JP2018036396A - Liquid crystal display device, television receiver, method of controlling backlight, program, and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid crystal display device capable of enhancing the sense of depth regardless of images to be displayed.SOLUTION: A liquid crystal display device 1 comprises a controller 2, a backlight 3, and a liquid crystal panel 4. The display device is also provided with a light intensity adjustment volume computation unit 8 (intensity value adjustment unit) configured to adjust an intensity value for each region of the backlight 3 by referring to a degree of depth of an image region corresponding to the region of the backlight, where the degree of depth is acquired by a depth acquisition unit 7. This improves contrast in each region of the backlight 3 without sacrificing the original sense of depth of content.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a liquid crystal display device capable of controlling the luminance of a backlight for each area. The present invention also relates to a television receiver including such a liquid crystal display device. The present invention also relates to a control method and a control program for controlling a backlight in such a liquid crystal display device.

  In a liquid crystal display device, a technique for enhancing a sense of depth by processing a video signal or controlling the luminance of a backlight for each area is used.

  For example, Patent Document 1 discloses a liquid crystal display device that displays an image in which a sense of depth is emphasized by gradually decreasing the luminance of the upper region of the display unit of the liquid crystal panel from the lower part to the upper part.

JP 2014-66800 A (published April 17, 2014)

  However, in the liquid crystal display device described in Patent Document 1, an image that can enhance the sense of depth is limited to an image in which the upper region is a distant view and the lower region is a close view. Further, when displaying other images, there is a problem that the sense of depth is lost.

  Embodiments of the present invention have been made in view of the above problems, and an object thereof is to realize a liquid crystal display device capable of enhancing a sense of depth regardless of an image to be displayed. is there.

  In order to solve the above problems, a liquid crystal display device according to one embodiment of the present invention is a liquid crystal display device that displays an image, and includes a backlight having a plurality of regions and capable of controlling luminance for each region; For each region of the backlight, a depth acquisition unit that acquires the depth degree of the region of the image corresponding to the region, and for each region of the backlight, the luminance of the region was acquired by the depth acquisition unit A brightness value adjusting unit that adjusts the depth of the image area corresponding to the area with reference to the depth degree.

  In addition, a backlight control method for a liquid crystal display device according to one embodiment of the present invention includes a liquid crystal display that includes a liquid crystal panel that displays an image and a backlight that has a plurality of regions and can control luminance for each region. A device backlight control method, comprising: a depth acquisition step of acquiring a depth degree of an area of the image corresponding to each area of the backlight; and a luminance of the area for each area of the backlight Is adjusted with reference to the depth degree of the area of the image corresponding to the area acquired in the depth acquiring step.

  According to one embodiment of the present invention, a liquid crystal display device capable of enhancing a feeling of depth regardless of an image to be displayed is provided.

It is a block diagram which shows the structure of the liquid crystal display device 1 which concerns on Embodiment 1 of this invention. It is a figure which shows the external appearance of the television receiver 100 provided with the liquid crystal display device 1 which concerns on Embodiment 1 of this invention. It is a flowchart explaining the backlight control method which concerns on Embodiment 1 of this invention. (A) is a figure which shows the area (1st area) of 4 * 4 pixel LCD in the image which a video signal shows. (B) is a diagram showing an area (second area) of a 96 × 54 LCD. (C) is a figure which shows the area of 10 * 10 LED. It is a block diagram which shows the structure of the liquid crystal display device 20 which concerns on Embodiment 2 of this invention. It is a flowchart explaining the backlight control method which concerns on Embodiment 2 of this invention. It is a block diagram which shows the structure of the liquid crystal display device 30 which concerns on Embodiment 3 of this invention. It is a flowchart explaining the backlight control method which concerns on Embodiment 3 of this invention. It is a flowchart explaining the backlight control method which concerns on Embodiment 4 of this invention. It is a block diagram which shows the structure of the liquid crystal display device 40 which concerns on the modification of this invention. It is a flowchart explaining the backlight control method which concerns on the modification of this invention.

