WO2012161097A1 - Display device and display method - Google Patents

Abstract

A display device (100) has as an input image signal an image signal that includes image parameters, which are attribute information pertaining to the display of a source image; in addition, an image represented by the processed image signal that results when image processing is performed with respect to the input image signal is displayed on a display unit (108). The display device (100) is equipped with: an image processing unit (105) that performs image processing with respect to the input image signal using image processing parameters for the purpose of performing image processing pertaining to the display of the image represented by the processed image signal; a parameter processing unit (107) that generates image processing parameters; an image parameter extraction unit (101) that extracts image parameters from the input video signal; and a display device parameter holding unit (103) that holds display device parameters, which are attribute information pertaining to the display device (100). The parameter processing unit (107) generates the image processing parameters from at least the image parameters and the display device parameters.

Description

Display device and display method

The present invention relates to a display device and a display method for performing display based on a video signal subjected to video processing.

Conventionally, in a display device, the image is displayed after image processing such as enlargement / reduction processing and display position adjustment is performed in accordance with the resolution of the display device or the display size specified by the user. For example, when displaying on a TV, enlargement / reduction processing is performed in accordance with the resolution of the TV, and an image is displayed. Further, when displaying on the window of the PC, the video is displayed in accordance with the display size of the window specified by the user.

Parameters such as resolution and display size used in the above video processing were previously set in the display device. Therefore, a technique for setting the above parameters by a user has been proposed.

For example, Non-Patent Document 1 describes a technique that allows a user to set a window size (number of pixels) and a display position (offset) by an input operation using a mouse, a remote controller, or the like in PC window display. Has been.

In recent years, a multi-screen display function is becoming an essential function particularly in a display device such as a large TV. The multi-screen display function is a function for simultaneously displaying a plurality of videos with a set display size and display position. A technique for setting parameters such as display size and display position by a user in multi-screen display has also been proposed.

For example, Patent Document 1 describes a technique for displaying a plurality of divided images obtained by dividing an original image on a plurality of displays on multiple screens. In the technique described in Patent Document 1, multi-screen control information (parameters) including display size information and display position information of a divided image is added to video data that is an original image, and then display processing provided for each divided image The means extracts the multi-screen control information and performs video processing of the divided images with reference to the extracted information. As described above, the multi-screen display can be easily controlled by performing the video processing using the multi-screen control information added to the video data.

Here, a conventional display method capable of setting parameters as described above will be described with reference to the configuration of the display device. FIG. 17 is a diagram showing a schematic configuration of a conventional display device 500.

Normally, the received video data is decoded by the video data decoding unit 504, processed by the video processing unit 505, and then output to the display unit 507. The video processing unit 505 performs video processing on the decoded data signal using the parameters held by the parameter holding unit 506.

The parameter holding unit 506 individually holds values such as the resolution, display size (window size), and display position of the display device 500 as parameters. These parameters are supplied from any one of the video parameter extraction unit 501, the viewer setting parameter reception unit 502, and the display device parameter holding unit 503.

The video parameter extraction unit 501 extracts and outputs the parameter to the parameter holding unit 506 when the parameter is added to the video data in advance. The viewer setting parameter receiving unit 502 receives the parameter and outputs it to the parameter holding unit 506 when the viewer directly sets the parameter using the input means. The display device parameter holding unit 503 holds a preset parameter of the display device 500.

Japanese Patent Publication “Japanese Patent Laid-Open No. 2003-9101 (published on January 10, 2003)”

By the way, in recent years, the size and resolution of display devices have been diversified. However, the display method described above has a problem that video is processed regardless of the size and resolution of various display devices.

That is, the enlargement / reduction processing is automatically performed in accordance with the parameters (size and resolution of the display device 500) of the display device 500 held in the display device parameter holding unit 503. For this reason, as shown in FIG. 18, although the original images are the same (the same size), the video is displayed on the entire screen in both display devices A and B having different sizes.

It should be noted that the viewer can adjust the display size and display position by adding the set parameters to the video data or directly inputting them, but it takes time and effort for the viewer to set.

Therefore, it is desired that display suitable for the display device is automatically performed for each display device. Furthermore, it is desired that a display suitable for the display device can be viewed according to the taste of the viewer.

The present invention has been made in view of the above-described conventional problems, and an object thereof is to provide a display device and a display method capable of performing display suitable for each display device. Another object of the present invention is to provide a display device and a display method capable of performing a display suitable for a viewer in a display suitable for the display device.

The display device of the present invention uses a video signal including a video parameter, which is attribute information relating to display of an original image, as an input video signal, and represents the processed video signal as a video signal obtained by performing video processing on the input video signal. A display device that displays the image to be displayed on the display unit, using the video processing parameters for performing video processing relating to the display of the image represented by the processed video signal, the input video signal Video processing means for performing video processing, video parameter extraction means for extracting the video parameters from the input video signal, and display device parameter holding means for holding display device parameters as attribute information relating to the display device, The parameter generation means includes at least the video parameter extracted by the video parameter extraction means, and the display device From the display device parameter held by the parameter holding means is characterized by comprising a parameter generation unit for generating the image processing parameter.

According to the above configuration, display is performed based on the processed video signal that has been subjected to video processing using the video processing parameter generated by the parameter generation means. The video processing parameters are generated in consideration of attribute information related to the display of the original image and attribute information related to the display device. Therefore, it is possible to display an image based on the processed video signal subjected to the video processing in an optimum form based on the information of both. Therefore, display suitable for the display device can be performed for each display device.

The display method of the present invention uses a video signal including a video parameter that is attribute information relating to display of an original image as an input video signal, and a processed video signal that is a video signal obtained by performing video processing on the input video signal. Is displayed on the display unit of the display device, and is represented by the processed video signal from at least the video parameter and the display device parameter which is attribute information related to the display device. A first step of generating a video processing parameter for performing video processing relating to the display of the image, and a second step of performing the video processing on the input video signal using the generated video processing parameter. It is characterized by that.

