (Streaming) apparatus and a distribution video browsing apparatus (Player).

In recent years, broadband has become widespread. Also, based on the e-Japan concept, gigabit infrastructure development by local governments is progressing rapidly. As a result, people who are unfamiliar with personal computers have more opportunities to interact with personal computers. In addition, the spread of broadband has promoted an increase in viewing of suitable videos. For example, on local government websites, there are many sites where you can view the assembly broadcast live or VOD (video on demand). As a result, the number of viewers of moving images is increasing, including elderly people.

  Currently, in video (moving image) streaming on the Internet, the image quality is determined by the video distribution side. In addition, the image quality is distributed at a low transmission rate in consideration of a narrow band.

As a prior art according to the present invention, for example, there are the following prior art documents.
JP 2002-82861 A JP 2002-290974 A

  As described above, when video is distributed at a low transmission rate, the above-mentioned parliamentary relay makes it difficult for the elderly to see the image. At this time, if the size of the window in which the video is displayed is increased, the video is enlarged. However, the image quality deteriorates and the image quality is not suitable for viewing (see FIG. 11). This is because the transmission rate cannot be changed on the user side.

  An object of the present invention is to provide a technology capable of preventing the quality of video displayed in a window from deteriorating even if the user changes the size of the window displaying the distributed video. is there.

  The present invention employs the following configuration in order to solve the above-described problems.

That is, the present invention is a video distribution device that distributes video data for distribution in response to a request from a video browsing device,
Receiving means for receiving, from the video browsing device, the size of the window after the change transmitted when the size of the video display window is changed in the video browsing device;
Determining means for determining an image quality of the video data in accordance with the size of the window after the change;
Distribution means for delivering video data having the image quality determined by the determination means to the video browsing apparatus.

  For example, the determining means determines an image quality higher than the currently distributed image quality if the window size after the change is enlarged, and if the window size after the change is reduced, an image quality lower than the currently distributed image quality is determined. decide.

  The determining means can determine the image quality of the video data, for example, by determining the transmission rate of the video data. For example, a transmission rate according to the size is prepared, a transmission rate according to the changed size notified from the video browsing device is acquired, and this transmission rate is determined as a transmission rate suitable for the changed size. The transmission rate video data is distributed by the distribution means.

  According to the video distribution apparatus of the present invention, the image quality of the video data to be distributed is changed in accordance with the change in the window size. As a result, for example, when the user of the video distribution device enlarges the size of the window, the image quality of the video data is improved, so that the video with the same quality as before the size change can be displayed in the enlarged size window. It becomes possible to browse. On the other hand, when the size is reduced, the transmission band of the video data is reduced due to the deterioration of the image quality, so that the transmission band can be saved.

Preferably, the video distribution apparatus according to the present invention is configured to estimate an image quality of video data that can be distributed using the transmission path from a state of the transmission path of the video data for the video browsing apparatus;
A second determining means for determining the image quality of the video data to be distributed to the video browsing device based on the image quality determined by the determining means and the image quality estimated by the estimating means;
The distribution unit is configured to distribute video data having the image quality determined by the second determination unit to the video browsing device when the image quality of the video data is determined by the second determination unit. .

  In this case, for example, a transmission rate corresponding to the changed size is determined by the determining unit, while a transmission rate with the upper limit of the currently usable transmission band of the transmission path for video distribution is estimated by the estimating unit. If the former exceeds the latter, the maximum transmission rate that can be selected within a range not exceeding the latter is determined as the image quality of the video data to be distributed to the video browsing apparatus.

  In this way, it is possible to display an image having an image quality corresponding to the transmission path capability in a window having a changed size.

Further, the present invention is a video browsing device for displaying a video based on video data distributed from a video distribution device on a video display window,
Detecting means for detecting a change operation of a size of the video display window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving video data having image quality according to the size of the window after the change from the video distribution device;
Display control means for displaying a video based on the video data received by the receiving means in the window having the changed size.

Further, the present invention is a video browsing device for displaying a video based on video data distributed from a video distribution device in a video display window,
Detecting means for detecting an operation of changing the size of the window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving, from the video distribution device, video data having an image quality determined based on the size of the window after the change and the state of a transmission path for distributing the video data;
Display control means for displaying a video based on the video data received by the receiving means in the window having the changed size.

The present invention is a program for causing an information processing apparatus to function as a video distribution apparatus that distributes video data for distribution in response to a request from a video browsing apparatus,
Receiving from the video browsing device the size of the changed window transmitted when the size of the video display window is changed in the video browsing device;
Determining the image quality of the video data according to the size of the window after the change included in the size change notification;
And causing the information processing apparatus to execute a step of distributing video data having the determined image quality to the video browsing apparatus.

  The present invention can be specified as a video distribution method and a video display control method having substantially the same characteristics as those of the recording medium on which the above-described program is recorded, the video distribution device, and the video browsing device.

  According to the present invention, even if the user changes the size of the window for displaying the distributed video, the quality of the video displayed in the window can be prevented from deteriorating.

  Embodiments of the present invention will be described below with reference to the drawings. The configuration of the embodiment is an exemplification, and the configuration of the present invention is not limited to the configuration of the embodiment.

<System configuration>
FIG. 1 is a diagram showing a configuration example of an embodiment of a video distribution / browsing system according to the present invention. 1, the system includes a video browsing device 1, a video distribution device 2 connected to the video browsing device 1 via an IP network such as the Internet, and a video input connected to the video distribution device 2 via the IP network. Device 3.

The video browsing apparatus 1 includes a personal computer (PC), a control device (CPU, etc.), a storage device (ROM, RAM, hard disk, etc.), an input device (keyboard, mouse, etc.), an output device (display, printer, etc.) and communication. In an information processing apparatus having a control device (such as a network interface), video browsing software (application program) such as MediaPlayer (trademark) or RealOnePlayer (trademark) is executed by the CPU on the OS.

