JP2006033253A - Digital television receiver, digital television receiving method, and digital television receiving program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem of a conventional digital television receiver that a video image is sometimes differently displayed from intended rectangular conversion by setting video image rectangular conversion before reproduction because the resolution of the video image is not recognized until the video image is reproduced. <P>SOLUTION: This digital television receiver includes a resolution selection means 2007 for discriminating by which of setting of the SD and the HD a designated video image is decoded, and the video image is not displayed differently from intended rectangular conversion by confirming before reproduction, the propriety of the rectangular conversion applied to the resolution of the video image acquired before reproduction. Since the result of the reproduction of the video image and rectangular conversion by an application can be recognized before reproduction, a display result different from that intended by the application can be avoided. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a digital TV receiver that receives a TV broadcast in which programs having different video resolutions are mixed.

Digitalization of TV broadcasting has made it possible to broadcast programs such as apps in addition to normal video and audio.
Such an application can be executed on a receiving apparatus that has received a broadcast, and can display information on a program being viewed, an electronic program guide (EPG), and the like. At this time, the application can freely set the arrangement of the menu on the screen, the image being played back, etc., so that the service can be provided by a free user interface for each application.

In addition, the high-definition television broadcasting has made it possible to broadcast high-definition (hereinafter referred to as HD) video programs. However, since HD video has a large amount of data and a large burden on the creation of the program, broadcasting of a conventional low-resolution (SD) video program and a high-resolution video program is performed in a mixed manner. ing.
However, Patent Document 1 also shows that when switching between HD and SD playback, a delay occurs for switching the mode of decoding processing in the decoder.

  As shown in FIG. 20, in a conventional digital TV receiver, an application was broadcast by designating a part of the broadcasted stream 1101 as a cutout area 1102 and a part of the TV screen 1104 as a projection area 1103. A portion specified by the cutout area 1102 of the stream 1101 can be displayed in an enlarged or reduced manner on the projection area 1103 of the TV screen 1104. Thereby, free screen display can be performed for each application.

In the case of a TV broadcast in which programs with different video resolutions are mixed, the screen resolution setting may be changed depending on the resolution of the video being played. At this time, since it is not possible to know the screen setting after playing the selected video before playing the selected video, when specifying the video display position, it does not depend on the screen resolution setting. It is necessary to specify the position to display the video. For this reason, a method for designating the display position of the image by coordinates on the screen or normalized coordinates has been adopted in ARIB (BML) in Japan, DVB-MHP in Europe, OCAP in the United States, and the like.
JP 2002-10252 A

  However, since the resolution information of the video is in the video stream compressed by MPEG2, the application cannot know the resolution of the video unless the video is reproduced. For this reason, when the application plays back the video, it is impossible to know what the screen settings will be like by playing the video before playback, so it cannot be specified with the coordinates on the screen . For this reason, the application designates the display position of the video using the normalized coordinates. However, if the resolution of the screen intended when calculating the normalized coordinates is different from the resolution of the screen when the video is actually reproduced, there is a problem that the display position of the video is shifted.

  For example, as shown in FIG. 1, when the resolution of the video stream is 720 * 480, the resolution of the video display area (video display area) is 720 * 480, the resolution of the graphic display area is 720 * 480, and the resolution of the video stream is In the case of 1920 * 1080, in the case of a TV receiver in which the resolution of the video display area (video display area) is 1920 * 1080 and the resolution of the graphic display area is 960 * 540, the application tries to reproduce as shown in FIG. By predicting the video as a low-resolution stream, the video 1003 has an upper left point 1007 (100, 100), a lower right point 1008 (199, 199), and a graphic 1004 has an upper left point 1009 (200, 100). If the lower right point 1010 is to be displayed at the position (299, 199), the video table To represent the position of the normalized coordinate, the upper left position of the video based on the low-resolution video display area of the calculated (100 / 720,100 / 480), performs the calculations as well other respects.

  At this time, when the actually reproduced video 1005 has a high resolution, the upper left position 1011 of the video is (100/720 * 1920, 100/480 * 1080), and other points are calculated in the same manner. At this time, the points (199, 100) and (200, 100) that are adjacent when displaying at a low resolution are converted into (531, 225) and (533, 225) after the above calculation, As shown in FIG. 2, a gap is generated between the video 1005 and the graphic 1006 displayed adjacent to each other.

  An object of the present invention is to solve the above-described conventional problems and to enable an application to correctly set a screen display after video playback by notifying the application of resolution information before video playback. To do.

  In order to solve the above problems, a digital TV receiver according to claim 1 of the present invention is a digital TV middleware that receives a digital broadcast and outputs it to a TV, and is linked with the digital TV middleware in relation to a digital broadcast program. In the digital TV receiving apparatus configured of an application program configured to operate and display a graphic drawing along with the program video, the digital TV middleware decodes the received TS and filters the AV information and the program information. Whether the video can be displayed in the video display area by the resolution specifying means for specifying and extracting the video resolution of the program included in the program information and the display position information of the video and graphic specified by the application program A rectangle conversion determination unit for determining whether or not An output image that is generated by performing rectangular conversion using the video display position information, the video display area resolution, and the rectangular conversion information specified by the application program; an output image generation unit that generates a graphic output image from the graphic display position information and the graphic display information; The output program is composed of an output unit that synthesizes and outputs the output video and the graphic output image, and the application program includes the resolution specified by the resolution specifying means, the display position of the video display area corresponding to the resolution, and the graphic display area. Display information selection means for specifying the display position and notifying the rectangular conversion determination unit, and a display information specifying unit for determining the video display position and the graphic display position based on the rectangular conversion availability information from the rectangular conversion determination unit, Identify the graphic display position and graphic display information, and Characterized in that it is composed of a graphic drawing instruction means notifies the output image generating unit.