According to the above configuration, display is performed based on a processed video signal that has been subjected to video processing using the generated video processing parameters. The video processing parameters are generated in consideration of attribute information related to the display of the original image and attribute information related to the display device. Therefore, it is possible to display an image based on the processed video signal subjected to the video processing in an optimum form based on the information of both. Therefore, display suitable for the display device can be performed for each display device.

As described above, in the display device of the present invention, the parameter processing means includes at least the video parameter extracted by the video parameter extraction means and the display device parameter held by the display device parameter holding means. Then, the video processing parameter is generated, and the video processing means performs video processing on the input video signal using the video processing parameter.

The display method of the present invention includes a first step of generating the video processing parameter from at least the video parameter and the display device parameter, and video processing for the input video signal using the generated video processing parameter. And a second step of applying the above.

Therefore, the video by the processed video signal subjected to the above video processing can be displayed in an optimum form based on both the attribute information related to the display of the original image and the attribute information related to the display device. Therefore, there is an effect that display suitable for the display device can be performed for each display device.

It is a block diagram which shows one Embodiment of the display apparatus in this invention. It is a table | surface which shows the specific example of the various parameters used in the said display apparatus. (A) is a table | surface which shows the various parameters required when calculating | requiring the magnification as a video processing parameter in the said display apparatus, (b) is a figure which shows the part which a parameter shows. (A) is a table | surface which shows the various parameters required when calculating | requiring the display position as a video processing parameter in the said display apparatus, (b) is a figure which shows the part which a parameter shows. It is a figure which shows the display of the image | video in the said display apparatus. It is a block diagram which shows other embodiment of the display apparatus in this invention. It is a block diagram which shows other embodiment of the display apparatus in this invention. It is a table | surface which shows the specific example of the various parameters used in the said display apparatus shown in FIG. It is a table | surface which shows the various parameters of each display mode in the said display apparatus shown in FIG. It is a figure which shows the display of the image | video of each display mode in the said display apparatus shown in FIG. It is a table | surface which shows the example of the video parameter for every object, and the setting parameter with respect to it. It is a figure which shows video data. It is a figure which shows the display of an image | video when the object 1 is selected, and the display of an image | video when the object 2 is selected. It is a block diagram which shows further another embodiment of the display apparatus in this invention. It is a figure which shows the some video data in the said display apparatus shown in FIG. It is a figure which shows the multi-display of the image | video in the said display apparatus shown in FIG. It is a block diagram which shows the structure of the conventional display apparatus. It is a figure which shows the display of the image | video in the said conventional display apparatus.

In the following embodiments of the present invention, a display device that performs display based on a video signal will be described with reference to the drawings. Examples of such a display device include a TV that displays received digital broadcast program video, a PC that can reproduce and display recorded video data, and a digital signage that displays video from a video camera on the air.

In the following, the characteristic configuration of the present invention will be mainly cited. A configuration not particularly described in the display device can be realized by a conventional general configuration, and the description thereof is omitted.

[Embodiment 1]
(Configuration of display device)
FIG. 1 is a block diagram illustrating a configuration example of the display device 100 according to the present embodiment. As shown in FIG. 1, the display device 100 includes a video parameter extraction unit 101, a display device parameter holding unit 103, a video data decoding unit 104, a video processing unit 105, a parameter holding unit 106, a parameter processing unit 107, and a display unit 108. It has.

The video parameter extraction unit 101 (video parameter extraction means) extracts video parameters added in advance to the input video data (input video signal). The video parameter extraction unit 101 outputs the extracted video parameters to the parameter processing unit 107 and outputs video data to the video data decoding unit 104. By providing the video parameter extraction unit 101 before the video data decoding unit 104, the video parameters added to the video data can be obtained with certainty.

The display device 100 is a device that receives and displays broadcast waves such as terrestrial digital broadcasts and BS broadcasts. Therefore, for example, MPEG-2 and H.264. Compressed video data such as H.264 / AVC is input. Note that the input video data is not limited to the encoded video data as described above, and unencoded (decoded) video data may be input. This will be described in another embodiment described later.

Display device parameter holding unit 103 (display device parameter holding means) holds display device parameters set (stored) in advance. The display device parameter holding unit 103 outputs the display device parameter to the parameter processing unit 107.

The video data decoding unit 104 decodes the video data output from the video parameter extraction unit 101. Note that a decoded video data is a data signal. The video data decoding unit 104 outputs the decoded data signal to the video processing unit 105.

The video processing unit 105 (video processing unit) uses the video processing parameters held in the parameter holding unit 106 to perform video processing related to display such as enlargement / reduction and screen movement on the decoded data signal. The video processing unit 105 outputs a data signal (processed video signal) subjected to video processing to the display unit 108.

The parameter holding unit 106 holds video processing parameters used by the video processing unit 105. The video processing parameter held by the parameter holding unit 106 is updated every time a new video processing parameter is supplied from the parameter processing unit 107.

The parameter processing unit 107 (parameter generation means) generates video processing parameters from the video parameters extracted by the video parameter extraction unit 101 and the display device parameters held by the display device parameter holding unit 103. The parameter processing unit 107 outputs the generated video processing parameter to the parameter holding unit 106.

The display unit 108 performs display based on the data signal supplied from the video processing unit 105. The display method and configuration of the display unit 108 are not particularly limited.

In the display device 100 having the above configuration, video data indicating one frame of video is sequentially supplied. Each configuration of the display device 100 performs the above-described operation every time video data is supplied, that is, for each frame. In FIG. 1, a thick line path indicates a path for video data and a data signal, and a thin line path indicates a signal path indicating various parameters.

