JP2004072618A - Image reproduction system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the turbulence of a display image occurring in switching image signals in an image reproduction system for selectively displaying a reproduced image and other images on a screen. <P>SOLUTION: An MPEG video stream supplying part 12, a buffer 15 and an MPEG video decoding part 16 constitute an image signal reproduction system. A black image stream supplying part 13 supplies a black image stream obtained by encoding a black image. A display device 50 displays images on the basis of a reproduced image signal 123 or other image signals 124. A control part 11 switches a stream switching signal 121 so as to designate the black image stream when the termination part of an image stream is supplied to a buffer 15 in performing image reproduction, and switches an image switching signal 122 so as to designate another image signal 124 after a prescribed time passes from the time when the termination part is supplied. The prescribed time is made longer than a time between streams switching and the display of the black image on a display part 52. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video playback system including a video playback device and a display device, and more particularly, to a video playback system that selectively displays a video played by a video playback device and another video on a screen. .
[0002]
[Prior art]
When the video signal input to the display device is switched to a video signal of another system, the displayed video may be disturbed. As a method of reducing the disturbance of the displayed image, a method of generating a fixed color such as black on a display device is conventionally known. FIG. 10 is a block diagram showing a configuration of a conventional display device. The display device 90 shown in FIG. 10 has a control input terminal C for inputting a control signal and a video input terminal D for inputting a video signal. The black video signal generation unit 91 fixedly outputs a signal having a color level such as black (hereinafter, referred to as a black video signal). The video switching signal generator 92 generates a video switching signal 191 based on the control signal input from the control input terminal C. The video signal switching unit 93 switches and outputs either the video signal input from the video input terminal D or the black video signal generated by the black video signal generation unit 91 in accordance with the video switching signal 191. The display unit 94 performs screen display based on the video signal output from the video signal switching unit 93.
[0003]
When a video signal is switched by switching a signal source or the like, a control signal indicating switching of the video signal is input to the display device 90. At this time, the video switching signal generation unit 92 outputs a video switching signal 191 specifying a black video signal for a predetermined time T. Thus, until the time T has elapsed, the video signal switching unit 93 selects and outputs the black video signal, and the display unit 94 displays a video whose entire screen is black. Before the time T elapses, the video signal input from the video input terminal D is switched to a video signal of another system. When the time T has elapsed, the video switching signal generator 92 outputs a video switching signal 191 specifying a video signal. Thus, after the time T has elapsed, the video signal switching unit 93 selects and outputs the input video signal, and the display unit 94 performs screen display based on the input video signal. According to such a display device 90, by generating a fixed color such as black, it is possible to remove disturbance of a display image that occurs when a video signal is switched.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional technology, since the display device controls the switching of the video signal, there is a problem that if the input video signal already includes a disturbed video, the disturbance of the displayed video cannot be reduced. . For example, if the video signal input to the display device is a video signal obtained by decoding a video stream conforming to the MPEG standard, the MPEG video decoding unit will stop In some cases, the decoded screen is output and frozen, or a distorted video is output after the supply of the video stream is stopped. Such disturbance of the displayed image gives the viewer discomfort.
[0005]
Therefore, an object of the present invention is to provide a video reproduction system that reduces disturbance of a display video generated when a video signal is switched.
[0006]
Means for Solving the Problems and Effects of the Invention
A first invention is a video playback system including a video playback device and a display device, and selectively displaying a video played by the video playback device and another video on a screen,
The video playback device is
Control means for outputting a first control signal for selecting a stream to be decoded and a second control signal for selecting a video signal;
Video stream supply means for supplying a video stream obtained by encoding a video to be displayed,
Fixed video stream supply means for supplying a fixed video stream obtained by encoding the fixed video,
Stream switching means for switching and outputting either a video stream or a fixed video stream according to a first control signal;
Buffer means for temporarily storing the stream output from the stream switching means;
Decoding means for decoding the stream stored in the buffer means and outputting a reproduced video signal,
The display device is
Video signal switching means for switching and outputting either the reproduced video signal or another supplied video signal in accordance with the second control signal;
Display means for displaying a screen based on the video signal output from the video signal switching means,
The control means outputs a first control signal designating a video stream and a second control signal designating a reproduced video signal at the time of video reproduction, and the end of the video stream is transmitted from the video stream supply means to the buffer means. When supplied, the first control signal is switched to specify a fixed video stream, and after a lapse of a predetermined time from that point, the second control signal is switched to specify another video signal. I do.
According to the first aspect of the invention, the video playback device switches the stream to be decoded from the video stream to the fixed video stream when the end portion of the video stream is supplied to the buffer unit, and replaces the stream with the playback video signal. To output a fixed image (for example, an image whose entire screen is black). Further, the video playback device switches the video displayed on the display device after a predetermined time has elapsed from the switching of the stream. By switching between the stream and the video signal with a predetermined time difference, the video signal can be switched while the fixed video is displayed. Thus, it is possible to reduce the disturbance of the display image generated when the image signal is switched.
[0007]
According to a second aspect, in the first aspect, the predetermined time in the control means is longer than a time from when the fixed video stream is supplied to the buffer means to when the fixed video is displayed on the display means. I do.