  According to a second aspect of the present invention, in the digital TV receiver according to the first aspect of the invention, the digital TV middleware further determines whether the resolution information is a high resolution or a low resolution in place of the rectangular conversion determination unit. A resolution selection unit, a determination result indicating that the video resolution is high, a high-resolution rectangular conversion availability determination unit that determines whether the video can be displayed in a high-resolution display area; and the determination result that the video resolution is low In the case of resolution, it is characterized by comprising low resolution rectangular conversion feasibility judging means for judging whether or not the video can be displayed in a low resolution display area.

  The digital TV receiving method according to claim 3 is a digital TV receiving method for receiving a digital broadcast and outputting it to a TV. The TS decoding step for decoding received TS and filtering AV information and program information; Specifying and extracting the video resolution of the program included in the program information, specifying the resolution specified in the resolution specifying step, the display position of the video display area corresponding to the resolution, and the display position of the graphic display area A display information selection step to perform, a rectangular conversion determination step for determining whether or not the video can be displayed in the video display area based on the display position information of the video and the graphic, and a video display position and a graphic display position based on the determination result. The display information specifying step for determining the display position and the display position information A graphic drawing instruction step for specifying a video display position and graphic display information, an output video generated by converting the video into a rectangle based on the video display position information, video display area resolution, and rectangular conversion information, graphic display position information, An output image generating step for generating a graphic output image from graphic display information, and an output step for combining and outputting the output video and the graphic output image are characterized.

  The digital TV receiving program according to claim 4 is a program executed by a digital TV receiving apparatus that receives a digital broadcast and outputs it to a TV. The TS decoding decodes the received TS and filters AV information and program information. A resolution specifying step for specifying and extracting a video resolution of the program included in the program information, a resolution specified in the resolution specifying step, a display position of the video display area corresponding to the resolution, and a graphic display area A display information selection step for specifying a display position; a rectangular conversion determination step for determining whether the video can be displayed in the video display area based on the display position information of the video and graphics; and a video display position based on the determination result. And a display information specifying step for determining a graphic display position; A graphic drawing instruction step for specifying a graphic display position and graphic display information based on position information; an output video generated by converting the video into a rectangle based on the video display position information, video display area resolution and rectangular conversion information; An output image generation step of generating a graphic output image from display position information and graphic display information, and an output step of combining and outputting the output video and the graphic output image are characterized.

  According to the present invention, the application reproduces the video by notifying the application of the resolution of the video before performing the reproduction, and determining whether or not the rectangular conversion to be performed by the application on the video is performed. Since the result of the conversion can be known before reproduction, it is possible to avoid a display result different from that intended by the application.

Embodiments of the present invention will be described below with reference to the drawings.
(Embodiment 1)
FIG. 3 is a block diagram showing the configuration of the digital TV receiver according to Embodiment 1 of the present invention.
A digital TV receiving apparatus 2001 according to Embodiment 1 of the present invention includes digital TV middleware 2002 and an EPG application 2003 that is an application program.

  The digital TV middleware 2002 includes a channel specifying unit (not shown), a TS decoding unit 2005, a resolution specifying unit 2006, a rectangular conversion determination unit 2020, a screen resolution information 2008, an output image generation unit 2021, and an output unit 2013. It has the following functions.

The channel specifying means specifies the transport stream (hereinafter referred to as TS) of the designated channel.
A TS decoding unit 2005 decodes the designated TS, and extracts table information such as Audio / Video information (hereinafter referred to as AV information) and program information included in the TS.
A resolution specifying unit 2006 specifies a video selected from a plurality of videos included in the program information, and takes out the resolution of the video to be reproduced.

The rectangular conversion determination unit 2020 includes a resolution selection unit 2007, a low resolution rectangular conversion availability determination unit 2009, and a high resolution rectangular conversion availability determination unit 2010, and determines whether or not the designated rectangular conversion is possible.
Among these, the resolution selection means 2007 receives the video display position, the video resolution, and the video display area resolution, and selects the low-resolution rectangular conversion availability determination means 2009 or the high-resolution rectangular conversion availability determination means 2010 corresponding to the combination. To do.
Further, the low-resolution rectangular conversion availability determination unit 2009 determines whether rectangular conversion is possible when the selected video has a low resolution (hereinafter referred to as SD) from the video resolution, video display position, screen resolution, platform restrictions, and the like. The resolution selection means 2007 is notified of whether or not it is possible.
Further, the high-resolution rectangular conversion availability determination unit 2010 determines whether rectangular conversion is possible when the selected video is high resolution (hereinafter referred to as HD) from the video resolution, video display position, screen resolution, platform restrictions, and the like. The resolution selection means 2007 is notified of whether or not it is possible.