Although illustration is omitted, in the display device 100, the video data may include audio data, text data, and the like in addition to the image data. Data other than image data is appropriately decoded by a corresponding decoding unit, and then output to an audio output unit (not shown), the display unit 108, or the like. As a result, at the same time as displaying the video, audio is output or character information is displayed on the display unit 108.

(Explanation of parameters)
The video parameter is a parameter of attribute information (size, etc.) related to the display of the original image.
The display device parameter is a parameter of attribute information (size, height, etc.) regarding the display device.
The video processing parameter is generated from the video parameter and the display device parameter, and is a parameter for performing video processing related to image display.

A specific example of each parameter used in the display device 100 is shown in FIG.
Video parameters include parameters such as video size (mm, cm, inch), video position (mm, cm, inch, screen ratio), and the like.
The display device parameters include parameters such as screen size (mm, cm, inch), screen position (mm, cm, inch), resolution, and frame size.
Video processing parameters include parameters such as window size, display position, and enlargement ratio.

In the parameter processing unit 107, video parameters and display device parameters are input parameters, and video processing parameters are output parameters.

(Video processing parameter generation method)
Next, a method for generating video processing parameters in the parameter processing unit 107 will be described. Here, a case will be described in which “(1) enlargement ratio”, “(2) display position”, and “(3) window size” are obtained as video processing parameters. In the following description, the horizontal direction on the screen (display unit 108) of the display device 100 is the x direction, and the vertical direction is the y direction.

(1) Enlargement ratio The parameters necessary for the process for obtaining the enlargement ratio are shown in FIGS. 3A shows a table of various parameters, and FIG. 3B shows a portion indicated by the various parameters.

The input parameters are “video size (x, y) and video resolution (x, y)” as video parameters and “screen size (x, y) and screen resolution (x, y)” as display device parameters. It is.

As shown in FIG. 3B, the video size (x, y) is the video size image_size_xｘ [mm] in the x direction and the video size image_size_y [mm] in the y direction in the original image. The video resolution (x, y) is the video resolution image_pixel_x [pixel] in the x direction and the video resolution image_pixel_y [pixel] in the y direction in the original image. The screen size (x, y) is the screen size disp_size_x [mm] in the x direction and the screen size disp_size_y [mm] in the y direction on the display device 100. The screen resolution (x, y) is the screen resolution disp_pixel_x [pixel] in the x direction and the screen resolution disp_pixel_y [pixel] in the y direction on the display device 100. The unit of size is not limited to this, and it may be unified.

The output parameter is “enlargement ratio γ” which is a video processing parameter. A formula for calculating the enlargement factor γ is shown in Formula (1).

By substituting the values of video size (x, y), video resolution (x, y), screen size (x, y), and screen resolution (x, y) into equation (1), the enlargement ratio γ Can be requested. For example,
Example 1: When the video size x = 1000 [mm], the video resolution x = 1920, the screen size x = 2000 [mm], and the screen resolution x = 1920, the enlargement ratio γ = 1/2.
Example 2: When the video size x = 1500 [mm], the video resolution x = 3840, the screen size x = 1500 [mm], and the screen resolution x = 1920, the enlargement ratio γ = 1/2.

Note that the enlargement ratio is set in each of the x direction and the y direction. Also, the aspect ratio is not fixed. However, when the aspect ratio is fixed, it can be obtained by using either the x direction value or the y direction value, that is, if there is either value.

(2) Display position Parameters required for the processing for obtaining the display position are shown in FIGS. 4A shows a table of various parameters, and FIG. 4B shows a portion indicated by the various parameters.

The input parameters are “video size (x, y), video resolution (x, y), target position (x, y) and target height” ”as video parameters, and“ screen size (x, y) as display device parameters. y), screen resolution (x, y), target position (x, y), and height of display screen ”.

The video size (x, y), video resolution (x, y), screen size (x, y), and screen resolution (x, y) are as shown in (b) of FIG.

As shown in FIG. 4B, the target position (x, y) of the video parameter is the target position image_mark_x [pixel] in the x direction from the upper left corner (point P) in the original image, and Attention position image_mark_y [pixel]. The attention height is the attention height image_mark_heigh [mm] from the bottom surface of the stand or support base to the attention position in the original image. The attention position (x, y) of the display device parameter is the attention position disp_mark_x [pixel] in the x direction and the attention position disp_mark_y [pixel] in the y direction from the upper left corner (point Q) in the display device 100. . The height of the display screen is a noticeable height disp_heigh [mm] from the bottom surface of the stand or support base in the display device 100 to the lower end of the screen. The unit of size is not limited to this, and it may be unified.

The output parameter is “magnification ratio γ and display position (x, y)” which is a video processing parameter. The enlargement factor γ is a parameter necessary for obtaining the display position (x, y). The enlargement factor γ can be obtained by the above equation (1).

As shown in FIG. 4B, the display position (x, y) is the display position disp_pos_x [pixel] in the x direction and the display position in the y direction from the upper left corner (point Q) on the display device 100. disp_pos_y [pixel]. Formulas (2) to (4) show the calculation formulas for the display position (x, y).

The display position disp_pos_x in the x direction can be obtained by substituting each value of the image attention position x, the screen attention position x, and the enlargement factor γ into Expression (2). Further, the display position disp_pos_ypos in the y direction is obtained by first obtaining the screen attention position disp_mark_y in the y direction by Expression (3), and then, in Expression (4), each of the image attention position y, the screen attention position y, and the magnification rate γ It can be obtained by assigning a value.

(3) Window Size The parameters necessary for the process for obtaining the window size are the same as the parameters necessary for the process for obtaining the enlargement ratio shown in FIG. The input parameters are “video size (x, y) and video resolution (x, y)” as video parameters and “screen size (x, y) and screen resolution (x, y)” as display device parameters. It is. The output parameter is an image processing parameter “enlargement ratio γ and window size (x, y)”. The enlargement factor γ is a parameter necessary for obtaining the window size (x, y).