  The video browsing device 1 includes an input operation unit 11, a transmission control transmission unit 12, a video data reception unit 13, a video data decoding unit 14, a video display unit 15, and a transmission state notification unit by executing video browsing software. 16 function as a device.

  The input operation unit 11 is an interface unit for a user to input an instruction to play / stop video data and an instruction to change the window size for displaying the video. The input operation unit 11 determines the content of the input instruction and inputs input information. Notify the transmission control transmitter 12.

  The transmission control transmitting unit 12 notifies the video distribution apparatus 2 of transmission control information including instructions from the user (video playback, stop, window size change, etc.). As a protocol applied to the notification, a video transmission control protocol typified by RTSP (Real Time Streaming Protocol) defined in RFC2326 is used for the playback / stop instruction. At this time, methods such as “Setup”, “Play”, and “Describe” can be used (see H. Schulzrinne et al., “Real Time Streaming Protocol”, RFC 2326, Internet Engineering Taskforce, Apr. 1998).

  In addition, the transmission control transmission unit 12 notifies a video display window size change instruction as one of instructions from the user. Regarding the video display window size change instruction, the above-mentioned video transmission control protocol may be extended, or a protocol dedicated to the video display window size change instruction may be used separately. For example, an extended standard protocol such as P3P (Platform for Privacy Preferences) or CC / PP (Composite Capabilities / Preference Profile) standardized by the World Wide Web Consortium (W3C) can be used as a dedicated protocol. .

  The video data receiving unit 13 is a part that receives video data from the video distribution device 2.

  The video data decoding unit 14 is a part that decodes the video data received by the video data receiving unit 13.

  The video display unit 15 is a display device, for example, and is a part that displays a video on a video display window displayed on the display screen of the display device.

  The transmission state notifying unit 16 calculates statistical information (packet loss rate, propagation delay time, jitter, etc.) of the video data received by the video data receiving unit 12, and sends the calculation result to the video distribution device 2 as a transmission state notification. This is a part for notification. As a protocol applied to this notification, a statistical information transmission protocol represented by RTCP (RTP Control Protocol) can be used.

  The video distribution device 2 is configured using an information processing device (including a control device, a storage device, an input device, an output device, and a communication control device as described above) such as a PC, a workstation, and a server machine. By executing various programs (OS, application programs) stored in the storage device by the CPU constituting the control device, the video distribution device 2 has a video capture unit 21 and transmission control as shown in FIG. A receiving unit 22, a video data reproducing / stopping unit 23, a video data reading unit 24, a video data transmitting unit 25, a compression rate determining unit 26, a transmission band estimating unit 27, and a transmission state compression rate determining unit 28; , And functions as a device including a video accumulation data storage unit 29 and a size / image quality correspondence table 30.

  The video capture unit 21 captures video from the video input device 31 or the video storage data storage unit 29 at the image quality (transmission rate) instructed by the video data read unit 24 and distributes the video to the video data read unit 24. It is a part to do. Further, the video capturing unit 21 stores the video input from the video input device 3 in the video accumulation data storage unit 29.

  The transmission control receiving unit 22 receives the transmission control information sent from the video browsing device 1, and when the received information is a change in the video display window size, the transmission control receiving unit 22 notifies the compression rate determining unit 26 of the size. is there. When the received information is a video playback or stop instruction, the transmission control receiving unit 22 notifies the video data playback / stop unit 23 of such information.

  The video data playback / stop unit 23 is a part that requests the video data reading unit 24 to make a video start request and a video stop request based on information from the transmission control information receiving unit 22.

  The video data reading unit 24 makes a video reading request with the image quality requested by the video capturing unit 21 in accordance with the image quality (transmission rate) requested from the video data reproduction / stop unit 23, and reads the read video data. This is the part that is passed to the video data transmitter 25.

The video data transmitting unit 25 is a part that receives video data, packetizes it if necessary, and transmits it to the video browsing apparatus. The protocol applied to this transmission is RTP (Real
A data transmission protocol represented by time Transport Protocol can be used.

  The compression rate determination unit 26 is an apparatus that determines the image quality suitable for the window size based on the size / image quality correspondence table based on the video display window size.

The transmission band estimation unit 27 detects congestion and transmission error based on a transmission state notification from an intermediate node (router or the like) on the transmission path, the video browsing apparatus 1 or the like, estimates a usable transmission band, and obtains the result. This is a part for notifying the transmission state compression rate determination unit 28 of the transmission rate as the transmission rate. The method of estimating the transmission band that can be used by the transmission band estimation unit 27 is arbitrary. For example, an LDA (Loss-Delay Based Adjustment Algorithm) method can be cited (D. Sisalem et al., “The Loss-Delay Based Adjustment”). Algorithm: A TCP-Friendly Adaptation Scheme ", in the proceedings of NOSSDAV'98, July, Cambridge, UK). According to the LDA method, the data loss rate can be fed back from the video browsing device to the video distribution device, and the transmission rate of the video distribution device can be controlled based on the packet loss rate, the reception transmission rate from the video browsing device, or the like. .

  The transmission state compression rate determination unit 28 is an image that is optimal for the current transmission path state within the image quality that matches the window size based on the image quality determined by the transmission band estimation unit 27 and the compression rate determination unit 26. It is a part that determines quality.

  The video accumulation data storage unit 29 is a part that accumulates video to be distributed, and the video is read and written by the video capture unit 21.

  The size image quality correspondence table 30 is a table in which the size of the window and information indicating the image quality recognized as appropriate for the size are stored in association with each other, and is referred to by the compression rate determination unit 26 and the transmission state compression rate determination unit 28. .

  The compression rate determination unit 26 and the transmission state compression rate determination unit 28 may be configured as functions realized by a processor such as a CPU executing a program stored in the storage device. It may be configured as a hardware chip to be realized.