  Hereinafter, embodiments of the present invention will be described in detail. However, unless otherwise specified, the configuration described in the present embodiment is merely an illustrative example, and is not intended to limit the scope of the present invention.

Embodiment 1
(Configuration of the liquid crystal display device 1)
A liquid crystal display device 1 according to a first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing a configuration of a liquid crystal display device 1 according to the present embodiment. As shown in FIG. 1, the liquid crystal display device 1 includes a control unit 2, a backlight 3, and a liquid crystal panel 4.

  The control unit 2 includes a video signal acquisition unit 5, an image analysis unit 6, a depth acquisition unit 7, a dimming amount calculation unit 8 (corresponding to a luminance value adjustment unit in the claims), a backlight control unit 9, and a liquid crystal panel control. Part 10 is provided.

  The video signal acquisition unit 5 acquires a video signal (corresponding to an image signal indicating a still image or an image including a moving image in the claims) from the outside. The image analysis unit 6 refers to the video signal acquired by the video signal acquisition unit 5 and sets the luminance value of each area of the backlight 3 (local dimming). Further, the image analysis unit 6 refers to the video signal acquired by the video signal acquisition unit 5 and adjusts the LCD data (RGB signal or the like). The depth acquisition unit 7 acquires each region of the backlight 3 by calculating the depth degree of each image region of the image corresponding to the region with reference to the video signal acquired by the video signal acquisition unit 5.

  The dimming amount calculation unit 8 adjusts the luminance value of each region of the backlight 3 with reference to the depth degree of the image region of the image corresponding to the region acquired by the depth acquisition unit 7. . The backlight control unit 9 controls the luminance of each region of the backlight 3 in accordance with the luminance value of each region of the backlight 3 adjusted by the dimming amount calculation unit 8. The liquid crystal panel control unit 10 controls display of an image on the liquid crystal panel 4 with reference to the video signal acquired by the video signal acquisition unit 5 and the LCD data adjusted by the image analysis unit 6.

  The backlight 3 irradiates the liquid crystal panel 4 with light at a luminance corresponding to the luminance value of each area of the backlight 3 adjusted by the dimming amount calculation unit 8 based on control by the backlight control unit 9.

  The liquid crystal panel 4 displays an image indicated by the video signal based on the control by the liquid crystal panel control unit 10.

  Further, not only the liquid crystal display device 1 according to the present embodiment but also the television receiver 100 including the liquid crystal display device 1 according to the present embodiment is included in the scope of the embodiment of the present invention. The television receiver 100 includes, for example, (1) a tuner for receiving a video signal, (2) an audio signal processing unit that processes an audio signal received together with the video signal by the tuner, (3 This is realized by adding a speaker or the like that outputs the audio signal processed by the audio signal processing unit. FIG. 2 is a perspective view showing an appearance of the television receiver 100 including the liquid crystal display device 1 according to the present embodiment.

(Backlight control method of the liquid crystal display device 1)
A flow of a backlight control method executed by the liquid crystal display device 1 according to the present embodiment will be described with reference to FIG. FIG. 3 is a flowchart showing the flow of the backlight control method of the liquid crystal display device 1. Hereinafter, for simplification, description of the control of the liquid crystal panel 4 is omitted.

  The liquid crystal display device 1 according to the present embodiment adjusts the luminance value of the backlight 3 and controls the backlight 3 by executing steps S0 to S5 described below.

  First, the video signal acquisition unit 5 acquires a video signal (corresponding to an image signal in claims) (step S0). The video signal here may be an HDR (High Dynamic Range) video signal, an SDR (Standard Dynamic Range) video signal, or the like. The video signal acquisition unit 5 supplies the acquired video signal to the depth acquisition unit 7 and the image analysis unit 6.

