JP2016018091A5 - - Google Patents

Description

The first aspect of the present invention is:
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Based on the display image, and display means for displaying an image on the screen by transmitting light emitted from said light emitting means,
Control means for controlling a light emission state that is at least one of a light emission luminance and a light emission color of each light source based on a feature amount of the display image in a region of the screen corresponding to each light source;
With
When the display image is an image arranged in a region where the first image and the second image are different from each other ,
A change in the light emission state of the target light source corresponding to a region including a boundary between the first image and the second image and a region in the vicinity thereof in the screen among the plurality of light sources ,
Control so as to be suppressed compared to a change in the light emission state of a non-target light source that is not the target light source among the plurality of light sources ,
An image display device characterized by the above.
The second aspect of the present invention is:
An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
Control means for controlling the light emission luminance of each light source based on the feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources;
With
The range of light emission luminance that can be taken by the target light source corresponding to the region whose distance from the boundary between the first image and the second image is a predetermined distance or less is a non-target light source that is not the target light source among the plurality of light sources. Is narrower than the range of possible emission brightness,
An image display device characterized by the above.
The third aspect of the present invention is:
An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
Control means for periodically controlling the light emission luminance of each light source based on a feature amount indicating the brightness of a portion of the display image in the area of the screen corresponding to each of the plurality of light sources;
With
Corresponds to a region where the distance from the boundary between the first image and the second image is a predetermined distance or less.
The emission luminance of the target light source is controlled so that the difference from the emission luminance of the target light source in the previous cycle is equal to or less than the second difference value,
The light emission luminance of the non-target light source that is not the target light source among the plurality of light sources is controlled such that the difference from the light emission luminance of the non-target light source in the previous cycle is equal to or less than the first difference value,
The second difference value is smaller than the first difference value;
An image display device characterized by the above.

The fourth aspect of the present invention is:
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Display means for transmitting light emitted from the light emitting means and displaying an image on a screen based on a display image;
A method for controlling an image display device comprising:
A control step of controlling a light emission state that is at least one of the light emission luminance and the light emission color of each light source based on the feature amount of the display image in the area of the screen corresponding to each light source.
Have
In the control step, when the display image is an image arranged in a region where the first image and the second image are different from each other,
A change in the light emission state of the target light source corresponding to a region including a boundary between the first image and the second image and a region in the vicinity thereof in the screen among the plurality of light sources,
Control so as to be suppressed compared to a change in the light emission state of a non-target light source that is not the target light source among the plurality of light sources,
This is a method for controlling an image display device.
According to a fifth aspect of the present invention,
An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
A method for controlling an image display device comprising:
A control step of controlling the light emission luminance of each light source based on a feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources.
Have
The range of light emission luminance that can be taken by the target light source corresponding to the region whose distance from the boundary between the first image and the second image is a predetermined distance or less is a non-target light source that is not the target light source among the plurality of light sources Is narrower than the range of possible emission brightness,
This is a method for controlling an image display device.
The sixth aspect of the present invention is:
An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
A light emitting means having a plurality of light sources capable of individually controlling light emission;
Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
A method for controlling an image display device comprising:
A control step of periodically controlling the light emission luminance of each light source based on a feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources.
Have
The light emission luminance of the target light source corresponding to the region whose distance from the boundary between the first image and the second image is equal to or less than a predetermined distance is a difference between the light emission luminance of the target light source in the previous cycle and the second difference. Controlled to be below the value,
The light emission luminance of the non-target light source that is not the target light source among the plurality of light sources is controlled such that the difference from the light emission luminance of the non-target light source in the previous cycle is equal to or less than the first difference value,
The second difference value is smaller than the first difference value;
This is a method for controlling an image display device.

A seventh aspect of the present invention is a program for causing a computer to execute each step of the above-described image display apparatus control method.