  The video input device 3 is configured using, for example, a device in which a video camera and an information processing device such as a PC are connected, or an information processing device such as a PC. The video input device 3 functions as a device including a camera or video content 31 and a video compression device (including multi-bit rate) 32 as shown in FIG.

  The camera or video content 31 is a device that can acquire video such as a video camera. Alternatively, the camera or video content 31 can be configured by a storage device that stores a video to be distributed.

  The video compression device 32 is a device having a function of simultaneously encoding a plurality of streams having different transmission rates from video from the camera or video content 31 (multi-bit rate conversion) and combining them as one file. As an example of multi-bit rate conversion, the same video can be combined at a plurality of transmission rates such as 64 Kbps, 150 Kbps, and 600 Kbps in one file. The file generated by the video compression device 32 is transmitted to the video capture unit 21 of the video distribution device 2.

<Operation example>
Next, an operation example of the system shown in FIG. 1 will be described.

[Operation Example 1: Start browsing video]
As an operation example 1, when a user connects the video browsing apparatus 1 to an IP network such as the Internet and performs a request operation for browsing streaming distribution of video content or the like (request for distribution to video content such as Web or the like). A description will be given of an example of the operation in the case of (when performed).

  In FIG. 1, when a user inputs a video playback start instruction via the input operation unit 11 of the video browsing apparatus 1, the start instruction is transmitted from the input operation unit 11 to the transmission control transmission unit 12. The transmission control transmitting unit 12 notifies the transmission control receiving unit 22 of the video distribution device 2 connected via the IP network as a video control start request as transmission control information.

  The transmission control receiving unit 22 receives the transmission control information, analyzes the information content, and when the information is determined to be a video playback start request, notifies the video data playback / stop unit 23 of a video playback start instruction, thereby Start.

  The video data reproduction / stop unit 23 notifies the video data reading unit 24 of the instructed image quality (transmission rate) and activates the video data reading. The instructed image quality is, for example, the image quality (transmission rate) selected from the video content or the line type (ISDN line, ADSL line, FTTH, etc.) notified from the video browsing device 1. Quality.

The image quality may be received by the video data playback / stop unit 23 from the transmission control receiving unit 22 (in this case, the transmission control receiving unit 22 receives a video playback start instruction including an image quality instruction). Alternatively, when the video quality start instruction is recognized, the image quality indexing process may be performed. Alternatively, the video data playback / stop unit 23 may perform the image quality indexing process.

  The video data reading unit 24 makes a video reading request with the requested image quality to the video capturing unit 21 in accordance with the requested image quality (transmission rate).

  The video capturing unit 21 stores video stored in the video compression device 32 or the video distribution device 2 of the video input device 3 connected via the IP network at the requested image quality (transmission rate). The video is taken from the data storage unit 29 and the taken video data is transferred to the video data reading unit 24.

  The video data reading unit 24 passes the read video data to the video data transmission unit 25. The video data transmitting unit 25 receives the video data, packetizes it if necessary, and distributes it to the video data receiving unit 13 of the video browsing apparatus 1 connected via the IP network.

  The video data receiver 13 receives the video data distributed from the video data transmitter 25 and passes the video data to the video data decoder 14. The video data decoding unit 14 decodes the received video data and requests the video display unit 15 to display a video with the received image quality (transmission rate). The video display unit 15 reproduces and displays the received video with the image quality (transmission rate) on a window displayed on the display screen in order to display the video.

[Operation example 2: Changing the size of the video display window (1)]
Next, as an operation example 2, the user changes the size of the video display window for displaying video while the video browsing device 1 is connected to an IP network such as the Internet and browsing streaming distribution of video content and the like. An example of operation in the case of performing the above will be described.

  In FIG. 1, when a user inputs a size change instruction, the input operation unit 11 of the video browsing apparatus 1 normalizes to a window size that can display video by changing the window size (for example, aspect ratio = vertical size). Ratio 3: Horizontal size ratio 4) is performed, and the video display window size is notified to the transmission control transmitter 12.

  The transmission control transmission unit 12 notifies the transmission control reception unit 22 of the video distribution apparatus 2 connected via the IP network of the window size change request and the change size as transmission control information.

  The transmission control receiving unit 22 receives the transmission control information, analyzes the information content, and determines that the information is a window size change request, and passes the video display window size to the compression rate determining unit 26, thereby compressing the compression rate determining unit 26. Start up.

  The compression rate determination unit 26 refers to the size / image quality correspondence table 30 to obtain the video image quality corresponding to the video display window size received from the transmission control reception unit 22 from the table 30, thereby conforming to the video display window size. The determined image quality is determined, the image quality (transmission rate) is notified to the video data reading unit 24, and the video data reading is activated. At this time, when the size of the video display window is increased by the size change, the image quality is determined so that the image quality is improved (the transmission rate is increased).

  Subsequent operations are substantially the same as those in the first operation example, and thus description thereof is omitted. However, the video data is transmitted to the video distribution apparatus 2 with the image quality (transmission rate) determined by the compression rate determination unit 26 by the size change. In the video distribution device 2, the video display unit 15 changes the size of the video display window to the size determined by the input operation unit 11 and reproduces and displays the video data. At this time, when the size is increased, video data with higher image quality than before the size change is displayed in the video display window after the size change. As a result, even when the user performs an enlargement / reduction operation on the video display window, the user can view the video with the same image quality as before the enlargement / reduction.

[Operation Example 3: Transmission band estimation]
Next, as operation example 3, an operation example of channel estimation is described. In FIG. 1, while the user connects the video browsing apparatus 1 to an IP network such as the Internet and is browsing streaming distribution of video content or the like, the transmission status notifying unit 16 receives the video data receiving unit 13. Statistical information (packet loss rate, propagation delay time, jitter, etc.) of the received video data is calculated, and the calculation result is notified to the transmission band estimation unit 27 of the video distribution apparatus 2 as transmission state information.