According to the second aspect, the video signal is switched after the fixed video is displayed on the display device. Therefore, it is possible to reduce the disturbance of the display image generated when the image signal is switched.
[0008]
In a third aspect based on the second aspect, the video playback device further includes a format determination unit that determines a format of the video signal from the video stream,
The fixed video stream supply unit supplies a stream obtained by encoding a fixed video having the format determined by the format determination unit as a fixed video stream.
According to the third aspect, the video playback device obtains the format of the video signal from the video stream, and changes the format of the fixed video stream so that the screen size and the scanning method match before and after the stream switching. . For this reason, even after the stream switching, the decoding unit and the display unit can decode and display the fixed video stream without performing the reset operation. Therefore, even when the video to be displayed can take a plurality of formats having different screen sizes and scanning methods, it is possible to reduce disturbance of the displayed video that occurs when the video signal is switched.
[0009]
In a fourth aspect based on the third aspect, the video stream supply means supplies a video elementary stream compliant with the MPEG standard as a video stream.
According to the fourth aspect, in the case where the video stream is an MPEG video elementary stream, it is possible to reduce disturbance of the display video that occurs when the video signal is switched.
[0010]
In a fifth aspect based on the second aspect, the video stream supply means supplies the video stream in a state multiplexed with another stream,
The video playback device further includes parameter extraction means for extracting a parameter related to stream multiplexing from the stream supplied from the video stream supply means,
The fixed video stream supply unit supplies the fixed video stream based on the parameters extracted by the parameter extraction unit in a state where the decoding unit can decode the video stream subsequently.
According to the fifth aspect, the video playback device obtains a parameter related to stream multiplexing from a stream in which the video stream and another stream are multiplexed, and the fixed video that can be decoded continuously after the stream switching. Create a stream. For this reason, even after the stream switching, the decoding unit and the display unit can decode and display the fixed video stream without performing the reset operation. Therefore, even when the video stream is supplied in the form of an MPEG program stream, an MPEG transport stream, or the like, it is possible to reduce disturbance of the display video that occurs when the video signal is switched.
[0011]
In a sixth aspect based on the fifth aspect, the video stream supply means supplies the video stream in a state of a program stream compliant with the MPEG2 standard.
According to the sixth aspect, in the case where the video stream is supplied in the state of the MPEG program stream, it is possible to reduce the disturbance of the display video that occurs when the video signal is switched.
[0012]
In a seventh aspect based on the fifth aspect, the video stream supply means supplies the video stream in a state of a transport stream conforming to the MPEG2 standard.
According to the seventh aspect, in the case where the video stream is supplied in the form of the MPEG transport stream, it is possible to reduce the disturbance of the display video that occurs when the video signal is switched.
[0013]
In an eighth aspect based on the second aspect, the fixed video stream supply means supplies a stream obtained by encoding a single color fixed video as a fixed video stream.
According to the eighth aspect, by displaying a fixed image of a single color when the video signal is switched, it is possible to reduce disturbance of the display video that occurs when the video signal is switched.
[0014]
A ninth invention is a video playback system that includes a video playback device and a display device, and selectively displays, on a screen, a video played by the video playback device and another video,
The video playback device is
Control means for outputting a control signal for selecting a video signal,
Stream supply means for supplying a stream obtained by connecting a video stream obtained by encoding a video to be displayed and a fixed video stream obtained by encoding a fixed video for a first predetermined time;
Buffer means for temporarily storing the stream supplied from the stream supply means;
Decoding means for decoding the stream stored in the buffer means and outputting a reproduced video signal,
The display device is
In accordance with the control signal, a reproduced video signal, or video signal switching means for switching and outputting any of the other supplied video signals,
Display means for displaying a screen based on the video signal output from the video signal switching means,
The control means outputs a control signal for designating a reproduced video signal at the time of video reproduction. The switching is performed so as to specify the video signal.
According to the ninth aspect, the video playback device decodes a stream obtained by connecting the video stream and the fixed video stream. Further, the video playback device switches the video displayed on the display device after a second predetermined time has elapsed since the end of the video stream was supplied to the buffer means. By making the length of the fixed video stream sufficiently long and switching between the stream and the video signal with a predetermined time difference, the video signal can be switched while the fixed video is displayed. Accordingly, it is possible to reduce the disturbance of the display video generated when the video signal is switched without generating the fixed video stream in real time.
[0015]
In a tenth aspect based on the ninth aspect, the second predetermined time is longer than a time from when the fixed video stream is supplied to the buffer means to when the fixed video is displayed on the display means, and 1 is shorter than the predetermined time.
According to the tenth aspect, the video signal is switched while the fixed video is displayed on the display device. Therefore, it is possible to reduce the disturbance of the display image generated when the image signal is switched.
[0016]
In an eleventh aspect based on the tenth aspect, the stream supply means supplies a video elementary stream compliant with the MPEG standard as a video stream and a fixed video stream.
According to the eleventh aspect, in the case where the video stream is an MPEG video elementary stream, it is possible to reduce disturbance of the display video that occurs when the video signal is switched.
[0017]
In a twelfth aspect based on the tenth aspect, the stream supply means supplies the video stream in a state multiplexed with another stream, and thereafter, in a state where the decoding means can decode the video stream successively, It is characterized in that the fixed video stream is supplied in a multiplexed state with other streams.