Claims (21)

A light emitting means having a plurality of light sources capable of individually controlling light emission;
Based on the display image, and display means for displaying an image on the screen by transmitting light emitted from said light emitting means,
Control means for controlling a light emission state that is at least one of a light emission luminance and a light emission color of each light source based on a feature amount of the display image in a region of the screen corresponding to each light source;
With
When the display image is an image arranged in a region where the first image and the second image are different from each other ,
A change in the light emission state of the target light source corresponding to a region including a boundary between the first image and the second image and a region in the vicinity thereof in the screen among the plurality of light sources ,
Control so as to be suppressed compared to a change in the light emission state of a non-target light source that is not the target light source among the plurality of light sources ,
An image display device characterized by that. First storage means for storing information representing a first correspondence relationship that is a correspondence relationship between a feature amount and a light emission state;
A second storage unit that stores information representing a second correspondence relationship that is a correspondence relationship between the feature amount and the light emission state, and the range of the light emission state associated with the feature amount is narrower than the first correspondence relationship;
Further comprising
The control means includes
The light emission state of the non-target light source, and the control based on the feature amount of the area corresponding to the non-target light source and said first corresponding relationship,
The light emission state of the target light source is controlled based on the feature amount of the area corresponding to the target light source and the second corresponding relationship,
The image display apparatus according to claim 1. The control means includes
The light emission state of each light source is controlled periodically ,
Wherein the current light emission state of the non-target light source, the first change in response to the difference between the current features and the feature amount of a region corresponding to the non-target light source in the previous cycle of the area corresponding to the non-target light source Control with a value that changes the light emission state in the previous period of the non-target light source by the amount,
Wherein the current emission state of the target light source, only the second change amount corresponding to the difference between the current feature amount, a feature amount of a region corresponding to the target light source in the previous cycle of the area corresponding to the target light source such Control with the value that changed the light emission state in the previous cycle of the target light source,
The maximum value that can be taken by the absolute value of the second change amount is smaller than the maximum value that can be taken by the absolute value of the first change amount ,
The image display apparatus according to claim 1. First acquisition means for acquiring a first feature amount that is a feature amount of the first image;
Second acquisition means for acquiring a second feature amount that is a feature amount of the second image;
Further comprising
The control means is configured such that a change in a light emission state of the target light source due to a change in the display image is significantly suppressed as a difference between the first feature amount and the second feature amount is larger than that of the non-target light source. To control the light emission state of each light source ,
The image display apparatus according to any one of claims 1 3, characterized in that. First detection means for detecting a scene change of the first image when the first image is a moving image;
Second detection means for detecting a scene change in the second image when the second image is a moving image;
Further comprising
When the first image and the second image are moving images and the scene of the first image and the scene of the second image are switched simultaneously, the control means sets the target light source as the non-target. Consider the light source and control the light emission state of each light source .
The image display apparatus according to claim 1, any one of 4, characterized in that.   An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
  A light emitting means having a plurality of light sources capable of individually controlling light emission;
  Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
  Control means for controlling the light emission luminance of each light source based on the feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources;
With
  The range of light emission luminance that can be taken by the target light source corresponding to the region whose distance from the boundary between the first image and the second image is a predetermined distance or less is a non-target light source that is not the target light source among the plurality of light sources. Is narrower than the range of possible emission brightness,
An image display device characterized by that.   The target light source irradiates light to a region of the screen where a part of the first image is displayed and a region of the screen where a part of the second image is displayed among the plurality of light sources. Is a light source that can
The image display device according to claim 6.   The minimum brightness that the target light source can take is higher than the minimum brightness that the non-target light source can take.
The image display device according to claim 6, wherein the image display device is an image display device.   The first correspondence information indicating information in which the range of emission luminance that can be taken by the non-target light source is associated with the feature amount, and the range of emission luminance that can be taken by the target light source is associated with the feature amount.
Storage means for storing second correspondence information indicating the attached information,
  The control means controls emission luminance of the non-target light source based on the first correspondence information and the feature amount of the region corresponding to the non-target light source, and the second correspondence information and the target light source Controlling the emission luminance of the target light source based on the feature amount of the region corresponding to
The image display device according to claim 6, wherein the image display device is an image display device.   The control means emits light corresponding to the feature amount of the region corresponding to the target light source in the first correspondence information and light emission corresponding to the feature amount of the region corresponding to the target light source in the second correspondence information. Controlling the light emission luminance of the target light source with the light emission luminance obtained by weighting and adding the luminance according to the distance between the target light source and the boundary;