  The transmission band estimation unit 27 receives the transmission state information, detects congestion and transmission error based on the transmission state information, estimates the usable transmission band, and recognizes the current transmission rate capability of the IP network. Such a recognition result is used by the transmission state compression rate determination unit 28 described later in the operation example 4.

[Operation example 4: Changing the size of the video display window (2)]
Next, as an operation example 4, an operation example of changing the size of the video display window when the operation of the transmission band estimation unit 27 described in the operation example 3 is performed will be described. However, only operations different from the operation example 2 will be described, and description of the same operations will be omitted.

  In FIG. 1, the compression rate determining unit 26 refers to the size image quality correspondence table 30 to determine the image quality suitable for the video display window size received from the transmission control receiving unit 22, and at the same time the transmission state compression rate determining unit. By notifying the determined image quality (transmission rate) to 28, the transmission state compression rate determination unit 28 is activated.

  Based on the transmission rate capability of the IP network received from the transmission band estimation unit 27 and the image quality determined by the compression rate determination unit 26, the transmission state compression rate determination unit 28 is within the image quality suitable for the window size. The optimum image quality for the current transmission path state is determined, the image quality (transmission rate) is notified to the video data reading unit 24, and the video data reading is activated.

  Subsequent operations are the same as those in the first operation example, and a description thereof will be omitted. According to the operation example 4, when the user performs an enlargement / reduction operation on the video display window, the user can view the video with an image quality suitable for the size of the video display window. In addition, it is possible to view a video having an image quality suitable for the transmission path state (packet loss rate, delay time, etc.) of the IP network (Internet, etc.).

  That is, when the transmission path state of the IP network cannot transmit the video data with the image quality suitable for the size according to the instruction, the video data is distributed with the image quality inferior to that determined by the compression rate determination unit 26. . However, in this case, in the video playback in the video browsing device 1, it is possible to prevent the playback video from being temporarily stopped or the movement from becoming unnatural due to a delay caused by the congestion of the transmission path. . In addition, when the transmission state compression rate determination unit 28 determines an image quality that is inferior to the image quality determined by the compression rate determination unit 26, the transmission state compression rate determination unit 28 refers to the size image quality correspondence table 30 to match the image quality. This size may be notified to the video browsing apparatus 1, and the video display unit 15 may be configured to change the size of the video display window to that size.

<Concrete example>
Next, a specific example of the video distribution browsing system as shown in FIG. 1 will be described. FIG. 2 is an image explanatory diagram of a video distribution service using the video distribution browsing system as shown in FIG. FIG. 3 is a sequence diagram showing an operation related to the start of video browsing. FIG. 4 is a sequence diagram showing an operation related to the size change of the video display window. FIG. 5 is a flowchart illustrating an example of processing by the input operation unit. FIG. 6 is a flowchart illustrating an example of processing performed by the transmission control transmission unit. FIG. 7 is a flowchart illustrating an example of processing performed by the transmission control reception unit. FIG. 8 is a sequence diagram showing operations related to channel bandwidth estimation and video display window size change. FIG. 9 is a flowchart illustrating an example of processing performed by the compression rate determination unit, and FIG. 10 is a flowchart illustrating an example of processing performed by the transmission state compression rate determination unit.

  As shown in FIG. 2, the video browsing apparatus 1 in the system shown in FIG. 1 is configured by, for example, a PC disposed in the home, and the video distribution apparatus 2 is configured as a video distribution server connected to the IP network. The video input device 3 is configured as a device including a video camera 131 and a PC 132 to which the video camera 131 is connected. Then, a video is captured by the video camera 131, and the captured video is converted into a file compressed and converted into a multi-bit rate by the PC 132. The file is transmitted to the video distribution device 2 via the IP network, and the video browsing device 1 Is distributed by the video distribution device 2 in response to a request from the user.

When the video browsing apparatus 1 notifies the video distribution apparatus of a size change (enlargement) of the video display window, the video quality is changed so that the image quality (transmission rate) of the video data is improved. Thereby, even if the size of the video display window is enlarged on the display screen of the display of the video browsing apparatus 1, a clear video is reproduced and displayed in the window by changing the image quality.

[Start viewing video]
Next, a specific example relating to the start of viewing images will be described with reference to FIGS. 1-3 and 5-7. As an example, a service user connects the video browsing apparatus 1 to an IP network such as the Internet, and a video content streaming distribution service (video input) developed on a Web such as a personal broadcasting station as shown in FIG. A case where a request operation for browsing the video provided by the device 3 and the video distribution device 2 is performed will be described. ,
In FIG. 3, when a video playback start instruction is input to the input operation unit 11 of the video browsing device 1, the input operation unit 11 gives a playback start request to the transmission control unit 12 (SQ1).

  Specifically, as shown in FIG. 5, when the input operation unit 11 receives operation information input by the user (S01), which of the operation information is reproduction start, reproduction end, and window size change? (S02), if the reproduction is to be started, a reproduction start request is transmitted to the transmission control transmitter 12 (S03), and the process is terminated. If the operation information is the reproduction end, a reproduction end request is notified to the transmission control transmission unit 12 (S06), and the process is terminated.

  Returning to FIG. 3, the transmission control transmitting unit 12 transmits a reproduction start message including a video reproduction start request to the IP network as transmission control information (SQ2). At this time, for example, a reproduction start request at a transmission rate of 150 Kbps is transmitted as the image quality (transmission rate) obtained from the video content.

  Specifically, as shown in FIG. 6, when the transmission control transmission unit 12 receives a request from the input operation unit 11 (S11), the transmission control transmission unit 12 is any of a reproduction start request, a reproduction end request, and a window size change request. If it is a reproduction start request, a reproduction start message is generated as transmission control information based on the information contained in the request (S13), transmitted to the IP network (S14), and processed. Exit. If the request is a playback end request, a playback end message is generated as transmission control information (S16), transmitted to the IP network (S14), and the process ends.