According to the twelfth aspect, a fixed video stream that can be decoded following the video stream is connected to the video stream. For this reason, even after the stream switching, the decoding unit and the display unit can decode and display the fixed video stream without performing the reset operation. Therefore, even when the video stream is supplied in the form of an MPEG program stream, an MPEG transport stream, or the like, it is possible to reduce disturbance of the display video that occurs when the video signal is switched.
[0018]
In a thirteenth aspect based on the twelfth aspect, the stream supply means supplies the video stream and the fixed video stream in a state of a program stream conforming to the MPEG2 standard.
According to the thirteenth aspect, in the case where the video stream is supplied in the state of the MPEG program stream, it is possible to reduce the disturbance of the display video that occurs when the video signal is switched.
[0019]
In a fourteenth aspect based on the twelfth aspect, the stream supply means supplies the video stream and the fixed video stream in a state of a transport stream conforming to the MPEG2 standard.
According to the fourteenth aspect, in the case where the video stream is supplied in the state of the MPEG transport stream, it is possible to reduce the disturbance of the display video that occurs when the video signal is switched.
[0020]
In a fifteenth aspect based on the tenth aspect, the stream supply means supplies a stream obtained by encoding a single-color fixed video as a fixed video stream.
According to the fifteenth aspect, when a video signal is switched, a single-color fixed video is displayed, so that disturbance of a display video generated when the video signal is switched can be reduced.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
FIG. 1 is a block diagram showing the configuration of the video playback system according to the first embodiment of the present invention. The video playback system 1 shown in FIG. 1 includes a video playback device 10 and a display device 50. The video playback device 10 includes a control unit 11, an MPEG video stream supply unit 12, a black video stream supply unit 13, a video stream switching unit 14, a buffer 15, and an MPEG video decoding unit 16. The display device 50 includes a video signal switching unit 51 and a display unit 52.
[0022]
The MPEG video stream supply unit 12, the buffer 15, and the MPEG video decoding unit 16 constitute the following video signal reproduction system. The MPEG video stream supply unit 12 stores a video stream (MPEG video elementary stream) compliant with the MPEG video standard. The MPEG video stream supply unit 12 supplies the stored video stream to the buffer 15 via the video stream switching unit 14. The buffer 15 functions as a data buffer of the MPEG video decoding unit 16, and temporarily stores the video stream supplied from the MPEG video stream supply unit 12. The MPEG video decoding unit 16 appropriately reads the video stream stored in the buffer 15, decodes the video stream in accordance with the MPEG video standard, and outputs a reproduced video signal 123 as a decoding result. The reproduced video signal 123 is input to the display device 50. Note that the MPEG video stream supply unit 12 obtains a video stream from outside the video playback device 10 by communication, broadcast, or the like, instead of supplying the video stream stored therein, and supplies the obtained video stream. Is also good.
[0023]
The black video stream supply unit 13 supplies a stream (hereinafter, referred to as a black video stream) obtained by encoding a fixed video whose entire screen is black in accordance with the MPEG standard. The black video stream supplied by the black video stream supply unit 13 may have any content as long as it is a stream obtained by encoding a fixed video (that is, a video that does not change over time). However, practically, the black video stream is preferably a stream obtained by encoding a fixed video of a single color such as black or blue on the entire screen.
[0024]
The control unit 11 monitors the state of the buffer 15 and outputs a stream switching signal 121 and a video switching signal 122. Details of the control unit 11 will be described later. The video stream switching unit 14 determines whether the video stream supplied from the MPEG video stream supply unit 12 or the black video stream supplied from the black video stream supply unit 13 according to the stream switching signal 121 output from the control unit 11. Is output to the buffer 15.
[0025]
The display device 50 has a plurality of video input terminals (D1 and D2 in FIG. 1) for inputting video signals and a control input terminal (C in FIG. 1) for inputting control signals. The playback video signal 123 output from the MPEG video decoding unit 16 is input from the first video input terminal C1. The video signal 124 output from another video signal output device is input from the second video input terminal C2. From the control input terminal D, the video switching signal 122 output from the control unit 11 is input.
[0026]
The control signal and the plurality of video signals input to the display device 50 are input to the video signal switching unit 51. The video signal switching unit 51 outputs either the reproduced video signal 123 or the video signal 124 output from another video signal output device to the display unit 52 according to the video switching signal 122 input from outside the display device 50. Output to The display unit 52 performs screen display based on the video signal output from the video signal switching unit 51.
[0027]
In summary, the video reproducing system 1 performs the following three operations by outputting two types of control signals from the control unit 11. That is, the video reproduction system 1 specifies the “reproduced video signal” with the video switching signal 122 and the “video stream” with the stream switching signal 121 to convert the video stream supplied from the MPEG video stream supply unit 12. The image is decoded by the MPEG video decoding unit 16 and displayed on the screen. Further, the video playback system 1 specifies the “reproduced video signal” with the video switching signal 122 and the “black video stream” with the stream switching signal 121, so that the black video supplied from the black video stream supply unit 13 is specified. The stream is decoded by the MPEG video decoding unit 16 and displayed on the screen. Furthermore, the video playback system 1 displays a screen based on the video signal 124 output from another video signal output device by designating the “video signal other than the playback video signal” with the video switching signal 122.