The image display device according to claim 9.   The control means, when there are a plurality of the target light sources, commonly controls the luminance of the plurality of target light sources by a light emission luminance based on a feature amount of a region corresponding to each of the plurality of target light sources. The image display device according to claim 9.   When the difference between the brightness of the first image and the brightness of the second image is smaller than a predetermined value, the control means sets the emission luminance of the target light source to the feature amount of the region corresponding to the target light source. And controlling based on the first correspondence information,
The image display device according to claim 9.   An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
  A light emitting means having a plurality of light sources capable of individually controlling light emission;
  Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
  Control means for periodically controlling the light emission luminance of each light source based on a feature amount indicating the brightness of a portion of the display image in the area of the screen corresponding to each of the plurality of light sources;
With
  The light emission luminance of the target light source corresponding to the region whose distance from the boundary between the first image and the second image is equal to or less than a predetermined distance is a difference between the light emission luminance of the target light source in the previous cycle and the second difference. Controlled to be below the value,
  The light emission luminance of the non-target light source that is not the target light source among the plurality of light sources is controlled such that the difference from the light emission luminance of the non-target light source in the previous cycle is equal to or less than the first difference value,
  The second difference value is smaller than the first difference value;
An image display device characterized by that.   Among the plurality of light sources, provided with detection means for detecting the target light source,
The image display device according to claim 1, wherein the image display device is an image display device.   The detection means detects, as the target light source, a light source that irradiates light to both a region where the first image is displayed and a region where the second image is displayed.
The image display device according to claim 14.   Each light source irradiates light to a circular area with a predetermined radius from the position where the light source is arranged in the area of the screen,
  The detection means includes a light source whose distance from the light source to the boundary position is equal to or less than a difference between the predetermined radius and the distance from the boundary position to the first image or the second image. Detect as light source,
The image display device according to claim 14.   The detection means includes
    A light source that is disposed closer to a region where the first image is displayed than the position of the boundary, and a distance to the boundary position is equal to or less than a second threshold;
    A light source that is disposed closer to a region where the second image is displayed than the position of the boundary, and a distance to the boundary position is equal to or less than a third threshold;
Is detected as the target light source,
The image display device according to claim 14.   A light emitting means having a plurality of light sources capable of individually controlling light emission;
  Display means for transmitting light emitted from the light emitting means and displaying an image on a screen based on a display image;
A method for controlling an image display device comprising:
  A control step of controlling a light emission state that is at least one of the light emission luminance and the light emission color of each light source based on the feature amount of the display image in the area of the screen corresponding to each light source.
Have
  In the control step, when the display image is an image arranged in a region where the first image and the second image are different from each other,
A change in the light emission state of the target light source corresponding to a region including a boundary between the first image and the second image and a region in the vicinity thereof in the screen among the plurality of light sources,
Control so as to be suppressed compared to a change in the light emission state of a non-target light source that is not the target light source among the plurality of light sources,
And a control method for the image display device.   An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
  A light emitting means having a plurality of light sources capable of individually controlling light emission;
  Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
A method for controlling an image display device comprising:
  A control step of controlling the light emission luminance of each light source based on a feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources.
Have
  The range of light emission luminance that can be taken by the target light source corresponding to the region whose distance from the boundary between the first image and the second image is a predetermined distance or less is a non-target light source that is not the target light source among the plurality of light sources Is narrower than the range of possible emission brightness,
And a control method for the image display device.   An image display device capable of displaying an image based on a display image in which a first image and a second image are arranged in different regions,
  A light emitting means having a plurality of light sources capable of individually controlling light emission;
  Display means for transmitting the light emitted from the light emitting means based on the display image and displaying the image on a screen;
A method for controlling an image display device comprising:
  A control step of periodically controlling the light emission luminance of each light source based on a feature amount indicating the brightness of the portion of the display image in the area of the screen corresponding to each of the plurality of light sources.
Have
  The light emission luminance of the target light source corresponding to the region whose distance from the boundary between the first image and the second image is equal to or less than a predetermined distance is a difference between the light emission luminance of the target light source in the previous cycle and the second difference. Controlled to be below the value,
  The light emission luminance of the non-target light source that is not the target light source among the plurality of light sources is controlled such that the difference from the light emission luminance of the non-target light source in the previous cycle is equal to or less than the first difference value,
  The second difference value is smaller than the first difference value;
And a control method for the image display device. The program for making a computer perform each step of the control method of the image display apparatus of any one of Claim 18 to 20 .