The screen resolution information 2008 holds a combination of the resolution of the video and the graphic display area that can be realized for each resolution of the selected video with priority.
The output image generation unit 2021 includes a video display unit 2011 and a graphic drawing unit 2012.
Among these, the video display means 2011 decodes and outputs the selected video to the selected video display position.
Further, the graphic drawing unit 2012 outputs a graphic at a designated display position.
The output unit 2013 synthesizes the outputs from the video display unit 2011 and the graphic drawing unit 2012 and outputs the synthesized result to the TV 2014.

  The EPG application 2003 includes a display position information providing unit 2022, a display information specifying unit 2018, and a graphic drawing instruction unit 2016, and has the following functions.

The display position information providing unit 2022 includes display information selection means 2015 and display position information 2019.
Of these, the display information selection means 2015 holds a combination of video and graphic display positions for each video resolution and video display area resolution, and displays video and graphics according to the video to be played back. Determine the position.
Further, the display position information 2019 holds video resolution, video corresponding to the resolution of the video display area, and graphic display position information.
The display information specifying unit 2018 notifies the graphic drawing instruction unit 2016 and the video display unit 2011 of the determined video and graphic display position information.
The graphic drawing instruction unit 2016 specifies graphic information to be displayed.

  Next, using FIG. 3 and FIG. 4, the digital TV receiver provides information for the application to specify the display position of the video, and the digital TV determines whether the display position specified by the application can be reproduced, and the video The process up to outputting is described.

  The channel specifying means specifies the TS including the video information selected by the viewer by frequency or the like (3002), and the TS decoding unit 2005 decodes the TS specified by the channel specifying means, and is selected from the decoded TS. The video information is obtained by searching for the video identifier (3003), and the resolution specifying means 2006 determines whether the selected video information in the decoded TS contains resolution information or not. Is included in the selected video information (3004). If resolution information is included, the resolution of the video is acquired from the resolution information (3005). If the resolution information is not included, the resolution defined as the standard value of the system or the resolution of the video being played back is acquired as the video resolution (3006).

  The display information selection unit 2015 of the EPG application reproduces the video resolution and the video from the video corresponding to the video resolution acquired from the resolution specifying unit 2006 and the information that the display position information 2019 holds the graphic display position. By specifying the display position of the video and graphic corresponding to the resolution of the video display area at the time of the display (3007).

Next, referring to FIG. 5, a process until it is determined whether the display position of the video specified in FIG. 4 is possible and output to the TV screen will be described.
The display information selection unit 2015 of the EPG application notifies the resolution selection unit 2007 of the video display conditions including the resolution of the video specified in 3007, the resolution of the video display area, the video display position, and the like. The resolution selection unit 2007 determines whether the video display condition specified by the display information selection unit 2015 is to reproduce SD video or HD video, information included in the screen resolution information 2008, and video resolution. If the SD video is to be played back, the low-resolution rectangular conversion availability determination unit 2009 is informed to the low-resolution rectangular conversion availability determination unit 2009. If the HD video is to be played back, the high-resolution rectangular conversion availability determination unit 2010 is determined. Is notified of the video display conditions (3010).

The low-resolution rectangular conversion enable / disable judging unit 2009 determines whether the video display condition can be displayed in the HD / SD screen setting, the resolution of the video, and the video enlargement / reduction ratio from the video display position is the limit value of the platform for reproducing the SD video. The display information specifying unit (2018) notifies the display information specifying unit (2018) of the result (3011).
The high-resolution rectangular conversion enable / disable judging unit 2010 determines whether the video display condition can be displayed in the HD / SD screen setting, and the video resolution, and the video enlargement / reduction ratio from the video display position is the limit value of the platform that plays the HD video. The display information specifying unit (2018) notifies the display information specifying unit (2018) of the result (3012).

If video display is impossible under the specified video display conditions, the display information specifying unit 2018 of the EPG application displays different display information corresponding to the video resolution acquired from the resolution specifying unit 2006 as the previous (3007). Specified by obtaining the display resolution of the video and graphic corresponding to the resolution of the video display area when reproducing the video from the information held by changing the resolution of the video display area etc. Then, the video display conditions are designated again in the resolution selection means 2007 (3007).
If display is possible, the display information specifying unit 2018 specifies the video display condition and the video identifier for specifying the selected video in the video display unit 2011 (3013), and the video display unit 2011 specifies the specified video. The video specified by the video identifier according to the display condition is output to the output unit 2013.

The graphic drawing instruction unit 2016 specifies a graphic display condition corresponding to the video display condition specified in 3013 to the graphic drawing unit 2012, and the graphic drawing unit 2012 draws the video of the specified graphic and outputs it to the output unit 2013. .
The output unit 2013 synthesizes the video and graphics output by the video display unit 2011 and the graphic drawing unit 2012 and outputs them to the TV 2014.
Thus, it is possible to accurately know the display of the playback result before playing back the video, and it is possible to prevent the screen display from being different from what the application intended.