[0028]
Next, details of the control unit 11 will be described. The control unit 11 monitors the state of the buffer 15 and outputs the stream switching signal 121 and the video switching signal 122 as described above. The control unit 11 is typically realized by a CPU (not shown) included in the video playback device 10 executing a predetermined program. At the time of video reproduction, the control unit 11 outputs a stream switching signal 121 specifying “video stream” and a video switching signal 122 specifying “reproduction video signal”. At this time, the control unit 11 checks whether or not the end portion of the video stream has been supplied from the MPEG video stream supply unit 12 to the buffer 15. The detection signal 111 shown in FIG. 1 is a signal indicating that the end of the video stream has been supplied. When detecting that the end portion of the video stream has been supplied to the buffer 15 (hereinafter, referred to as the end point detection time), the control unit 11 immediately switches the stream switching signal 121 so as to specify the “black video stream”. . Thus, the black video stream is supplied to the MPEG video decoding unit 16 after the end point detection time.
[0029]
When a predetermined time T1 has elapsed from the end detection time, the control unit 11 switches the video switching signal 122 so as to specify “a video signal other than a reproduced video signal”. However, the time T1 is longer than the time T2 from when the black video stream is supplied to the buffer 15 to when the black video is displayed on the display unit 52. Therefore, the video reproduction system 1 displays a black video on the screen when the time T2 has elapsed from the end detection time, and then displays the screen based on the video signal 124 when the time T1 has elapsed since the end detection time. Begin to. That is, when the reproduction of the video stream is completed, the video reproduction system 1 displays the black video on the screen, and then switches the display video. Therefore, according to the video playback system 1 according to the present embodiment, even when the MPEG video decoding unit 16 outputs a disturbed video signal when the supply of the video stream is stopped, the display video generated when the video signal is switched is output. Disturbance can be reduced.
[0030]
In the video reproduction system 1, the time T2 from when the black video stream is supplied to the buffer 15 to when the black video is displayed on the display unit 52 is determined by the content of the video stream, the characteristics of the MPEG video decoding unit 16, and the like. Depends on and is not constant. However, the time T2 can be experimentally obtained for various video streams, and the maximum value and the minimum value of the time T2 can be obtained in advance. Therefore, a time longer than the maximum value of the time T2 thus obtained may be used as the time T1 in the control unit 11.
[0031]
As a method for the control unit 11 to detect the end portion of the video stream, the following method can be considered. When the control unit 11 is not involved in the supply of the video stream, the control unit 11 detects the end of the video stream (sequence end code) when detecting that the code indicating the end of the video stream has been accumulated in the buffer 15. It may be determined that a part has been detected. The control unit 11 monitors the size of the stream stored in the buffer 15 and determines that the end of the video stream has been detected when detecting that the size has been continuously reduced for a predetermined time. May be. The control unit 11 may monitor the write pointer of the buffer 15 and determine that the end of the video stream has been detected when detecting that the write pointer does not change for a predetermined time.
[0032]
When the control unit 11 is involved in the supply of the video stream, the control unit 11 monitors the remaining size of the video stream, and detects the end portion of the video stream when detecting that the remaining size has become zero. You may judge that you did. Further, when the remaining size of the video stream becomes sufficiently close to zero, the control unit 11 may determine that the end portion of the video stream has been detected. As described above, instead of detecting the true end of the video stream, the control unit 11 may detect a portion almost at the end of the video stream.
[0033]
(Second embodiment)
FIG. 2 is a block diagram illustrating a configuration of a video playback system according to the second embodiment of the present invention. The video playback system 2 shown in FIG. 2 includes a video playback device 20 and a display device 50. The video playback device 20 includes a control unit 11, an MPEG video stream supply unit 21, a format determination unit 22, a black video stream supply unit 23, a video stream switching unit 14, a buffer 15, and an MPEG video decoding unit 16. The display device 50 includes a video signal switching unit 51 and a display unit 52. Among the components of the present embodiment, the same components as those of the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0034]
For example, in BS (Broadcasting Satellite) digital broadcasting, a high-definition image signal is newly introduced in addition to a standard image signal used in conventional analog broadcasting. FIG. 3 is a diagram showing a format of a video signal used in BS digital broadcasting. Comparing the four types of formats shown in FIG. 3, since the number of effective scanning lines is different from 480, 720, and 1080, the number of vertical and horizontal pixels is different, and the screen size is also different. As for the scanning method, two types of methods are used: an interlaced scanning (interlaced method) and a progressive scanning (progressive method).
[0035]
However, in the video playback system 1 according to the first embodiment, if the format of the video signal is different before and after the stream switching, a long initialization time is required until the MPEG video decoding unit outputs a black video. In some cases, the MPEG video decoding unit cannot correctly decode the black video stream. Therefore, the video reproduction system 2 according to the present embodiment generates a black video stream having the same format as the immediately preceding video stream.
[0036]
The video reproduction system 2 operates as follows. The MPEG video stream supply unit 21 stores an MPEG video elementary stream as a video stream, as in the first embodiment. However, it is assumed that the MPEG video stream supply unit 21 stores a plurality of video streams obtained by encoding video signals having a plurality of formats having different screen sizes and scanning methods. The MPEG video stream supply unit 21 supplies the stored video stream to the buffer 15 via the video stream switching unit 14, as in the first embodiment.