The formula for calculating the window size win_pixel_x in the x direction is shown in Formula (5).

By substituting each value into Equation (5), the window size win_pixel_x in the x direction can be obtained. Further, the window size win_pixel_yｙ in the y direction can be obtained by replacing the value in the x direction in Equation (5) with the value in the y direction.

(Video display)
Here, in the conventional display device, as shown in FIG. 18, although the original images are the same (the same size), the display devices A and B having different sizes can be displayed on the full screen. The image was displayed. In addition, the viewer needs to set the display size.

On the other hand, in the display device 100 of the present embodiment, the parameter processing unit 107 processes the video parameter and the display device parameter to create a video processing parameter, and the video processing unit 105 performs processing on the decoded data signal. The video processing is performed using the created video processing parameters.

That is, the display method of the video in the display device 100 includes a step (first step) of generating a video processing parameter from the video parameter and the display device parameter, and a video signal with respect to a data signal using the generated video processing parameter. And a step of performing processing (second step).

Therefore, the display is performed based on the data signal subjected to the video processing using the video processing parameters. Therefore, the video is displayed in the display form determined in consideration of the information of the original image and the information of the display device.

Therefore, when video processing is performed using, for example, the enlargement ratio of the above formula (1) and the display positions of the above formulas (2) and (4) as video processing parameters, as shown in FIG. It is possible to view the same (same size) video on the display devices A and B having different sizes.

As described above, the display device 100 is added to the video data by using the video processing parameter, the video processing unit 105 that performs video processing on the data signal, the parameter processing unit 107 that generates the video processing parameter, and the video data. A video parameter extraction unit 101 that extracts the video parameters, and a display device parameter storage unit 103 that stores display device parameters. The parameter processing unit 107 displays the video parameters extracted by the video parameter extraction unit 101 and displays The video processing parameters are generated from the display device parameters held by the device parameter holding unit 103.

More specifically, the display device 100 includes a parameter holding unit 106 that holds video processing parameters used by the video processing unit 105, and the parameter processing unit 107 newly sets video processing parameters held by the parameter holding unit 106. The generated video processing parameters are updated.

According to the above configuration, display is performed based on the data signal that has been subjected to video processing using the video processing parameter generated by the parameter processing unit 107. The video processing parameter is generated in consideration of the attribute information related to the display of the original image and the attribute information related to the display device 100. Therefore, it is possible to display an image based on the data signal subjected to the image processing in an optimum form based on both information. Therefore, display suitable for the display device can be performed for each display device.

[Embodiment 2]
The display device 100 according to the first embodiment inputs encoded video data as video data. However, the input may be decoded video data. In this embodiment, a display device for inputting decoded video data as video data will be described.

FIG. 6 is a block diagram illustrating a configuration example of the display device 130 according to the present embodiment. The display device 130 according to the present embodiment has a configuration excluding the video data decoding unit 104 from the configuration of the display device 100 according to the first embodiment. That is, the display device 130 of the present embodiment and the display device 100 of the first embodiment are configured similarly except for the video data decoding unit 104.

Display device 130 performs display by video input such as Blu-ray (BD) or PC. Since the video data input from the BD or PC is decoded, there is no need to decode it in the display device. Therefore, the configuration can be simplified by removing the decoding unit. Note that such uncompressed video data can be transmitted to the display device 130 via, for example, DVI or HDMI.

However, when it does not matter whether the input video data is encoded, that is, when it is possible to support both encoded video data and unencoded video data, The display device 100 including the video data decoding unit 104 shown in FIG.

In this case, the encoded video data is decoded by the video data decoding unit 104 and output to the video processing unit 105. On the other hand, unencoded video data passes through the video data decoding unit 104 and is output to the video processing unit 105 as it is. In this way, it is possible to cope with both.

[Embodiment 3]
The following will describe another embodiment of the present invention with reference to the drawings. Configurations other than those described in the present embodiment are the same as those in the first and second embodiments. For convenience of explanation, members having the same functions as those shown in the drawings of Embodiments 1 and 2 are given the same reference numerals, and explanation thereof is omitted.

(Configuration of display device)
FIG. 7 is a block diagram illustrating a configuration example of the display device 150 according to the present embodiment. As shown in FIG. 7, the display device 150 includes a viewer setting parameter receiving unit 102 (viewer setting parameter receiving means) in addition to the configuration of the display device 100 of the first embodiment.

The viewer setting parameter receiving unit 102 receives the viewer parameters set by the viewer. The viewer can set parameters by input means such as a remote controller. The viewer setting parameter receiving unit 102 outputs the received viewer parameter to the parameter processing unit 107.

In this embodiment, the parameter processing unit 107 includes the video parameter from the video parameter extraction unit 101, the display device parameter from the display device parameter holding unit 103, and the viewer setting from the viewer setting parameter receiving unit 102. The parameters are processed to generate video processing parameters. Then, the parameter processing unit 107 outputs the generated video processing parameter to the parameter holding unit 106.

(Explanation of parameters)
The viewer parameter is a parameter of information regarding viewing set by the viewer.

A specific example of each parameter used in the display device 150 is shown in FIG.
Video parameters include parameters such as video size (mm, cm, inch), video position (mm, cm, inch, screen ratio), object number, and the like.
Viewer setting parameters include display size (mm, cm, inch), display position (mm, cm, inch, screen ratio), viewing distance (cm, inch), object number, installation position, installation height, display mode, There are parameters such as.
The display device parameters include parameters such as screen size (mm, cm, inch), screen position (mm, cm, inch), resolution, and frame size.
Video processing parameters include parameters such as window size, display position, and enlargement ratio.

In the parameter processing unit 107, video parameters, viewer setting parameters, and display device parameters are input parameters, and video processing parameters are output parameters.

(Display mode selection function)
The display device 150 has a display mode selection function that can be selected by the viewer. The display mode is a function that allows the viewer to decide whether to use video parameters. The display mode selection function will be described.