  As shown in FIG. 3, the reproduction start request (reproduction start message) is transmitted to the transmission control receiving unit 22 of the video distribution apparatus 2 through the IP network (SQ3). The transmission control receiving unit 22 receives transmission control information and analyzes the information content. At this time, if the transmission control information is a reproduction start request, the transmission control receiving unit 22 extracts the transmission rate 150 Kbps notified as the transmission information and activates the video data reproduction / stop unit 23 (SQ4).

  Specifically, as shown in FIG. 7, when the transmission control receiving unit 22 receives transmission control information from the video browsing device 1 (S21), the transmission control information is used to reproduce video data (reproduction start request), It is determined whether the video data is to be stopped (reproduction end request) or the window size is changed (window size change request) (S22). Is notified (S23), and the process is terminated. If the video data is to be stopped, the video data playback / stop unit 23 is notified of the stop of video playback (S26), and the process is terminated.

  Returning to FIG. 3, the video data reproducing / stopping unit 23 notifies the video data reading unit 24 of the transmission rate 150 Kbps notified from the transmission control receiving unit 22, and starts the video data reading (SQ5).

The video data reading unit 24 requests the video capturing unit 21 to read a video in accordance with the requested transmission rate of 150 Kbps (SQ6). The video capture unit 21 transmits the transmission rate from the video file converted to multi-bit rate from the video compression device 32 (PC 132) connected via the IP network at the requested transmission rate of 150 Kbps. The video data of 150 Kbps is fetched and the fetched video data is distributed to the video data reading unit 24 (SQ7).

  The video data reading unit 24 distributes the video data read by the video capturing unit 21 to the video data transmitting unit 25 (SQ6). The video data transmission unit 25 receives the video data, packetizes it if necessary, and distributes the video data at a transmission rate of 150 Kbps to the video data reception unit 13 connected via the IP network (SQ8, SQ9).

  The video data receiving unit 13 receives the video data distributed from the video data transmitting unit 25 and distributes the video data to the video data decoding unit 14 (SQ10). The video data decoding unit 14 decodes the received video data, and requests the video display unit 15 to display a video at a transmission rate of 150 Kbps, which is the received image quality (SQ11).

  The video display unit 15 reproduces and displays video content by displaying the received video quality at the transmission rate of 150 Kbps in the video display window displayed on the display screen of the display (SQ12).

  When the stop of video distribution (playback) is requested, the video data playback / stop unit 23 requests the video data reading unit 24 to stop in accordance with the stop instruction from the transmission control receiving unit 22, and the video data The reading unit 24 stops reading the video data. Thereby, the distribution of the video data to the video browsing device 1 is stopped.

[Resize video display window]
Next, the size change of the video display window will be described with reference to FIGS. Displayed by the video browsing device 1 while the user of the service connects the video browsing device 1 to an IP network such as the Internet and is browsing streaming content such as video content provided from the video distribution device 2. For example, a case will be described in which the size of the video display window is changed to 12 cm by dragging the edge of the video display window and performing a size enlargement operation on the size of the video display window.

In this case, when the input operation unit 11 of the video browsing apparatus 1 detects a size enlargement operation, the input operation unit 11 normalizes the window size so that the video can be displayed by changing the window size (for example, aspect ratio = vertical size ratio 3: horizontal size ratio). Perform 4). In this case, the size of the video display window is vertical: 9 cm and horizontal: 12 cm. The input operation unit 11 notifies the transmission control transmission unit 12 of the horizontal size 12 cm, which is a reference for the image quality displayed in the changed window (SQ
13).

  Specifically, as shown in FIG. 5, when the input operation unit 11 receives operation information input by the user (S01), which of the operation information is reproduction start, reproduction end, and window size change? (S02), if it is a window size change, the window size is determined by normalizing the window size (S04), a window size change request is transmitted to the transmission control transmitter 12 (S05), and the process is performed. finish.

  Returning to FIG. 4, the transmission control transmitting unit 12 transmits a window size change request and a change size of 12 cm (size change notification) as transmission control information to the transmission control receiving unit 22 connected via the IP network. ) (SQ14, SQ15).

Specifically, as shown in FIG. 6, when the transmission control transmission unit 12 receives a request from the input operation unit 11 (S11), the transmission control transmission unit 12 is any of a reproduction start request, a reproduction end request, and a window size change request. If it is a window size change request, a window size change message is generated as transmission control information based on the information contained therein (window size: 12 cm wide) (S15). The data is transmitted to the network (S14), and the process is terminated.

  Returning to FIG. 4, the transmission control receiving unit 22 receives the transmission control information, analyzes the information contents, and when the information is a window size change request, the transmission control receiving unit 22 sends a 12 cm which is the change size of the video display window to the compression rate determination unit 26. And the compression rate determination unit 26 is activated (SQ16).

  Specifically, as shown in FIG. 7, when the transmission control receiving unit 22 receives transmission control information from the video browsing device 1 (S21), the transmission control information is used to reproduce video data (reproduction start request), It is determined whether the video data is stopped (reproduction end request) or the window size is changed (window size change request) (S22). If it is a window size change request, the window size (12 cm) included in this is changed. The window size is detected (S24), the window size is notified to the compression rate determination unit 26 (S25), and the process is terminated.

  Returning to FIG. 4, the compression rate determination unit 26 changes the size of the video display window received from the transmission control receiving unit 22 from 12 cm to 12 cm which is the size of the video display window based on the size / image quality correspondence table 30. A transmission rate of 700 Kbps, which is a suitable image quality, is determined. Further, the compression rate determination unit 26 notifies the video data reading unit 24 of the transmission rate 700 Kbps, which is the image quality, and requests switching of video data reading (150 Kbps → 700 Kbps) (SQ17).

  Specifically, as shown in FIG. 9, when the compression rate determination unit 26 receives the window size from the transmission control reception unit 22 (S31), the compression rate determination unit 26 refers to the size / image quality correspondence table 30 and determines the transmission rate based on the window size. Is determined (S32).