[0037]
The format determination unit 22 determines the format of the video signal from the video stream output from the MPEG video stream supply unit 21. More specifically, the format determination unit 22 detects a 4-byte sequence start code (sequence_start_code) included in the MPEG video elementary stream, and extracts a sequence header that appears immediately after the start code. The sequence header includes various data as shown in FIG.
[0038]
From the extracted sequence header, the video format determination unit 22 obtains the number of horizontal pixels (horizontal_size_value), the number of vertical pixels (vertical_size_value), the aspect ratio (aspect_ratio_information), and the frame rate (frame_rate_decode) from the extracted sequence header. The black video stream supply unit 23 receives the information from the format determination unit 22, and generates and supplies a black video stream according to the information. More specifically, the black video stream supply unit 23 generates a black video stream that has a format defined by the received information and is obtained by encoding a fixed video such as black in accordance with the MPEG standard. Supply.
[0039]
The video playback system 2 is the same as the video playback system 1 according to the first embodiment except that the format of the video signal included in the black video stream is changed in accordance with the video stream that was being played back at the time of stream switching. Works. For this reason, even after the stream switching, the MPEG video decoding unit 16 and the display unit 52 can continuously decode and display the black video stream without performing the reset operation. Therefore, even when the video to be displayed can take a plurality of formats having different screen sizes and scanning methods, it is possible to reduce disturbance of the displayed video that occurs when the video signal is switched.
[0040]
When the video playback system is used for a specific application, the format of the video signal used in the system is often limited to about several types. For example, in BS digital broadcasting, four types of formats shown in FIG. 3 are used. In such a case, the black video stream supply unit 23 previously accumulates all the black video streams having various formats used in the system, and receives the black video stream from the format determination unit 22 from among these black video streams. Any of the black video streams may be selected and supplied according to the information. This eliminates the need to newly generate a black video stream at the time of stream switching, so that the load on the video reproduction system can be reduced.
[0041]
In the above description, the black video stream supply unit 23 changes the format of the video signal included in the black video stream. May be fixedly supplied, the buffer 15 may be accessed, and the format of the video signal included in the black video stream stored in the buffer 15 may be changed.
[0042]
In the above description, the video stream is an MPEG video elementary stream, and the format discriminating unit 22 acquires information on the format of the video signal from the sequence header. However, depending on the type of the stream to be reproduced, information other than the sequence header may include information on the format of the video signal. In such a case, it goes without saying that the format discriminating unit 22 obtains information on the format of the video signal from portions other than the sequence header.
[0043]
(Third embodiment)
FIG. 5 is a block diagram illustrating a configuration of a video reproduction system according to the third embodiment of the present invention. The video playback system 3 shown in FIG. 5 includes a video playback device 30 and a display device 50. The video playback device 30 includes a control unit 11, an MPEG transport stream supply unit 31, a parameter extraction unit 32, a black video stream supply unit 33, a video stream switching unit 14, a buffer 15, an MPEG system decoding unit 34, and MPEG video decoding. A part 16 is included. The display device 50 includes a video signal switching unit 51 and a display unit 52. Among the components of the present embodiment, the same components as those of the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0044]
A video stream conforming to the MPEG standard may be used as it is as an MPEG video elementary stream, or may be used in a state multiplexed with another stream such as an audio elementary stream. As a typical example of the latter, there is a case where a video stream is multiplexed and used with an MPEG transport stream defined by the MPEG2 system standard (ISO / IEC 13818-1). A system using a transport stream is also adopted in DTV (Digital Television) in the United States and BS digital broadcasting in Japan.
[0045]
The transport stream is constituted by packets having a length of 188 bytes. Each packet includes a packet header and data. FIG. 6 is a table showing the contents of the packet header. The data included in each packet is any of video, audio, program specification information (hereinafter, referred to as PSI), and other data. The type of data included in each packet is determined by a packet ID (hereinafter, referred to as PID) included in the packet header.
[0046]
Information indicating which PID is assigned to each packet in the transport stream is described in a packet of a program map table (Program Map Table: hereinafter referred to as PMT) included in the PSI. The PID of the PMT itself is described in a packet of a Program Association Table (hereinafter, referred to as PAT). The PID of the PAT is 0x00 (hexadecimal notation).
[0047]
In order to obtain a reproduced video signal by decoding a transport stream, it is necessary to perform MPEG system decoding processing and MPEG video decoding processing. In the MPEG system decoding process, each packet constituting the transport stream is distributed to a plurality of decoding units for each type based on the PID included in the packet header. The MPEG video decoding unit operates as one of such decoding units. After obtaining the MPEG2 video elementary stream from the sorted packets, the MPEG video decoding unit decodes the obtained stream in accordance with the MPEG2 standard.
[0048]
However, in the video playback systems 1 and 2 according to the first and second embodiments, the video stream is supplied in the form of a transport stream, and a packet is formed by a black video stream and a video stream decoded immediately before the black video stream. Are different from each other, the packets constituting the black video stream cannot be correctly distributed to the MPEG2 decoding unit. Therefore, the video playback system 3 according to the present embodiment generates a black video stream that can be decoded following the video stream that was decoded immediately before.