Assume that there are the following three display modes as display modes. Different display modes are defined for each display mode. Here, an enlargement ratio as a video processing parameter is set for each display mode.
Mode 0: Normal display mode 1: Display that always uses video processing parameters changed according to video parameters 2: Display that continuously uses video processing parameters specified by the viewer FIG. 9 shows the parameters set in each display mode. An example is shown.

Here, five consecutive frames (frame numbers t, t + 1,..., T + 4) are shown. Video size image_size_x (image_size_x0, image_size_x1,..., Image_size_x4) in the x direction as a video parameter is added to the video data of each frame.

* Mode 0 is a mode that does not use video parameters. That is, video processing parameters are generated using only display device parameters. Therefore, the enlargement ratio is γ = 1 in all of the plurality of frames. Thus, when mode 0 is selected, normal display is performed.

Mode 1 is a mode that always uses video parameters. Therefore, according to the enlargement factor calculation formula, the respective enlargement factors γ = γ0, γ1,..., Γ4 are set in each frame. As a result, when mode 1 is selected, display is automatically performed for each frame in a display form determined in consideration of video information and display device information.

Mode 2 is a mode in which video parameters at the time designated by the viewer are continuously used. FIG. 9 shows a case where the viewer has specified in frame t + 2. First, when mode 2 is set, from the frame at this point (corresponding to frames t and t + 1 here), video processing using video parameters is executed and displayed as in mode 1. Subsequently, when the viewer designates a scene (corresponding to frame t + 2 here), video parameters used for the scene are continuously set from this scene onward. Therefore, after the above scene (corresponding to frames t + 3 and t + 4 here), video processing using video parameters specified by the viewer is executed and displayed. Therefore, when mode 2 is selected, display is initially performed in the same manner as in mode 1, and after the frame specified by the viewer, display is performed with the display size in the frame.

(Video display)
In the display device 150, the display mode selected by the viewer is input to the viewer setting parameter receiving unit 102 and output to the parameter processing unit 107 as the viewer setting parameter. As illustrated in FIG. 9, the parameter processing unit 107 creates a video processing parameter using the video parameter and the display device parameter according to the display mode indicated by the viewer setting parameter, and outputs the video processing parameter to the parameter holding unit 106. As a result, the video is displayed based on the data signal subjected to the video processing using the video processing parameter of the selected display mode.

Fig. 10 shows the display in each display mode.

Mode 0 is normal display. In mode 1, the video processing parameter is changed according to the change of the video parameter. The video processing data is about to be displayed in real size. In mode 2, the viewer designates video processing parameters determined by the video parameters. From the frame designated by the viewer, the display is performed at the same enlargement rate as at the time of designation.

In this way, in mode 2, it is possible to set a display that the viewer thinks appropriate. For example, as shown in FIG. 10, the display of frame t + 4 in mode 1 is smaller than in mode 0 and may be difficult for the viewer to see. That is, there are cases where the display is not easy for the viewer to view simply by processing the video according to the video parameters. Considering this point, mode 2 has a remarkable effect that the viewer can display his / her preference by designating video parameters.

Therefore, on the display device 150, the video is displayed in the display mode set, that is, in the display mode determined in consideration of the information of the original image, the information of the display device, and the information of the viewer setting. The video processing parameters can be changed according to the viewer setting parameters as necessary. Therefore, the viewer can view the video with a display suitable for the viewer by selecting the display mode.

As described above, the display device 150 further includes the viewer setting parameter receiving unit 102 that receives the viewer setting parameters, and the parameter processing unit 107 determines the video from the video parameters, the display device parameters, and the viewer setting parameters. Generate processing parameters.

According to the above configuration, the video processing parameter is generated in consideration of the attribute information regarding the display of the original image, the attribute information regarding the display device, and the information regarding viewing set by the viewer. Therefore, it is possible to display an image based on the data signal subjected to the image processing in an optimum form based on the information of the three parties. Therefore, in the display suitable for the display device, it is possible to perform display according to the preference of the viewer.

Note that the display mode is not limited to the three display modes described above, and a plurality of display modes having different display modes can be set. Other values can also be used for the video processing parameters and the video parameters used to generate the video processing parameters.

[Embodiment 4]
In the present embodiment, another display example using viewer setting parameters on the display device 150 will be described.

(Object selection function)
The display device 150 has an object selection function that can be selected by the viewer. The object selection function is a function that allows a viewer to determine a point of interest in a video. The object selection function uses the object number of the video parameter and the viewer setting parameter shown in FIG.

The object number is a number assigned to the point of interest in the video. For an object number (ie, a point with an object number), it is possible to have individual video parameters. Therefore, video processing parameters can be calculated and created for each object number.

For example, assume that there is video data shown in FIG. In this video data, object number 1 is set for a person and object number 2 is set for a fruit as video parameters. Individual video parameters are prepared for each object number.

Fig. 11 shows examples of parameters set for each object.

Here, four consecutive frames (frame numbers t, t + 1, t + 2, and t + 3) are shown. The video data of each frame includes a video size image_size_x (image_size_x10, image_size_x11, image_size_x12, image_size_x13) as a video parameter of object 1 and a video size image_size_x (image_size_x20, image_size_x21, image size of object 2 as video parameters) image_size_x22, image_size_x23) are added.

Object 1 uses the video parameters of object 1 to obtain video processing parameters. Therefore, according to the calculation formula for the enlargement ratio, the respective enlargement ratios γ = γ10, γ11, γ12, γ13 are set in each frame. Thus, when object number 1 is selected, display is performed based on the video processing parameters of object 1.

Object 2 uses the video parameters of object 2 to obtain video processing parameters. Therefore, according to the enlargement factor calculation formula, the respective enlargement factors γ = γ20, γ21, γ22, γ23 are set in each frame. Thus, when object number 2 is selected, display is performed based on the video processing parameters of object 2.