  That is, the size / image quality correspondence table 30 includes a plurality of entries for storing transmission rates corresponding to the window size range, and the compression rate determination unit 26 transmits the transmission rate corresponding to the received window size from the size / image quality correspondence table 30. Is read out, and the transmission rate is determined as the transmission rate corresponding to the window size change request. Here, 700 Kbps is determined as the transmission rate corresponding to the window size of 12 cm.

  Next, the compression rate determination unit 26 determines whether or not the current mode is a mode that considers the transmission path state for video distribution between the video distribution device 2 and the video browsing device 1 (S33), and sets the transmission path state. If the mode is not considered, the transmission rate is notified to the video data reading unit 24 (S34), and the process is terminated.

  Returning to FIG. 4, the video data reading unit 24 makes a video reading request to the video capturing unit 21 in accordance with the requested transmission rate of 700 Kbps (SQ18). The video capture unit 21 transmits the transmission rate from the video file converted to multi-bit rate from the video compression device 32 (PC 132) connected via the IP network at the requested transmission rate of 700 Kbps. The video data of 700 Kbps is fetched and the fetched video data is distributed to the video data reading unit 24 (SQ19).

  The video data reading unit 24 distributes the video data read by the video capturing unit 21 to the video data transmitting unit 25 (SQ18). The video data transmitting unit 25 receives the video data, packetizes it if necessary, and distributes the video data at a transmission rate of 700 Kbps to the video data receiving unit 13 connected via the IP network (SQ20, SQ21).

  The video data receiving unit 13 receives the video data distributed from the video data transmitting unit 25, and distributes the video data to the video data decoding unit 14 (FIG. 3: SQ10). The video data decoding unit 14 decodes the received video data and requests the video display unit 15 to display a video at a transmission rate of 700 Kbps, which is the received image quality (FIG. 3: SQ11).

  The video display unit 15 displays the video at the transmission rate of 700 Kbps, which is the received image quality, in the video display window that is displayed on the display screen of the display and enlarged by the enlargement operation, thereby reproducing and displaying the video content. Perform (FIG. 3: SQ12).

  In this way, when the user enlarges the video display window (horizontal size: 12 cm), the transmission rate as the image quality is changed from 150 Kbps to 700 Kbps, and the user can view the video with the same image quality as before the enlargement. It becomes possible.

[Transfer bandwidth estimation and video display window size change]
Next, the size change of the video display window when the transmission path band is estimated will be described with reference to FIGS. A case will be described in which the size of the video display window is enlarged while the user of the service connects the video browsing apparatus 1 to an IP network such as the Internet and browses streaming delivery of video content and the like.

  In FIG. 8, the transmission state notifying unit 16 calculates statistical information (packet loss rate, propagation delay time, jitter, etc.) of the video data received by the video data receiving unit 13, and the calculation result is transmitted to the transmission band estimating unit 27. As transmission state information (SQ31).

  The transmission band estimation unit 27 receives transmission state information, detects congestion and transmission error based on the transmission state information, estimates a transmission band usable for video data distribution, and transmits the current IP network transmission rate. Recognize ability. At this time, it is assumed that the transmission rate capability of the current IP network estimated by the transmission band estimation unit 27 is recognized as, for example, 492 Kbps.

On the other hand, when a window size enlargement operation is performed on the video browsing device 1, operations similar to the operations related to the video display window size change in SQ13 to SQ16 shown in FIG. 4 are performed (SQ34 to SQ37). The compression rate determining unit 26 is notified of the window size (for example, 12 cm) related to the change.

  Then, the compression rate determination unit 26 determines 700 Kbps, which is an image quality suitable for the video display window size, based on the size / image quality correspondence table 30 based on the received video display window size of 12 cm, and the transmission state compression rate. The determination unit 28 is notified of a transmission rate of 700 Kbps, which is image quality, and is activated (SQ38).

Specifically, as shown in FIG. 9, when the compression rate determination unit 26 receives the window size from the transmission control reception unit 22 (S31), the compression rate determination unit 26 refers to the size / image quality correspondence table 30 and determines the transmission rate based on the window size. Is determined (S32). Here, 700 Kbps is determined as the transmission rate corresponding to the window size of 12 cm. Next, the compression rate determination unit 26 determines whether or not the current mode is a mode that considers the state of the transmission path for video distribution (S33). The transmission rate is notified to the rate determining unit 28 (
S35), the process is terminated.

Returning to FIG. 8, the transmission state compression rate determination unit 28 determines both transmission rates based on the transmission rate 492 Kbps estimated by the transmission band estimation unit 27 and the transmission rate 700 Kbps determined by the compression rate determination unit 26. Make a comparison. In this case, the transmission rate capability of the IP network is 49
The image quality is 2 Kbps, and the image quality suitable for the video display window size by the user's operation cannot be provided.

  For this reason, the transmission state compression rate determination unit 28 extracts the image quality corresponding to the transmission rate capability of the IP network from the size image quality correspondence table 30 again. In this case, the transmission state compression rate determination unit 28 determines the transmission rate 450 Kbps as the image quality. The transmission state compression rate determination unit 28 notifies the video data reading unit 24 of the transmission rate 450 Kbps, which is the optimum image quality corresponding to the user's request and the transmission rate capability of the IP network, and also reads the video data. Start is applied (SQ39).