[0049]
The video reproduction system 3 operates as follows. The MPEG transport stream supply unit 31, the buffer 15, the MPEG system decoding unit 34, and the MPEG video decoding unit 16 constitute the following MPEG transport stream reproduction system. The MPEG transport stream supply unit 31 stores a transport stream. The MPEG transport stream supply unit 31 supplies the stored transport stream to the buffer 15 via the video stream switching unit 14, as in the first and second embodiments. In this way, the MPEG transport stream supply unit 31 supplies the MPEG elementary video stream, which is a video stream, to the buffer 15 in a state where the MPEG elementary video stream is multiplexed with the transport stream.
[0050]
The buffer 15 functions as a data buffer of the MPEG system decoding unit 34, and temporarily stores the transport stream supplied from the MPEG transport stream supply unit 31. The MPEG system decoding unit 34 reads the transport stream stored in the buffer 15 for each packet, and distributes the transport stream to a plurality of decoding units by type based on the PID of each packet. The MPEG system decoding unit 34 extracts a data portion from a packet whose PID matches the PID of the MPEG2 video elementary stream and supplies the data portion to the MPEG video decoding unit 16. The MPEG video decoding unit 16 decodes the video stream supplied from the MPEG system decoding unit 34 in accordance with the MPEG2 video standard, and outputs a decoded video signal 123 as a decoding result.
[0051]
The parameter extraction unit 32 extracts parameters related to stream multiplexing from the transport stream output from the MPEG transport stream supply unit 31. Here, the parameters related to stream multiplexing include information included in the packet header and information included in the MPEG2 system stream. The parameter extraction unit 32 performs the following processing on the packets sequentially output from the MPEG transport stream supply unit 31.
[0052]
The parameter extracting unit 32 first searches for a packet having a PID of 0x00 (hexadecimal notation) from sequentially input packets, and obtains PAT information from the found packet. Next, the parameter extracting unit 32 acquires the PID of the PMT from the obtained PAT information. Next, the parameter extraction unit 32 searches for a packet whose PID matches the PID of the PMT from among the sequentially input packets. In the PMT, the PID of each packet multiplexed in the stream is described in a set with a stream type having a length of 1 byte. The stream type of the MPEG2 video elementary stream is 0x02 (hexadecimal notation). The parameter extracting unit 32 obtains a PID used for the MPEG2 video elementary stream.
[0053]
The black video stream supply unit 33 receives the PID of the MPEG2 video elementary stream from the parameter extraction unit 32, and generates and supplies a black video stream according to the received PID. More specifically, the black video stream supply unit 33 has the received PID, includes the black video stream in the data part, and decodes the MPEG system decoding unit 34 and the MPEG video decoding unit 16 following the video stream. Generate and supply packets as possible.
[0054]
For each device that uses the transport stream, the standard for each device stipulates that PAT and PMT appear in the transport stream at predetermined time intervals. For example, the DTV in the United States is "ATSC Document A / 53" standardized by the ATSC (Advanced Television Systems Committee), and the BS digital broadcast is the Association of Radio Industries Association (ARIB: Association of Radio Industries standards) In the “ARIB STD-10 program arrangement information used for digital broadcasting”, the insertion time intervals of the PAT and the PMT are specified. FIG. 7 is a table showing the insertion time intervals of the PAT and PMT specified in the U.S. DTV and BS digital broadcasting. The black video stream supply unit 33 outputs a black video stream by inserting packets including PAT and PMT having the same information as the read video stream at a time interval shorter than the time shown in FIG.
[0055]
Further, between the black video stream and the video stream immediately before it, the program clock reference (program_clock_reference) included in the transport stream and the continuity counter (continuity_counter) included in the packet header need to be continuous. Therefore, the black video stream supply unit 33 also performs processing for making these values continuous between the black video stream and the video stream immediately before it.
[0056]
The video playback system 3 can be played back following the transport stream that was being played back at the time of stream switching, except that a packet including a black video stream is generated and that the MPEG system decoding process is performed. The operation is similar to that of the video reproduction system 1 according to the embodiment. For this reason, even after the stream switching, the MPEG video decoding unit 16 and the display unit 52 can continuously decode and display the black video stream without performing the reset operation. Therefore, even when the video stream is supplied in the form of a transport stream, it is possible to reduce the disturbance of the displayed video that occurs when the video signal is switched.
[0057]
In the above description, the video reproduction system 3 reproduces the transport stream specified by the MPEG2 system standard and performs screen display. Playback and screen display may be performed. A video playback system that plays back a program stream and displays a screen has the same principle as a video playback system that plays back a transport system and displays a screen.
[0058]
(Fourth embodiment)
FIG. 8 is a block diagram illustrating a configuration of a video reproduction system according to the fourth embodiment of the present invention. The video playback system 4 shown in FIG. 8 includes a video playback device 40 and a display device 50. The video playback device 40 includes a control unit 41, an MPEG transport stream supply unit 42, a buffer 15, an MPEG system decoding unit 34, and an MPEG video decoding unit 16. The display device 50 includes a video signal switching unit 51 and a display unit 52. Among the components of the present embodiment, the same components as those of the first or third embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0059]
The MPEG transport stream supply unit 42 supplies a transport stream compliant with the MPEG2 standard, as in the third embodiment. However, as shown in FIG. 9, the transport stream supplied from the MPEG transport stream supply unit 42 is a transport stream including a video stream obtained by encoding a video to be displayed (FIG. 9A). ), A stream obtained by concatenating a black video transport stream including a black video stream obtained by encoding a black video for a predetermined time Ta (FIG. 9B).