(Video display)
In the display device 150, the object number selected by the viewer is input to the viewer setting parameter receiving unit 102 and output to the parameter processing unit 107 as the viewer setting parameter. As shown in FIG. 11, the parameter processing unit 107 creates a video processing parameter using the video parameter and the display device parameter in accordance with the object number indicated by the viewer setting parameter, and outputs the video processing parameter to the parameter holding unit 106. As a result, video is displayed based on the data signal subjected to video processing using the video processing parameter of the selected object number.

FIG. 13 shows a display when object number 1 is selected and a display when object number 2 is selected.

When object number 1 is selected, the display is centered on the person. When object number 2 is selected, the display is performed centering on fruits. Therefore, the viewer can view the video with a display suitable for the viewer's preference by selecting the object number.

Note that the object number is not limited to the two object numbers described above, and a plurality of object numbers having different points can be set. Other values can also be used for the video processing parameters and the video parameters used to create the video processing parameters.

[Embodiment 5]
The following will describe another embodiment of the present invention with reference to the drawings. Configurations other than those described in the present embodiment are the same as those in the first to fourth embodiments.

(Configuration of display device)
FIG. 14 is a block diagram illustrating a configuration example of the display device 200 according to the present embodiment. As shown in FIG. 14, the display device 200 includes video parameter extracting units 201a to 201c, a viewer setting parameter receiving unit 202, a display device parameter holding unit 203, video data decoding units 204a to 204c, a video processing unit 205, and parameter holding. A unit 206, a parameter processing unit 207, and a display unit 208.

The display device 200 has a multi-screen display function (multi-screen system) for simultaneously displaying a plurality of video data. Here, in order to display three video data, three video parameter extraction units 201a to 201c (video parameter extraction means) and three video data decoding units 204a to 204c are provided. However, the present invention is not limited to this, and the same number of sets of video parameter extraction units and video data decoding units may be provided according to the number of videos to be displayed.

In addition, each structure of the display apparatus 200 has the same function as each structure of the display apparatus 150 shown in FIG. In other words, the video parameter extraction units 201 a to 201 c correspond to the video parameter extraction unit 101. The viewer setting parameter receiving unit 202 (viewer setting parameter receiving unit) corresponds to the viewer setting parameter receiving unit 102. The display device parameter holding unit 203 (display device parameter holding unit) corresponds to the display device parameter holding unit 103. The video data decoding units 204 a to 204 c correspond to the video data decoding unit 104. A video processing unit 205 (video processing means) corresponds to the video processing unit 105. The parameter holding unit 206 corresponds to the parameter holding unit 106. A parameter processing unit 207 (parameter generation means) corresponds to the parameter processing unit 107. The display unit 208 corresponds to the display unit 108.

Also, the parameter processing unit 207 can calculate and generate video processing parameters for each video data. The display device parameter holding unit 203 holds a display device parameter (particularly, a target position) in advance for each video data.

In the display device 200, a plurality of pieces of video data indicating the video of one frame are sequentially supplied. Each configuration of the display device 200 performs the above-described operation every time video data is supplied, that is, for each frame. In FIG. 14, a thick line path indicates a video data and data signal path, and a thin line path indicates a signal path indicating various parameters.

(Video display)
For example, assume that three pieces of video data 1, 2, 3 shown in FIG. 15 are input. Assume that each video data is added with video parameters such that a person is the actual size and displayed at the center. Also, for example, when position_x1 = 480, position_x2 = 960, position_x3 = 1440 are set as screen position parameters as display device parameters, video data 1 is position_x1, video data 2 is position_x2, and video data 3 is It will be displayed at position_x3, respectively.

The video parameter is extracted from the video data 1 by the video parameter extraction unit 201a. The video data 1 is decoded by the video data decoding unit 204 a and output to the video processing unit 205. On the other hand, the parameter processing unit 207 generates a video processing parameter (referred to as video processing parameter Pa) using the parameters associated with the video data 1. This video processing parameter Pa is held in the parameter holding unit 206.

The video parameters are extracted from the video data 2 by the video parameter extraction unit 201b. The video data 2 is decoded by the video data decoding unit 204 b and output to the video processing unit 205. On the other hand, the parameter processing unit 207 generates a video processing parameter (referred to as video processing parameter Pb) using a parameter associated with the video data 2. The video processing parameter Pb is held in the parameter holding unit 206.

The video parameter of the video data 3 is extracted by the video parameter extraction unit 201c. The video data 3 is decoded by the video data decoding unit 204 c and output to the video processing unit 205. On the other hand, the parameter processing unit 207 generates a video processing parameter (referred to as a video processing parameter Pc) using a parameter associated with the video data 3. The video processing parameter Pc is held in the parameter holding unit 206.

The video processing unit 205 includes a data signal Da corresponding to the video data 1 output from the video data decoding unit 204a, a data signal Db corresponding to the video data 2 output from the video data decoding unit 204b, and a video signal decoding unit 204c. Video processing is performed on each of the data signals Dc corresponding to the output video data 3. In other words, the video processing unit 205 performs video processing of the data signal Da using the video processing parameter Pa, performs video processing of the data signal Db using the video processing parameter Pb, and uses the video processing parameter Pc to process the data signal. Dc video processing is performed.

Thereby, the data signals Da to Dc on which the video processing has been individually performed are output to the display unit 208 and displayed based on the data signals Da to Dc.

Fig. 16 shows the display screen.

As shown in FIG. 16, by performing video processing on each data signal Da to Dc using the created video processing parameters Pa to Pc, the three videos are made to have the same size for each person. It is possible to display. In addition, since the display can be adapted to the viewer's preference, it is possible to save the trouble of adjusting the size and display position of the video.