Specifically, as shown in FIG. 10, the transmission state compression rate determination unit 28 receives the transmission rate (L = 700 Kbps) requested by the user from the compression rate determination unit 26 (S41), and estimates the transmission band. The transmission rate (m = 492 Kbps) usable for video distribution is read from the unit 27 (S42). Next, the transmission state compression rate determination unit 28 compares both transmission rates (S43). At this time, if the transmission rate according to the request is equal to or lower than the usable transmission rate (L ≦ m), the transmission state compression rate determination unit 28 determines the transmission rate according to the request as the optimum transmission rate for the transmission path state. (S4
5) Notifying the video data reading unit 24 of the transmission rate and ending the process. In contrast,
When the transmission rate according to the request exceeds the usable transmission rate (L> m), the transmission state compression rate determination unit 28 refers to the size image quality correspondence table 30 and determines the usable transmission rate (m). The transmission rate closest to the value within the range not exceeding is determined as the optimum transmission rate for the transmission path condition (S46). In this case, since m = 492 Kbps, 450 Kbps is selected. Thereafter, the video data reading unit 24 is notified of the transmission rate, and the process ends.

  Returning to FIG. 8, the video data reading unit 24 makes a video reading request to the video capturing unit 21 in accordance with the requested transmission rate of 450 Kbps (SQ40). The video capture unit 21 captures video data with a transmission rate of 450 Kbps from the multi-bit rate video file from the video compression device 32 (PC 132) at a transmission rate of 450 Kbps which is the requested image quality. The captured video data is distributed to the video data reading unit 24 (SQ41).

  The video data reading unit 24 passes the video data read by the video capturing unit 21 to the video data transmission unit 25 (SQ40). The video data transmitting unit 25 receives the video data, packetizes it if necessary, and distributes the video data at a transmission rate of 450 Kbps to the video data receiving unit 13 connected via the IP network (SQ42, SQ43).

  The video data receiving unit 13 receives the video data distributed from the video data transmitting unit 25, and distributes the video data to the video data decoding unit 14 (FIG. 3: SQ10). The video data decoding unit 14 decodes the received video data and requests the video display unit 15 to display a video at a transmission rate of 450 Kbps, which is the received image quality (FIG. 3: SQ11).

  The video display unit 15 reproduces and displays video content by displaying the received video at the transmission rate of 450 Kbps, which is the image quality, in the video display window enlarged by the enlargement operation (FIG. 3: SQ12).

  As a result, when the video display window is enlarged (horizontal size: 12 cm), the transmission rate, which is the image quality, is changed from 150 Kbps to 450 Kbps, which matches the user's request and the transmission rate capability of the IP network. Video can be viewed with optimal image quality.

When the transmission state compression rate determination unit 28 determines a transmission rate according to the state of the transmission path for video data distribution, a window size suitable for the transmission rate is determined from the size / image quality correspondence table 30 ( For example, the window size is notified to the video browsing apparatus 1 from the video distribution apparatus 2 (for example, a window size notification channel is formed between the two and notified using the window size). The size of the video display window displayed on the display screen may be changed to the notified size.

<Effect of the embodiment>
According to the embodiment of the present invention described above, the following operational effects can be obtained. First, it is possible to change the transmission rate that is streamed by an operation on the user side.

  Second, a simple operation that only changes the window size (for example, the window may be expanded by a drag operation of a pointing device such as a mouse, or a predetermined number of maximum, large, medium, small, and minimum). It may be changed with the change button of the prepared window size). Accordingly, it is not necessary to input parameters such as video format, image size, and image quality when changing the window size. Thus, the user does not need knowledge of the input parameters.

  Thirdly, when the window size during video display is reduced, similarly, the video is distributed at a transmission rate of image quality suitable for the size, so that the transmission band can be saved.

  From the above, as the number of video viewers increases, the age range will expand. In addition, people who are unfamiliar with PC operations and those who have no knowledge of video formats and the like have more opportunities to view moving images through the Internet or the like. The development of regional intra is progressing, and there are an increasing number of cases where videos are distributed on the Internet, such as assembly relay and lifelong learning, on the homepages of municipalities. For the elderly and those with low vision, the desire to change and view the video with an easy-to-view size and image quality that matches that size is natural. As described above, the present invention produces a great effect particularly when an elderly person or a person with weak eyesight watches a video. In addition, it provides a comfortable video browsing interface for video viewers who are increasing due to the spread of broadband.