[0060]
The control unit 41 monitors the state of the buffer 15 and outputs a video switching signal 122. The control unit 41 is typically realized by a CPU (not shown) included in the video reproduction device 40 executing a predetermined program, as in the first to third embodiments. The control unit 41 outputs a video switching signal 122 specifying a “reproduced video signal” during video reproduction. At this time, the control unit 41 checks whether or not the end portion of the video stream has been supplied from the MPEG transport stream supply unit 42 to the buffer 15. The detection signal 111 shown in FIG. 8 is a signal indicating that the end of the video stream has been supplied. The method by which the control unit 41 detects the end portion of the video stream is the same as in the first embodiment.
[0061]
When detecting that the end of the video stream has been supplied to the buffer 15 (hereinafter referred to as “end detection time”), the control unit 41 sets the video switching signal 122 to “playback video” when a predetermined time Tb has elapsed. Video signal other than signal ". The time Tb is longer than the time Tc from when the black video stream is supplied to the buffer 15 to when the black video is displayed on the display unit 52 and shorter than the time Ta. Therefore, the video playback system 4 displays the black video on the screen when the time Tc has elapsed from the end detection time, and then displays the screen based on the video signal 124 when the time Tb has elapsed since the end detection time. Begin to. Further, since the time Tb is shorter than the time Ta during which the black video is displayed, the switching of the video signal is performed while the black video is displayed. Therefore, according to the video reproduction system 4 according to the present embodiment, it is possible to reduce disturbance of a display video that occurs when a video signal is switched without generating a black video stream in real time. This embodiment is particularly effective when the hardware capability of the video playback device is not sufficient to perform processing for extracting a parameter from a video stream and generating a black video stream.
[0062]
As described in the first embodiment, in the video reproduction system 4, the time Tc from when the black video stream is supplied to the buffer 15 to when the black video is displayed on the display unit 52 is determined by the content of the video stream. And the characteristics of the MPEG video decoding unit 16 and the like, and are not constant. However, the time Tc can be experimentally obtained for various video streams, and the maximum value and the minimum value of the time Tc can be obtained in advance. Therefore, a time longer than the maximum value of the time Tc thus obtained may be used as the time Tb, and a time longer than the time Tb may be used as the time Ta during which a black image is displayed.
[0063]
As described above, the video playback systems according to the first to fourth embodiments of the present invention output the black video signal and the video switching signal from the video playback device at appropriate timing, and the black video is displayed. By switching the video signal while the video signal is being displayed, it is possible to reduce disturbance of the display video generated when the video signal is switched.
[0064]
In the first to fourth embodiments, the display device 50 receives the playback video signal 123 output from the video playback device and the video signal 124 output from another video signal output device. However, the reproduced video signal 123 and the video signal 124 may be output from one device. A product information providing system using a personal computer will be described as a specific example of such a video reproduction system. The product information providing system described below selectively displays a screen obtained by reproducing a video stream and a presentation screen generated by a presentation screen generation program on the screen. This system is installed in a store, for example, and provides information on merchandise sold in a store using a moving image (reproduced video) and a still image (presentation screen).
[0065]
For example, when the first embodiment is described as an example, the video playback device 10 is configured using a personal computer. The MPEG video stream supply unit 12 is configured by a storage medium such as a CD-ROM and a hard disk. The buffer 15 and the MPEG video decoding unit 16 are constituted by an MPEG decoding board. The personal computer is equipped with a program for controlling the MPEG decoding board (hereinafter, referred to as a decoding control program). The decoding control program has a function of setting various parameters on the MPEG decoding board, a function of supplying a stream to the MPEG decoding board, and the like. The control unit 11, the black video stream supply unit 13, and the video stream switching unit 14 are realized by the CPU of the personal computer executing the decoding control program. Other video signal output devices are also configured using the same personal computer as the video playback device 10. When the CPU of the personal computer executes the presentation screen generating program, the personal computer functions as another video signal output device and outputs the video signal 124. As the display device 50, a large-screen display device such as a PDP (Plasma Display Panel) is used. A similar product information providing system can be configured in the second to fourth embodiments.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a video reproduction system according to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a video reproduction system according to a second embodiment of the present invention.
FIG. 3 is a table showing a format of a video signal used in BS digital broadcasting.
FIG. 4 is a table showing the contents of a sequence header included in an MPEG video elementary stream.
FIG. 5 is a block diagram illustrating a configuration of a video reproduction system according to a third embodiment of the present invention.
FIG. 6 is a table showing contents of a packet header included in an MPEG transport stream.
FIG. 7 is a table showing insertion time intervals of a PAT and a PMT specified in US DTV and BS digital broadcasting.
FIG. 8 is a block diagram illustrating a configuration of a video reproduction system according to a fourth embodiment of the present invention.
FIG. 9 is a diagram showing a transport stream reproduced by a video reproduction system according to a fourth embodiment of the present invention.
FIG. 10 is a block diagram illustrating a configuration of a conventional display device.