  Next, the image analysis unit 6 sets the luminance value of each area of the backlight 3 with reference to the video signal acquired by the video signal acquisition unit 5 (step S1). A conventionally known method can be used as a method by which the image analysis unit 6 sets the luminance value of each region of the backlight 3. For example, the image analysis unit 6 recognizes a bright part in the image indicated by the video signal, and sets the luminance value of the LED region corresponding to the part to be high so that the part becomes brighter. Further, the image analysis unit 6 recognizes a dark part in the image indicated by the video signal, and sets the luminance value of the LED region corresponding to the part to be low so that the part becomes darker. The image analysis unit 6 supplies the set luminance value of each area of the backlight 3 to the dimming amount calculation unit 8.

  On the other hand, the depth acquisition unit 7 calculates, for each region of the backlight 3, the depth degree of the image region of the image corresponding to the region with reference to the video signal acquired by the video signal acquisition unit 5 (step S2). . In the present embodiment, the depth acquisition unit 7 acquires the depth degree by calculation, but the method of acquiring the depth degree is not limited to this. For example, as will be described later, the depth acquisition unit 7 may acquire the depth by extracting the degree of depth from the depth data accompanying the video signal. A specific example of how the depth acquisition unit 7 calculates the depth degree will be described later. In addition, the order which processes step S1 and step S2 is arbitrary.

  Next to step S2, the depth acquisition unit 7 refers to the calculated degree of depth of each image area of the image and calculates an average value (weighting coefficient) of the degree of depth of each image area of the image (step S3). A specific example of how the depth acquisition unit 7 calculates the average value of the degree of depth will be described later. The depth acquisition unit 7 supplies the calculated average value of the degree of depth to the dimming amount calculation unit 8.

  Next, the dimming amount calculation unit 8 uses the brightness value of each region of the backlight 3 set by the image analysis unit 6 as the depth value calculated by the depth acquisition unit 7 and the depth of the image region corresponding to the region. The brightness value of each area of the backlight 3 is adjusted by multiplying the average values of the degrees (step S4). The dimming amount calculation unit 8 supplies the adjusted luminance value of each region of the backlight 3 to the backlight control unit 9.

  Next, the backlight control unit 9 controls the luminance of each region of the backlight 3 in accordance with the luminance value of each region of the backlight 3 adjusted by the dimming amount calculation unit 8 (step S5).

(Example of how to calculate the depth)
Below, the example of the method of calculating a depth degree is demonstrated. FIG. 4A is a diagram illustrating an area (first area) of a 4 × 4 pixel LCD in the image indicated by the video signal. The depth acquisition unit 7 according to the present embodiment calculates the degree of depth by referring to a 4 × 4 pixel LCD area in the image indicated by the video signal. The number of pixels of the LCD referred to by the depth acquisition unit 7 is arbitrary. A specific example in which the depth acquisition unit 7 calculates the depth degree is shown below.

  For example, the depth acquisition unit 7 uses the depth prediction from the image indicated by the video signal as a task, extracts main information from the image features of the image, and constructs a predictor that performs depth prediction based on the extracted information. To do. Then, the depth acquisition unit 7 obtains an image feature of each point from the image, and performs regression analysis using separately prepared image depth information as an objective variable (for details, see http: //www.er.ams. eng.osaka-u.ac.jp/asadalab/tokusui/paper/2012/Suzuki_12_seishi.pdf).

  As another example, International Publication WO2012 / 140869A1 (published on October 18, 2012) discloses a technique for estimating a depth map. A depth map is an image or image channel that contains information about the distance from the viewpoint to the scene object plane. This document describes that the depth map can be acquired using an active method and a passive method.

(Example of how to calculate the average depth)
Hereinafter, an example of a method for calculating the average value (weighting coefficient) of the depth degree will be described. FIG. 4B is a diagram showing an area (second area) of the 96 × 54 LCD. Each area included in the 96 × 54 LCD area shown in FIG. 4B corresponds to the first area described above. Also, the 96 × 54 LCD area shown in FIG. 4B corresponds to the LED area described later. The depth acquisition unit 7 substitutes the value of the depth degree of each first area in the 96 × 54 LCD area shown in FIG. The weighting coefficient is calculated. Note that the value of the depth degree in FIG. 4B is obtained by the above-described method of calculating the depth degree, and is shown as a relative value of 0 to 1.0.