Next, the operation of the digital TV receiving apparatus having the above-described configuration according to the present invention will be specifically described with an example of information to be transmitted.
FIG. 6 shows the configuration of a program information table (PMT) 4001 included in the TS.
The program information table 4001 defines various kinds of information necessary for the digital TV receiving apparatus 2001 to reproduce a broadcast program selected by a viewer, and also defines identifiers related to components of the broadcast program. This program information table 4001 is input as section data in the TS together with video data and audio data.
The program information table in FIG. 6 is specified by a program identifier 4012 and represents a program including two videos 4002 and 4003 and one audio 4004. Video A, video B, and audio C are video identifiers 4005, respectively. The video identifier 4008 and the audio identifier 4011 are specified. The resolution of the video A 4002 is represented as 720 * 480 by the video resolution 4007 specified by the video resolution information identifier 4006 included in the video A information 4002. The resolution of the video B 4003 is 1920 * 1080 by the video resolution 4010 specified by the video resolution information identifier 4009 included in the video B information 4003.

FIG. 7 shows the display position information 2019 held by the display information selection means 2015 of the EPG application.
The display position information 2019 indicates a combination of zero or more sets of video clipping positions, video and graphic display positions for each combination of one or more video resolutions and one or more display area resolutions. keeping. When the display information selection unit 2015 specifies the display position of the video and the graphic, the display information selection unit 2015 specifies the video resolution and the video display area resolution from the table of the display position information 2019.

The display position information 2019 shown in FIG. 7 indicates that when a video having an HD resolution of 1920 * 1080 is output to a video display area having an SD resolution of 720 * 480, the cutout position of the video is (0, 0). The width and height of the cutout position are (1920, 1080) (hereinafter referred to as (0,0)-(1920,1080)), the projection area is (266,225)-(100,100), and the graphic display position Indicates (200, 100)-(100, 100).
It also indicates that an image having an SD resolution of 720 * 480 cannot be displayed in an image display area having an HD resolution of 1920 * 1080.

  When the display information selection unit 2015 specifies the display position of the video and graphic when the video having the resolution of 720 * 480 is displayed in the video display area having the resolution of 720 * 480, the display information selection unit 2015 displays the video to be reproduced. The table of 4102 is specified by searching a table having the same resolution as the image to be displayed from the resolutions of the image and the image resolutions 4102 and 4103 of the table of FIG. Next, a value matching the resolution of the video display area to be displayed is searched from the top row of the table in FIG. 7 to specify that the column 4104 is used. As described above, when a video having a resolution of 720 * 480 is displayed in a video display area having a resolution of 720 * 480, the cutout area of the video is (0,0)-(360,240), and the projection area is (100, 100)-(100, 100), and the graphic display position is specified as (200, 100)-(100, 100).

FIG. 8 shows information held in the screen resolution information 2008.
The screen resolution information 2008 holds a combination of the displayable video display area and the resolution of the graphic display area for each of one or more video resolutions. The digital TV receiving apparatus 2001 changes the combination of the video display area resolution and the graphic display area resolution based on this value in accordance with the resolution of the video to be reproduced.
The screen resolution information shown in FIG. 8 is for reproducing an image having an SD resolution of 720 * 480. The optimum combination of the image display area resolution and the graphic display area resolution is an SD reproduction group of 720 * 480 and 720 * 480. If this is not possible, it indicates that playback can be performed with a combination of HD playback of 1920 * 1080 and 960 * 540.

FIG. 9 shows the resolution setting information 4201 held by the resolution selection unit 2007.
The resolution setting information 4201 indicates whether the setting for decoding the video is SD or HD for each of the resolutions 4202, 4203, and 4204 of the video to be reproduced. The resolution selection unit 2007 can specify whether the setting for decoding the designated video is SD or HD by searching the table of the resolution setting information 4201 for information that matches the resolution of the designated video.

FIG. 10 shows a low-resolution rectangular conversion condition 4301 held by the low-resolution rectangular conversion availability determination unit 2009.
The low-resolution rectangular conversion condition 4301 is the minimum and maximum enlargement ratios 4302, 4303, 4304, and 4305 in the horizontal and vertical directions of the video, whether the outside of the video display area can be designated as the display area 4306, the cutout position, and the display position And 4307 whether or not odd coordinates can be displayed.

FIG. 11 is a flowchart showing a process in which the low-resolution rectangular conversion availability determination unit 2009 determines whether or not the rectangular conversion of the video decoded by the SD setting is performed using the low-resolution rectangular conversion condition 4301 shown in FIG.
The low-resolution rectangular conversion enable / disable judging unit 2009 is designated with the video resolution, video display conditions, and video display area resolution from the resolution selection unit 2007 (4402) and matches the video resolution specified in the screen resolution information 2008 to 4402. The combination of the resolutions of the video display area and graphic display area to be acquired is acquired, and it is determined whether any of them matches the display area resolution of the video specified in 4402 (4403). It is determined whether or not the display area protrusion / prohibition condition 4306 held by the image display area is not possible and the image display position of the image display condition specified in 4402 represents an area within the display area resolution of the image acquired in 4403. (4404) The width and height of the video display position of the video display condition specified in 4402 are set. The horizontal and vertical enlargement ratios of the video obtained by dividing by the resolution width and height of the video specified in 4402 are the horizontal and vertical magnifications of the video held by the low-resolution rectangular conversion condition 4301. It is determined whether it is within the range of the minimum and maximum enlargement ratios 4302, 4303, 4304, and 4305 (4405), and the odd coordinate designation availability condition 4307 held in the low resolution rectangular conversion condition 4301 is not possible and is designated in 4402. It is determined whether the video cutout position and the display position of the selected video display condition include odd coordinates (4406).
When all the above determinations are possible, the low-resolution rectangular conversion availability determination unit 2009 determines that rectangular conversion is possible based on the video resolution, video display conditions, and video display area resolution specified in 4402 ( 4407). If even one of them is not possible, it is determined that rectangular conversion is impossible (4408).