[Explanation of symbols]
1-4: Video playback system
10, 20, 30, 40 ... Video playback device
11, 41 ... control unit
12, 21 ... MPEG video stream supply unit
13, 23, 33: black video stream supply unit
14. Video stream switching unit
15 ... Buffer
16: MPEG video decoding unit
22: Format discriminating unit
31, 42 ... MPEG transport stream supply unit
32: Parameter extraction unit
34: MPEG system decoding unit
50 Display device
51 ... Video signal switching unit
52 Display unit
111 ... detection signal
121 ... stream switching signal
122 ... Video switching signal
123 ... reproduced video signal
124 ... video signal

Claims (15)

A video playback system that includes a video playback device and a display device, and selectively displays a video played by the video playback device and another video on a screen,
The video playback device,
Control means for outputting a first control signal for selecting a stream to be decoded and a second control signal for selecting a video signal;
Video stream supply means for supplying a video stream obtained by encoding a video to be displayed,
Fixed video stream supply means for supplying a fixed video stream obtained by encoding the fixed video,
Stream switching means for switching and outputting either the video stream or the fixed video stream according to the first control signal;
Buffer means for temporarily storing the stream output from the stream switching means,
Decoding means for decoding the stream stored in the buffer means and outputting a reproduced video signal,
The display device,
Video signal switching means for switching and outputting any one of the reproduced video signal or another supplied video signal according to the second control signal;
Display means for displaying a screen based on the video signal output from the video signal switching means,
The control means outputs the first control signal designating the video stream and the second control signal designating the reproduced video signal at the time of video reproduction. The first control signal is switched so as to specify the fixed video stream at the time when the stream is supplied from the stream supply means to the buffer means, and after a lapse of a predetermined time from the time, the second control signal is switched to the other control signal. A video reproduction system characterized by switching to specify a video signal. 2. The apparatus according to claim 1, wherein the predetermined time in the control unit is longer than a time from when the fixed video stream is supplied to the buffer unit to when a fixed video is displayed on the display unit. 3. Video playback system. The video playback device further includes a format determination unit that determines a format of a video signal from the video stream,
3. The video according to claim 2, wherein the fixed video stream supply unit supplies a stream obtained by encoding a fixed video having the format determined by the format determination unit as the fixed video stream. 4. Reproduction system. The video playback system according to claim 3, wherein the video stream supply unit supplies a video elementary stream compliant with the MPEG standard as the video stream. The video stream supply means supplies the video stream in a multiplexed state with another stream,
The video playback device further includes a parameter extraction unit that extracts a parameter related to stream multiplexing from the stream supplied from the video stream supply unit,
The fixed video stream supply unit supplies the fixed video stream in a state where the decoding unit can decode the video stream subsequently based on the parameters extracted by the parameter extraction unit. Item 3. The video reproduction system according to Item 2. The video playback system according to claim 5, wherein the video stream supply unit supplies the video stream in a state of a program stream compliant with the MPEG2 standard. 6. The video playback system according to claim 5, wherein the video stream supply unit supplies the video stream in a state of a transport stream conforming to the MPEG2 standard. The video reproduction system according to claim 2, wherein the fixed video stream supply unit supplies a stream obtained by encoding a single color fixed video as the fixed video stream. A video playback system that includes a video playback device and a display device, and selectively displays a video played by the video playback device and another video on a screen,
The video playback device,
Control means for outputting a control signal for selecting a video signal,
Stream supply means for supplying a stream obtained by connecting a video stream obtained by encoding a video to be displayed and a fixed video stream obtained by encoding a fixed video for a first predetermined time;
Buffer means for temporarily storing the stream supplied from the stream supply means,
Decoding means for decoding the stream stored in the buffer means and outputting a reproduced video signal,
The display device,
According to the control signal, the reproduced video signal, or video signal switching means for switching and outputting any of the other supplied video signal,
Display means for displaying a screen based on the video signal output from the video signal switching means,
The control means outputs the control signal designating the reproduced video signal at the time of video reproduction, and a second predetermined time elapses from the time when the end portion of the video stream is supplied from the stream supply means to the buffer means. A video playback system, characterized in that the control signal is switched to specify the other video signal later. The second predetermined time is longer than the time from when the fixed video stream is supplied to the buffer means to when the fixed video is displayed on the display means, and shorter than the first predetermined time. The video reproduction system according to claim 9, wherein: The video playback system according to claim 10, wherein the stream supply unit supplies a video elementary stream conforming to the MPEG standard as the video stream and the fixed video stream. The stream supply unit supplies the video stream in a multiplexed state with another stream, and thereafter, in a state where the decoding unit can decode the video stream following the video stream, converts the fixed video stream into another stream. The video reproduction system according to claim 10, wherein the video reproduction system supplies the video data in a multiplexed state. 13. The video playback system according to claim 12, wherein the stream supply unit supplies the video stream and the fixed video stream in a state of a program stream conforming to the MPEG2 standard. 13. The video playback system according to claim 12, wherein the stream supply unit supplies the video stream and the fixed video stream in a state of a transport stream conforming to the MPEG2 standard. The video playback system according to claim 10, wherein the stream supply unit supplies a stream obtained by encoding a single-color fixed video as the fixed video stream.

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