  In Formula (I), i and j indicate coordinates in the second area, and LCD (i, j) indicates a value of the degree of depth at each coordinate. That is, the average value of the depth degree is obtained by adding the values of the depth degrees of the first areas in the second area and dividing the number of the first areas in the second area.

  FIG. 4C is a diagram showing an area of 10 × 10 LEDs. In addition, the area of LED shows the unit of LED which irradiates the backlight of single brightness | luminance. Each area included in the 10 × 10 LED area shown in (c) of FIG. 4 corresponds to the above-described second area, and the average value of the degree of depth of the corresponding second area is, respectively. Allocated. Then, as described above, the dimming amount calculation unit 8 uses the brightness value of each area of the backlight 3 to determine the depth degree of the second area corresponding to the depth degree calculated by the depth acquisition unit 7. The luminance value of each area of the backlight 3 is adjusted by multiplying the average values.

  The number of pixels in the first area and the number of first areas in the second area can be any number as long as each second area corresponds to each area of the LED.

(Summary of Embodiment 1)
As described above, the liquid crystal display device 1 according to the present embodiment calculates, for each area of the backlight, the depth degree of the image area of the image corresponding to the area with reference to the image, and each area of the backlight. The brightness value of the area is adjusted with reference to the depth degree of the image area of the image corresponding to the area. In this configuration, for each area of the backlight, the brightness value of the area is adjusted based on the depth of the image area of the image corresponding to the area, so that the content originally has an improvement in contrast. The effect is that the sense of depth is not impaired.

[Embodiment 2]
The following describes Embodiment 2 of the present invention with reference to the drawings. For convenience of explanation, members having the same functions as those described in the first embodiment are denoted by the same reference numerals and description thereof is omitted.

(Configuration of the liquid crystal display device 20)
FIG. 5 is a block diagram showing a configuration of the liquid crystal display device 20 according to the present embodiment. As illustrated in FIG. 5, the liquid crystal display device 20 further includes a random noise generation unit 22 of the control unit 21 in addition to the configuration of the liquid crystal display device 1 according to the first embodiment.

  The random noise generation unit 22 generates random noise so that random noise can be added to the luminance value of each region of the backlight 3 adjusted by the light control amount calculation unit 8.

(Backlight control method of the liquid crystal display device 20)
A flow of a backlight control method executed by the liquid crystal display device 20 according to the present embodiment will be described with reference to FIG. FIG. 6 is a flowchart showing the flow of the backlight control method. Hereinafter, for simplification, description of the control of the liquid crystal panel 4 is omitted.

  The liquid crystal display device 20 according to the present embodiment adjusts the luminance value of the backlight 3 and controls the backlight 3 by executing steps S10 to S16 described below.

  First, the video signal acquisition unit 5 acquires a video signal (corresponding to an image signal in claims) (step S10). The video signal acquisition unit 5 supplies the acquired video signal to the depth acquisition unit 7 and the image analysis unit 6.

  Next, the image analysis unit 6 sets the luminance value of each area of the backlight 3 with reference to the video signal acquired by the video signal acquisition unit 5 (step S11).

  On the other hand, the depth acquisition unit 7 calculates, for each region of the backlight 3, the depth degree of the image region of the image corresponding to the region with reference to the video signal acquired by the video signal acquisition unit 5 (step S12). . In addition, the order which processes step S11 and step S12 is arbitrary.

  After step S12, the depth acquisition unit 7 refers to the calculated depth degree of each image area of the image and calculates an average value (weighting coefficient) of the depth degree of each image area of the image (step S13). The depth acquisition unit 7 supplies the calculated average value of the degree of depth to the dimming amount calculation unit 8.

  Next, the dimming amount calculation unit 8 uses the brightness value of each region of the backlight 3 set by the image analysis unit 6 as the depth value calculated by the depth acquisition unit 7 and the depth of the image region corresponding to the region. The brightness value of each area of the backlight 3 is adjusted by multiplying the average value of the degrees (step S14).