FIG. 12 shows a high-resolution rectangular conversion condition 4501 held by the high-resolution rectangular conversion availability determination unit 2010.
The high-resolution rectangular conversion condition 4501 is the minimum and maximum enlargement ratios 4502, 4503, 4504, 4505 in the horizontal and vertical directions of the video, whether the outside of the video display area can be specified as the display area, 4506, the cutout position, and the display position The following conditions are held: whether or not odd coordinates can be displayed 4507, whether or not a horizontal cutout area can be designated 4508, and whether or not a vertical cutout area can be designated 4509.

FIG. 13 is a flowchart showing a process in which the high-resolution rectangular conversion availability determination unit 2010 determines whether rectangular conversion of a video decoded with HD settings is possible using the high-resolution rectangular conversion condition 4501 shown in FIG.
The high-resolution rectangular conversion enable / disable judging unit 2010 is designated with the video resolution, video display conditions, and video display area resolution from the resolution selecting unit 2007 (4602), and matches the video resolution specified in the screen resolution information 2008 to 4602. The combination of the resolutions of the video display area and graphic display area to be acquired is acquired, and it is determined whether any of them matches the display area resolution of the video specified in 4602 (4603), and the high-resolution rectangular conversion condition 4501 is determined. It is determined whether the display area holdability condition 4506 of the display area held by the image display area is not possible and the image display position of the image display condition specified in 4602 represents an area in the display area resolution of the image acquired in 4603. (4604), the width and height of the video display position of the video display condition specified in 4602. The horizontal and vertical enlargement ratios of the video obtained by dividing by the resolution width and height of the video specified in 4602 are the horizontal and vertical magnifications of the video held by the high-resolution rectangular conversion condition 4501. It is determined whether it is within the range of the minimum and maximum enlargement ratios 4502, 4503, 4504, 4505 (4605), and the odd coordinate designation availability condition 4507 held in the high resolution rectangular conversion condition 4501 is impossible and designated in 4602. It is determined whether or not the video cutout position and the display position of the selected video display condition include odd coordinates (4606).
When all the above determinations are possible, the high-resolution rectangular conversion availability determination unit 2010 determines the cutout area (4607). If even one of them is impossible, it is determined that rectangular conversion is impossible (4608).

FIG. 14 shows whether or not high-resolution rectangular conversion enable / disable determination means 2010 determines whether or not rectangular conversion of a video decoded with HD settings is possible using the designation 4508 and 4509 of the clipping region of high-resolution rectangular conversion condition 4501 shown in FIG. It is a flowchart showing the process to perform.
The high-resolution rectangular conversion availability determination unit 2010 can specify the horizontal cutout area 4508 held in the high-resolution rectangular conversion condition 4501 or the video cutout position of the video display condition specified in 4602 of FIG. It is determined whether or not the video resolution matches the entire horizontal direction (4609), and the vertical cutout area 4509 held by the high-resolution rectangular conversion condition 4501 can be specified, or the video display specified in 4602 in FIG. It is determined whether or not the video cutout position of the condition matches the entire vertical direction of the video resolution acquired in 4603 (4610).
When all the above determinations are possible, the high-resolution rectangular conversion availability determination unit 2010 determines that rectangular conversion is possible based on the video resolution, video display conditions, and video display area resolution specified in 4602 ( 4611), if there is even one impossible, it is determined that rectangular conversion is impossible (4608).

  Next, the operation of the digital TV receiver with respect to the operation of the digital TV receiver having the above-described configuration according to the present invention will be described with reference to FIGS.

FIG. 15 shows the data flow from the time when the TS decoding unit 2005 decodes the TS, acquires program information from the TS, and the resolution specifying unit 2006 acquires the resolution of the video of the broadcast program selected by the viewer. It is a thing. Here, it is assumed that an identifier 5005 (0x123) is designated as a program to be reproduced and an identifier 5006 (0x10) is designated as a video.
A TS decoding unit 2005 decodes TS including a broadcast program whose channel is selected by the user, and constructs the program information table shown in FIG. The TS decoding unit 2005 identifies program information 4001 in which the program identifier 5005 (0x123) channel selected from the decoded program information tables 5002, 5003, and 5004 matches the program identifier of the program information table, and the program information 4001 Is notified to the resolution specifying means 2006.
The resolution specifying means 2006 specifies video information 4002 to be reproduced by searching the program information 4001 for video information having a video identifier that matches the video identifier 5006 (0x10) of the channel selected program. Next, the resolution specifying unit 2006 searches the information having the video resolution information identifier from the video information 4002 to specify the resolution information 4007 of the video represented by the video information 4002.

FIG. 16 shows the data flow from the resolution information 4007 and the display position information 2019 acquired from the resolution specifying means 2006 until the display information selecting means 2015 in the EPG application 2003 specifies the display position of video, graphics, etc. It is a thing.
The display information selection unit 2015 of the EPG application holds the current video display area resolution 5101. The display information selection unit 2015 acquires the resolution information 4007 of the video specified by the resolution specifying unit 2006 in FIG. Next, a table 4102 is specified by searching a table having a video resolution that matches the video resolution information 4007 acquired from the resolution specifying unit 2006 from the display position information 2019. Next, by searching for the video display area resolution that matches the current video display area resolution 5101, the column 4104 is specified, and the video display position 4107 is (0,0) − (360,240). ), The projection area is (100, 100)-(100, 100), and the graphic display position 4106 is specified as (200, 100)-(100, 100).