As described above, the display device 200 is supplied with a plurality of video data, and the video parameter extraction units 201a to 201c and the video data decoding units 204a to 204c provided for each video data, and the video processing for each video data. A parameter processing unit 207 that generates parameters and a video processing unit 205 that performs video processing using a corresponding video processing parameter for each of a plurality of data signals are provided.

According to the above configuration, by performing video processing on each of a plurality of data signals using corresponding video processing parameters, it is possible to simultaneously display a plurality of videos according to the preference of the viewer. Become. In addition, since a display according to the viewer's preference can be obtained, it is possible to save time and effort for adjusting the size and display position of the video.

Note that the display device 200 can be configured by removing the viewer setting parameter receiving unit 202 as in the display device 100 of the first embodiment. However, the provision of the viewer setting parameter receiving unit 202 makes it possible to set the viewer, which is particularly effective. In the display example shown in FIG. 16, the viewer setting parameter is not mentioned, but the viewer setting parameter may be appropriately added to the generation of the video processing parameter.

Further, the display device 200 preferably includes a video data input port (input terminal) for inputting video data. The input terminal is generally called a terrestrial digital / BS antenna terminal or an HDMI terminal. Whether or not a video data decoding unit is mounted can be determined for each input terminal.

[Additional Notes]
The display device according to the present embodiment can also be expressed as follows.

The display device receives an input video signal that is a video signal including a video parameter that is attribute information related to the display of the original image, and represents the processed video signal that is a video signal obtained by performing video processing on the input video signal. A display device that displays the image to be displayed on the display unit, using the video processing parameters for performing video processing relating to the display of the image represented by the processed video signal, the input video signal A video processing unit that performs video processing; a parameter generation unit that generates the video processing parameter; a video parameter extraction unit that extracts the video parameter from the input video signal; and a display device parameter that is attribute information about the display device. A display device parameter holding unit for holding, and the parameter generation unit is extracted at least by the video parameter extraction unit. The video parameters, and, from the display device parameter held by the display device parameter holding unit, generates the image processing parameters.

The display device according to the present embodiment further includes a viewer setting parameter receiving unit that receives a viewer setting parameter that is information related to viewing set by the viewer, and the parameter generation unit includes the video parameter and the display. Preferably, the video processing parameter is generated from the apparatus parameter and the viewer setting parameter received by the viewer setting parameter receiving unit.

According to the above configuration, the video processing parameter is generated in consideration of the attribute information regarding the display of the original image, the attribute information regarding the display device, and the information regarding viewing set by the viewer. Therefore, it is possible to display an image based on the processed video signal subjected to the video processing in an optimum form based on the information of the three parties. Therefore, in the display suitable for the display device, it is possible to perform display according to the preference of the viewer.

In the display device of the present embodiment, the viewer setting parameter includes a display mode parameter that defines a display form of the image represented by the processed video signal, and the display modes are different from each other in the display form. It is possible to set from a plurality of display modes, and it is preferable that the parameter generation unit uses the video parameters for generating the video processing parameters in accordance with the set display mode.

According to the above configuration, for example, when a display mode that matches the viewer's preference is set, the video processing parameter is generated using the video parameter. On the other hand, when the display mode for normal display is set, video processing parameters are generated using only display device parameters. As a result, display is performed in the display mode of the set display mode. Therefore, the viewer can view the video with a display suitable for the viewer by selecting the display mode.

In the display device of the present embodiment, the viewer setting parameter includes an object number parameter that is a number assigned to a point of the original image represented by the input video signal, and the object number is a point Can be set from a plurality of object numbers different from each other, and the input video signal includes the video parameter individually for each object number, and the parameter generation unit includes the set object It is preferable to use the video parameter corresponding to the object number for generating the video processing parameter according to the number.

According to the above configuration, the display is performed around the point corresponding to the set object number. Therefore, the viewer can view the video with a display suitable for the viewer's preference by selecting the object number.

In the display device of the present embodiment, a plurality of the input video signals are supplied, the video parameter extraction unit is provided for each input video signal, and the parameter generation unit is provided for each input video signal. Preferably, the video processing parameter is generated, and the video processing unit performs video processing on each of the plurality of input video signals using the corresponding video processing parameter.

According to the above configuration, each of a plurality of input video signals can be displayed simultaneously according to the viewer's preference by performing video processing using corresponding video processing parameters. It becomes. For example, it is possible to display each person so that the size of each person is the same. In addition, since the display can be adapted to the viewer's preference, it is possible to save the trouble of adjusting the size and display position of the video.

The display method of the present embodiment is a process that is an input video signal that is a video signal including a video parameter that is attribute information related to display of an original image, and that is a video signal obtained by performing video processing on the input video signal. A display method for displaying an image represented by a completed video signal on a display unit of a display device, wherein at least the processed video signal is obtained from at least the video parameter and a display device parameter which is attribute information relating to the display device. A first step of generating a video processing parameter for performing video processing relating to display of an image represented by the following: a second step of performing the video processing on the input video signal using the generated video processing parameter Including.

Further, in the display method of the present embodiment, in the first step, the video processing parameters are determined from the video parameters, the display device parameters, and viewer setting parameters that are set by the viewer and are viewing information. It is preferable to produce.

According to the above configuration, the video processing parameter is generated in consideration of the attribute information regarding the display of the original image, the attribute information regarding the display device, and the information regarding viewing set by the viewer. Therefore, it is possible to display an image based on the processed video signal subjected to the video processing in an optimum form based on the information of the three parties. Therefore, in the display suitable for the display device, it is possible to perform display according to the preference of the viewer.

In addition, it is preferable that the display method of the present embodiment further includes an extraction step of extracting the video parameter from the input video signal before the first step.

According to the above configuration, it is possible to reliably obtain video parameters.

In the display method according to the present embodiment, the viewer setting parameter includes a display mode parameter that defines a display form of the image represented by the processed video signal, and the display modes are mutually different in display form. It is possible to set from a plurality of different display modes. In the first step, it is preferable to use the video parameter for generating the video processing parameter in accordance with the set display mode.