<Others>
The above-described embodiment discloses the following invention.
(Supplementary Note 1) A video distribution device that distributes video data in response to a request from a video browsing device,
Receiving means for receiving, from the video browsing device, the size of the window after the change transmitted when the size of the video display window is changed in the video browsing device;
Determining means for determining an image quality of the video data in accordance with the size of the window after the change;
A video distribution apparatus including a distribution unit that distributes video data having the image quality determined by the determination unit to the video browsing apparatus; (1)
(Additional remark 2) The estimation means which estimates the image quality of the video data which can be delivered using this transmission path from the state of the transmission path of the video data with respect to the said video browsing apparatus,
A second determining means for determining the image quality of the video data to be distributed to the video browsing device based on the image quality determined by the determining means and the image quality estimated by the estimating means;
The video according to appendix 1, wherein the distribution means distributes video data having the image quality determined by the second determination means to the video browsing device when the image quality of the video data is determined by the second determination means. Distribution device. (2)
(Supplementary Note 3) When the image quality of the video data is determined by the second determining means, size determining means for determining the size of the window according to the image quality;
The video distribution apparatus according to claim 1 or 2, further comprising notification means for notifying the video browsing apparatus of the size of the window determined by the size determination means.
(Supplementary Note 4) A video browsing device for displaying a video based on video data distributed from a video distribution device on a video display window,
Detecting means for detecting a change operation of a size of the video display window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving video data having image quality according to the size of the window after the change from the video distribution device;
And a display control means for displaying a video based on the video data received by the receiving means in the window having the changed size. (3)
(Supplementary Note 5) A video browsing device for displaying a video based on video data distributed from a video distribution device in a video display window,
Detecting means for detecting an operation of changing the size of the window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving, from the video distribution device, video data having an image quality determined based on the size of the window after the change and the state of a transmission path for distributing the video data;
And a display control means for displaying a video based on the video data received by the receiving means in the window having the changed size. (4)
(Additional remark 6) The said receiving means makes the size of the said window according to the image quality determined based on the size of the said window after the said change, and the transmission path for the delivery of the said video data from the said video delivery apparatus. Receive further,
The video browsing device according to appendix 5, wherein the display control means displays a video based on the video data received by the receiving means in the window having a size received from the video distribution device.
(Appendix 7) A program for causing an information processing apparatus to function as a video distribution apparatus that distributes video data for distribution in response to a request from a video browsing apparatus,
Receiving from the video browsing device the size of the changed window transmitted when the size of the video display window is changed in the video browsing device;
Determining the image quality of the video data according to the size of the window after the change;
A program for causing the information processing apparatus to execute a step of distributing video data having the determined image quality to the video browsing apparatus; (5)
(Supplementary Note 8) Estimating the image quality of video data that can be distributed using this transmission path from the state of the transmission path of video data for the video browsing device;
Determining the image quality of video data to be distributed to the video browsing device based on the determined image quality and the estimated image quality, and further causing the information processing device to execute,
When the image quality of the video data to be distributed to the video browsing device is determined based on the determined image quality and the estimated image quality, the video data having the determined image quality is sent to the video browsing device. The program according to appendix 7, which causes the information processing apparatus to execute the distributing step.
(Supplementary Note 9) When the image quality of the video data to be distributed to the video browsing device is determined based on the determined image quality and the estimated image quality, the size of the window corresponding to the determined image quality A step of determining
The program according to appendix 7 or 8, further causing the information processing apparatus to execute a step of notifying the video browsing apparatus of the determined size.
(Supplementary Note 10) A program that causes an information processing apparatus to function as a video browsing apparatus that displays video based on video data distributed from a video distribution apparatus on a video display window,
Detecting a resize operation of the window;
Notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving video data having an image quality corresponding to the size of the video display window after the change from the video distribution device;
A program for causing the information processing apparatus to execute a step of displaying a video based on the received video data in the window having the changed size.
(Supplementary Note 11) A program for causing an information processing apparatus to function as a video browsing apparatus that displays a video based on video data distributed from a video distribution apparatus on a window for video display,
Detecting a resize operation of the window;
Notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving from the video distribution device video data having an image quality determined based on the size of the window after the change and the state of the transmission path for distribution of the video data;
A program for causing the information processing apparatus to execute a step of displaying a video based on the received video data in the window having the changed size.
(Supplementary Note 12) Receiving from the video distribution device the size of the window according to the image quality determined based on the size of the window after the change and the state of the transmission path for distribution of the video data;
12. The program according to claim 11, further causing the information processing apparatus to execute a step of displaying a video based on the received video data in the window having a size received from the video distribution device.

FIG. 1 is a block diagram illustrating a configuration example of a video distribution browsing system according to an embodiment of the present invention. FIG. 2 is an image explanatory diagram of a video distribution service using the video distribution browsing system as shown in FIG. FIG. 3 is a sequence diagram showing an operation related to the start of video browsing. FIG. 4 is a sequence diagram showing an operation related to the size change of the video display window. FIG. 5 is a flowchart illustrating an example of processing by the input operation unit. FIG. 6 is a flowchart illustrating an example of processing performed by the transmission control transmission unit. FIG. 7 is a flowchart illustrating an example of processing performed by the transmission control reception unit. FIG. 8 is a sequence diagram showing operations related to transmission path bandwidth estimation and video display window size change. FIG. 9 is a flowchart illustrating an example of processing performed by the compression rate determination unit. FIG. 10 is a flowchart illustrating an example of processing performed by the transmission state compression rate determination unit. FIG. 11 is an explanatory diagram of the prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Video browsing apparatus 2 Video distribution apparatus 3 Video input apparatus 12 Transmission control transmission part (notification means)
13 Video data receiver (Receiver)
15 Video display (display control means)
22 Transmission control receiving unit (receiving means)
25 Video data transmitter (distribution means)
26 Compression ratio determination unit (determination means)
27 Transmission Band Estimator (Estimating means)
28 Transmission state compression rate determination unit (second determination means)

Claims (5)

A video distribution device that distributes video data in response to a request from a video browsing device,
Receiving means for receiving from the video browsing device the size of the changed window, which is transmitted when the size of the video display window is changed in the video browsing device;
Determining means for determining an image quality of the video data in accordance with the size of the window after the change;
A video distribution apparatus including a distribution unit that distributes video data having the image quality determined by the determination unit to the video browsing apparatus; Estimating means for estimating the image quality of video data that can be distributed using this transmission path from the state of the transmission path of video data for the video browsing device;
A second determining means for determining the image quality of the video data to be distributed to the video browsing device based on the image quality determined by the determining means and the image quality estimated by the estimating means;
The distribution unit according to claim 1, wherein when the image quality of the video data is determined by the second determination unit, the distribution unit distributes the video data having the image quality determined by the second determination unit to the video browsing device. Video distribution device. A video browsing device for displaying video based on video data distributed from a video distribution device on a video display window,
Detecting means for detecting a change operation of a size of the video display window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving video data having image quality according to the size of the window after the change from the video distribution device;
And a display control means for displaying a video based on the video data received by the receiving means in the window having the changed size. A video browsing device that displays video based on video data distributed from a video distribution device in a video display window,
Detecting means for detecting an operation of changing the size of the window;
Notification means for notifying the video distribution device of the size of the window after the change based on the change operation;
Receiving means for receiving, from the video distribution device, video data having an image quality determined based on the size of the window after the change and the state of a transmission path for distributing the video data;
And a display control means for displaying a video based on the video data received by the receiving means in the window having the changed size. A program that causes an information processing device to function as a video distribution device that distributes video data in response to a request from a video browsing device,
Receiving from the video browsing device the size of the window after the change transmitted when the size of the video display window is changed in the video browsing device;
Determining the image quality of the video data according to the size of the window after the change;
A program for causing the information processing apparatus to execute a step of distributing video data having the determined image quality to the video browsing apparatus;

Images