  In FIG. 17, the display information selection unit 2015 of the EPG application designates the video display position 4107 to the resolution selection unit 2007 of the rectangle conversion determination unit 2020, the resolution selection unit 2007 determines the resolution setting, and the high-resolution rectangular conversion availability determination unit 2010. Or, the flow of data until it is determined whether or not the video display position 4107 designated by using the low-resolution rectangular conversion availability determination unit 2009 is determined.

The display information selection unit 2015 of the EPG application designates the video display position information 4107, the video resolution information 4007, and the video display area resolution 5101 specified in FIG. The resolution selection unit 2007 determines whether the video resolution information 4007 is the video decoded with the SD resolution setting or the HD resolution setting with the video resolution 4007 specified from the table of the resolution setting information 4201 in FIG. Is determined by searching for information that matches.
In the case of a video decoded with the SD resolution setting, the video display position information 4107, the video resolution information 4007, and the video display area resolution 5101 are designated in the low-resolution rectangular conversion enable / disable determining unit 2009, and the video decoded with the HD setting. In this case, the video display position information 4107, the video resolution information 4007, and the video display area resolution 5101 are designated to the high-resolution rectangular conversion availability determination unit 2010.
In the example shown in FIG. 16, the resolution of the resolution information 4007 of the selected video 4002 is 720 * 480, and in the table of the resolution setting information 4201 shown in FIG. 9, the information 4203 indicating the resolution of 720 * 480 is SD. Therefore, it is determined that this video is decoded with the SD setting.

For example, as shown in FIG. 16, when the resolution of the video to be reproduced is a low resolution of 720 * 480, the resolution selection unit 2007 displays the video display position, the video resolution, and the video display in the low resolution rectangular conversion availability determination unit 2009. Specify the region resolution. At this time, the low-resolution rectangular conversion availability determination unit 2009 determines whether rectangular conversion is possible based on the limitation of the video enlargement rate of the platform. In the case of the example shown in FIG. 16, when the 720 * 480 video is played back, the resolution of the video display area can be 720 * 480, the resolution of the video cut-out position is 360 * 240, and the display position If the platform can reduce 100/360 times in the horizontal direction and 100/240 times in the vertical direction when the SD video is played back, the low-resolution rectangle conversion enable / disable means 2009 indicates that the designated rectangle If it is determined that conversion is possible and any of the above conditions is not possible, the low-resolution rectangular conversion availability determination unit 2009 determines that the specified rectangular conversion is impossible.
The low-resolution rectangular conversion availability determination unit 2009 notifies the display information specifying unit 2018 of the determination result through the resolution selection unit 2007. When the video information can be displayed at the designated video display position information 4107, video resolution information 4007, and video display area resolution 5101, the display information specifying unit 2018 displays the video identifier 4005 and the video display position information 4107 in the video display unit 2011. The video display area resolution 5101 is designated.

In FIG. 18, the display information specifying unit 2018 of the EPG application specifies the graphic display position 4106, specifies the graphic display position 4106 to the graphic drawing instruction unit 2016, and the graphic drawing instruction unit 2016 displays the graphic display position 4106 and the graphic information 5301. The flow of data until an instruction is given to the graphic drawing means 2012 is shown.
The display information specifying unit 2018 specifies the graphic display position 4106 specified in FIG. 17 to the graphic drawing instruction unit 2016, and the graphic drawing instruction unit 2016 holds the graphic display position 4106 specified by the display information specifying unit 2018. Graphic information 5301 including display character string information 5302, foreground, background color information 5303, and the like is designated to the graphic rendering unit 2012.

FIG. 19 shows the flow of data until the video display means 2011 and the graphic display means 2012 respectively specify video and graphic display information to the output unit 2013.
The video display unit 2011 specifies the video display area resolution 5101 specified by the display information specifying unit 2018 to the output unit 2013, and the output unit 2013 sets the graphic display area resolution 5102 corresponding to the specified video display area resolution 5101 to the screen resolution. The graphic display area resolution included in the information matching the designated video display area resolution 5101 is searched for from the information held in the information 2008 and specified.
Next, the video display unit 2011 acquires the video image data specified from the video identifier 4005 of the video information 4002 from the TS decoding unit 2005, decodes the image data, and then displays the video display area resolution 5101 and the video display position information 4107. The video output image 5401 is generated by performing the rectangular conversion process specified by, and this is notified to the output unit 2013.
The graphic drawing unit 2012 generates a graphic output image 5402 from the graphic information 5301 and the graphic display position information 4106 and notifies the output unit 2013 of it.
The output unit 2013 synthesizes the video output image 5401 and the graphic output image 5402 and outputs the video and graphic images to the TV 2014.

  With the above configuration, the EPG application can know the actual display result under the specified video display conditions before playing the video, and can confirm whether or not the video can be converted into a rectangular shape before playing the video. It is possible to avoid the problem that the display position of video and graphics is displayed at a position different from that intended by the EPG application.