According to the above configuration, for example, when a display mode that matches the viewer's preference is set, the video processing parameter is generated using the video parameter. On the other hand, when the display mode for normal display is set, video processing parameters are generated using only display device parameters. As a result, display is performed in the display mode of the set display mode. Therefore, the viewer can view the video with a display suitable for the viewer by selecting the display mode.

In the display method according to the present embodiment, the viewer setting parameter includes an object number parameter that is a number assigned to a point of the original image represented by the input video signal. Can be set from a plurality of object numbers different from each other, and the input video signal includes the video parameter individually for each object number, and in the first step, the set object In accordance with the number, it is preferable to use the video parameter corresponding to the object number for generating the video processing parameter.

According to the above configuration, the display is performed around the point corresponding to the set object number. Therefore, the viewer can view the video with a display suitable for the viewer's preference by selecting the object number.

In the display method of the present embodiment, a plurality of the input video signals are supplied. In the first step, the video processing parameters are generated for each of the input video signals, and in the second step, the above-mentioned video processing parameters are generated. It is preferable to perform video processing on each of a plurality of input video signals using the corresponding video processing parameters.

According to the above configuration, each of a plurality of input video signals can be displayed simultaneously according to the viewer's preference by performing video processing using corresponding video processing parameters. It becomes. For example, it is possible to display each person so that the size of each person is the same. In addition, since the display can be adapted to the viewer's preference, it is possible to save the trouble of adjusting the size and display position of the video.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

The present invention can be suitably used not only in the field related to a display device that performs display based on a video signal that has been subjected to video processing after decoding, but also in the field related to a display method. Furthermore, the present invention can be widely used in the field of multi-screen systems that display a plurality of videos simultaneously, and also in the technical fields of virtual reality (virtual reality) and argument reality (augmented reality).

100, 130, 150, 200 Display device 101, 201a to 201c Video parameter extraction unit (video parameter extraction means)
102, 202 Viewer setting parameter receiving unit (viewer setting parameter receiving means)
103, 203 Display device parameter holding unit (display device parameter holding means)
104, 204a to 204c Video data decoding unit 105, 205 Video processing unit (video processing means)
106, 206 Parameter holding unit 107, 207 Parameter processing unit (parameter generation means)
108,208 display unit

Claims (11)

1. An image represented by a processed video signal, which is a video signal obtained by performing video processing on the input video signal, using a video signal including a video parameter that is attribute information relating to display of an original image as an input video signal, A display device for displaying on
   Video processing means for performing the video processing on the input video signal using video processing parameters for performing video processing relating to display of an image represented by the processed video signal;
   Video parameter extraction means for extracting the video parameters from the input video signal;
   Display device parameter holding means for holding display device parameters which are attribute information relating to the display device;
   Parameter generation means for generating the video processing parameters from at least the video parameters extracted by the video parameter extraction means and the display device parameters held by the display device parameter holding means; A display device.
2. Viewer setting parameter receiving means for receiving a viewer setting parameter which is information related to viewing set by the viewer;
   2. The parameter generating unit generates the video processing parameter from the video parameter, the display device parameter, and the viewer setting parameter received by the viewer setting parameter receiving unit. The display device described in 1.
3. The viewer setting parameter includes a display mode parameter that defines a display form of an image represented by the processed video signal, and the display mode is set from a plurality of display modes having different display forms. Is possible,
   The display device according to claim 2, wherein the parameter generation unit uses the video parameter to generate the video processing parameter according to the set display mode.
4. The viewer setting parameter includes an object number parameter which is a number assigned to a point of the original image represented by the input video signal, and the object number is set from a plurality of object numbers having different points. Is possible and
   The input video signal includes the video parameters individually for each object number,
   3. The display device according to claim 2, wherein the parameter generation unit uses the video parameter corresponding to the object number for generation of the video processing parameter in accordance with the set object number.
5. A plurality of the input video signals are supplied,
   The video parameter extraction means is provided for each input video signal,
   The parameter generation means generates the video processing parameter for each input video signal,
   5. The display device according to claim 1, wherein the video processing means performs video processing on each of the plurality of input video signals using the corresponding video processing parameter. .
6. Displaying an image represented by a processed video signal, which is a video signal obtained by performing video processing on the input video signal, using a video signal including a video parameter that is attribute information relating to display of an original image as an input video signal A display method for displaying on the display section of
   A first step of generating a video processing parameter for performing video processing relating to display of an image represented by the processed video signal, from at least the video parameter and a display device parameter which is attribute information relating to the display device; ,
   And a second step of performing the video processing on the input video signal using the generated video processing parameter.
7. 7. The video processing parameter is generated in the first step from the video parameter, the display device parameter, and a viewer setting parameter which is a viewer setting information set by the viewer. Display method of description.
8. The display method according to claim 6 or 7, further comprising an extraction step of extracting the video parameter from the input video signal before the first step.
9. The viewer setting parameter includes a display mode parameter that defines a display form of an image represented by the processed video signal, and the display mode is set from a plurality of display modes having different display forms. Is possible,
   8. The display method according to claim 7, wherein, in the first step, the video parameter is used to generate the video processing parameter in accordance with the set display mode.
10. The viewer setting parameter includes an object number parameter which is a number assigned to a point of the original image represented by the input video signal, and the object number is set from a plurality of object numbers having different points. Is possible and
    The input video signal includes the video parameters individually for each object number,
    8. The display method according to claim 7, wherein in the first step, the video parameter corresponding to the object number is used to generate the video processing parameter in accordance with the set object number.
11. A plurality of the input video signals are supplied,
    In the first step, the video processing parameter is generated for each input video signal,
    11. The display method according to claim 6, wherein, in the second step, video processing is performed on each of the plurality of input video signals using the corresponding video processing parameter. .

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