However, the rectangular conversion conditions shown in the low resolution rectangular conversion condition 4301 shown in FIG. 10 and the high resolution rectangular conversion condition 4501 shown in FIG. 12 may be smaller or larger than those shown here. Also, the low resolution rectangular conversion condition 4301 and the high resolution rectangular conversion condition 4501 are not always different, and may be exactly the same condition.
Further, in the explanation of FIG. 17, it has been shown that the resolution selection unit 2007 branches to the low resolution rectangular conversion availability determination unit 2009 and the high resolution rectangular conversion availability determination unit 2010 depending on whether the video is decoded in the SD / HD mode. However, it branches to the low-resolution rectangular conversion enable / disable determining means 2009 and the high-resolution rectangular conversion enable / disable determining means 2010 depending on whether the video display area resolution when displaying the video is SD / HD mode as well as the decoding mode. It is possible that

  The digital TV receiving apparatus, the digital TV receiving method, and the digital TV receiving program according to the present invention can be applied to a terminal that receives and reproduces a broadcast program in which high-resolution and low-resolution videos are mixed.

Table of correspondence between video and graphic display area resolution when playing back conventional SD / HD video. The figure showing TV screen display in the case of the resolution of the image | video actually reproduced | regenerated in the conventional digital TV receiver with the resolution of the image | video assumed by the application. The functional block diagram of Embodiment 1 of this invention. The flowchart showing the process which specifies TS in the embodiment (digital TV receiver) of this invention, and specifies the display position of the image | video matched with the resolution of an image | video. The flowchart showing the process until it determines the propriety of the display position of the image | video in embodiment (digital TV receiver) of this invention, and outputs to a TV screen. The table block diagram of the program information table (PMT) 4001 contained in TS in embodiment (digital TV receiver) of this invention. The block diagram of the display position information 2019 which the display information selection means 2015 in embodiment (digital TV receiver) of this invention hold | maintains. The block diagram of the screen resolution information 2008 in embodiment (digital TV receiver) of this invention. The block diagram of the resolution setting information 4201 which the resolution selection means 2007 in embodiment (digital TV receiver) of this invention hold | maintains. The block diagram of the low resolution rectangular conversion condition 4301 which the low resolution rectangular conversion availability determination means 2009 in embodiment (digital TV receiver) of this invention hold | maintains. The flowchart of the process of the low resolution rectangle conversion availability determination means 2009 in embodiment (digital TV receiver) of this invention. The block diagram of the high resolution rectangular conversion conditions 4501 which the high resolution rectangular conversion availability determination means 2010 hold | maintains in embodiment (digital TV receiver) of this invention. The flowchart of the process of the high resolution rectangular conversion availability determination means 2010 in embodiment (digital TV receiver) of this invention. The flowchart of the process of the high resolution rectangular conversion availability determination means 2010 in embodiment (digital TV receiver) of this invention. The figure which showed the flow of the data until it acquires the resolution in embodiment (digital TV receiver) of this invention. The figure which showed the flow of the data until the display information selection means 2015 in embodiment (digital TV receiver) of this invention specifies a display position. The figure which showed the data flow until it determines the propriety of the selected image | video display position 4107 in embodiment (digital TV receiver) of this invention. The figure which showed the flow of data until it instruct | indicates the graphic display position 4106 and the graphic information 5301 to the graphic drawing means 2012 in embodiment (digital TV receiver) of this invention. The figure which showed the data flow until the output part 2013 in an embodiment (digital TV receiver) of this invention outputs an image to a digital TV receiver. The figure showing the case where the application designates a part of the broadcast stream as a cut-out area and displays it on the projection area of the TV screen in the conventional digital TV receiver.

Explanation of symbols

1001 TV screen 1003 SD video 1004 Graphics displayed on the SD screen 1005 HD video 1006 Graphics displayed on the HD screen 1007 Coordinates of the upper left point of the SD video 1008 Coordinates of the lower right point of the SD video 1009 Displayed on the SD screen The coordinates of the upper left point of the graphic 1010 The coordinates of the lower right point of the graphic displayed on the SD screen 1011 The coordinates of the upper left point of the HD video 1012 The coordinates of the lower right point of the HD video 1013 The graphic displayed on the HD screen Coordinates of the upper left point 1014 coordinates of the lower right point of the graphic displayed on the HD screen 2001 digital TV receiver 2002 digital TV middleware 2003 EPG application 2005 TS decoding unit 2006 resolution specifying means 2007 resolution selecting means 20 8 Screen resolution information 2009 Low-resolution rectangular conversion availability determination unit 2010 High-resolution rectangular conversion availability determination unit 2011 Video display unit 2012 Graphic drawing unit 2013 Output unit 2014 TV screen 2015 Display information selection unit 2016 Graphic drawing instruction unit 2017 Direction transmission / reception unit 2018 Display Information specifying unit 2019 Display position information 2020 Rectangular conversion determining unit 2021 Output image generating unit 2022 Display position information providing unit 4001 Program information table (PMT)
4002 Video A information 4003 Video B information 4004 Audio information 4005 Video A identifier 4006 Video A video resolution information identifier 4007 Video A video resolution 4008 Video B identifier 4009 Video B video resolution information identifier 4010 Video B video resolution 4011 Audio identifier 4102 Display position information of SD video 4103 Display position information of HD video 4104 Display position information for displaying SD video on SD screen 4105 Display position information for displaying SD video on HD screen 4106 Displaying SD video on SD screen Graphic display position 4201 Resolution setting information 4202 Video resolution (360 * 240)
4203 video resolution (720 * 480)
4204 video resolution (1920 * 1080)
4301 Low-resolution rectangular conversion condition 4302 Low-resolution rectangular conversion horizontal minimum enlargement ratio 4303 Low-resolution rectangular conversion horizontal maximum expansion ratio 4304 Low-resolution rectangular conversion vertical minimum expansion ratio 4305 Low-resolution rectangular conversion vertical maximum expansion ratio 4306 Low-resolution rectangular conversion Whether or not the conversion display area protrudes 4307 Odd coordinates of low-resolution rectangular conversion can be specified 4501 High-resolution rectangular conversion condition 4502 Horizontal minimum expansion ratio of high-resolution rectangular conversion 4503 Horizontal maximum expansion ratio of high-resolution rectangular conversion 4504 Vertical of high-resolution rectangular conversion Minimum enlargement ratio 4505 Maximum vertical enlargement ratio of high-resolution rectangular conversion 4506 Whether or not the display area of high-resolution rectangular conversion protrudes 4507 Whether or not odd coordinates of high-resolution rectangular conversion can be specified 4508 Whether horizontal cutting of high-resolution rectangular conversion is possible 4509 High-resolution rectangular conversion Vertical cutout possible No 5001 Selected channel information 5002 Program information (program 1)
5003 Program information (Program 2)
5004 Program information (Program 3)
5005 Selected program identifier 5006 Selected video identifier 5101 Video display area resolution 5301 Graphic information 5302 Display character string information 5303 Foreground / background color information 5401 Video output image 5402 Graphic output image

Claims (4)

A digital TV middleware that receives digital broadcasts and outputs them to a TV, and a digital program composed of an application program that operates in conjunction with the digital TV middleware in association with a digital broadcast program and displays a graphic drawing along with the program video. In the TV receiver,
The digital TV middleware decodes the received TS and filters the AV information and the program information;
A resolution specifying means for specifying and extracting a video resolution of a program included in the program information;
A rectangular conversion determination unit that determines whether the video can be displayed in the video display area based on the video and graphic display position information specified by the application program;
An output image generated by rectangular conversion using the video display position information, the video display area resolution, and the rectangular conversion information specified by the application program; an output image generation unit that generates a graphic output image from the graphic display position information and the graphic display information; ,
An output unit configured to synthesize and output the output video and the graphic output image,
The application program specifies a resolution specified by the resolution specifying means, a display position of a video display area corresponding to the resolution, a display position of a graphic display area, and a display information selecting means for notifying to the rectangular conversion determination unit ,
A display information specifying unit for determining a video display position and a graphic display position based on the rectangular conversion availability information from the rectangular conversion determination unit;
A digital TV receiver comprising graphic drawing instruction means for specifying the graphic display position and graphic display information and notifying the output image generation unit. The digital TV middleware further replaces the rectangular conversion determination unit with resolution selection means for determining whether the resolution information is high resolution or low resolution;
As a result of the determination, if the video resolution is high resolution, a high-resolution rectangular conversion availability determination unit that determines whether the video can be displayed in a high-resolution display area;
2. The low resolution rectangular conversion enable / disable determining unit that determines whether or not the video can be displayed in a low resolution display area when the video resolution is low resolution. Digital TV receiver. In a digital TV receiving method for receiving digital broadcasting and outputting to a TV,
TS decoding step for decoding received TS and filtering AV information and program information;
A resolution specifying step of specifying and extracting the video resolution of the program included in the program information;
The resolution specified in the resolution specifying step, the display position of the video display area corresponding to the resolution, and the display information selection step of specifying the display position of the graphic display area;
Rectangle conversion determination step for determining whether the video can be displayed in the video display area based on the display position information of the video and the graphic;
A display information specifying step for determining a video display position and a graphic display position according to the determination result;
A graphic drawing instruction step for specifying a graphic display position and graphic display information based on the display position information;
An output image generated by converting the image into a rectangle by the image display position information, image display area resolution, and rectangle conversion information; an output image generating step for generating a graphic output image from the graphic display position information and the graphic display information;
A digital TV receiving method comprising: an output step of combining and outputting the output video and the graphic output image. In a program executed by a digital TV receiver that receives a digital broadcast and outputs it to a TV,
TS decoding step for decoding received TS and filtering AV information and program information;
A resolution specifying step of specifying and extracting the video resolution of the program included in the program information;
The resolution specified in the resolution specifying step, the display position of the video display area corresponding to the resolution, and the display information selection step of specifying the display position of the graphic display area;
Rectangle conversion determination step for determining whether the video can be displayed in the video display area based on the display position information of the video and the graphic;
A display information specifying step for determining a video display position and a graphic display position according to the determination result;
A graphic drawing instruction step for specifying a graphic display position and graphic display information based on the display position information;
An output image generated by converting the image into a rectangle by the image display position information, image display area resolution, and rectangle conversion information; an output image generating step for generating a graphic output image from the graphic display position information and the graphic display information;
A digital TV reception program comprising an output step of combining and outputting the output video and the graphic output image.

Images