  Next, the dimming amount calculation unit 8 adds the random noise generated by the random noise generation unit 22 to the luminance value of each area of the backlight 3 adjusted by the dimming amount calculation unit 8 (step S15). As an example of a method in which the dimming amount calculation unit 8 adds random noise to the luminance value of each area of the adjusted backlight 3, a random number that reduces the difference in luminance value between the areas of the backlight 3 is framed. For example, there may be mentioned a method of generating each time and adding to the luminance value of each area of the backlight 3 adjusted by the light control amount calculation unit 8. The dimming amount calculation unit 8 supplies the adjusted luminance value of each region of the backlight 3 to the backlight control unit 9 by adding random noise.

  Next, the backlight control unit 9 controls the luminance of each area of the backlight 3 in accordance with the luminance value of each area of the backlight 3 adjusted by the dimming amount calculation unit 8 (step S16).

  As in the first embodiment, by simply multiplying the luminance value of each area of the backlight by the weighting coefficient, a change in luminance between the LED areas may be noticeable. Therefore, the liquid crystal display device 20 according to the present embodiment further adjusts the luminance value of each region of the backlight by adding random noise. Thereby, the change in luminance between the backlight regions can be made inconspicuous.

[Embodiment 3]
Embodiment 3 of the present invention will be described below with reference to the drawings. For convenience of explanation, members having the same functions as those described in other embodiments are denoted by the same reference numerals and description thereof is omitted.

(Configuration of the liquid crystal display device 30)
FIG. 7 is a block diagram showing a configuration of the liquid crystal display device 30 according to the present embodiment. As illustrated in FIG. 7, the liquid crystal display device 30 further includes a reception unit 32 of the control unit 31 in addition to the configuration of the liquid crystal display device 1 according to the first embodiment.

  The accepting unit 32 accepts adjustment related to the luminance value of each area of the backlight 3 by the user.

(Backlight control method of the liquid crystal display device 30)
The flow of the backlight control method executed by the liquid crystal display device 30 according to the present embodiment will be described with reference to FIG. FIG. 8 is a flowchart showing the flow of the backlight control method. Hereinafter, for simplification, description of the control of the liquid crystal panel 4 is omitted.

  The liquid crystal display device 30 according to the present embodiment adjusts the luminance value of the backlight 3 and controls the backlight 3 by executing steps S20 to S26 described below.

  First, the video signal acquisition unit 5 acquires a video signal (corresponding to an image signal in claims) (step S20). The video signal acquisition unit 5 supplies the acquired video signal to the depth acquisition unit 7 and the image analysis unit 6.

  Next, the image analysis unit 6 sets the luminance value of each area of the backlight 3 with reference to the video signal acquired by the video signal acquisition unit 5 (step S21).

  On the other hand, the depth acquisition unit 7 calculates, for each region of the backlight 3, the depth degree of the image region of the image corresponding to the region with reference to the video signal acquired by the video signal acquisition unit 5 (step S22). . In addition, the order which processes step S21 and step S22 is arbitrary.

  After step S22, the depth acquisition unit 7 refers to the calculated depth of each image area of the image and calculates an average value (weighting coefficient) of the depth of each image area of the image (step S23). The depth acquisition unit 7 supplies the calculated average value of the degree of depth to the dimming amount calculation unit 8.

  On the other hand, the reception unit 32 receives an adjustment by the user regarding the luminance value of each area of the backlight 3 (step S24). An example of adjustment related to the luminance value of each area of the backlight 3 received by the receiving unit 32 will be described below. For example, in the image, the user can set each of the backlights 3 so that a bright part becomes dark (for example, the front of the image is darkened) and a dark part becomes bright (for example, the back of the image is brightened). The liquid crystal panel 4 displays a slider that can adjust the luminance value of the area. The receiving unit 32 receives an adjustment for the luminance value of each area of the backlight 3 by the user operating the slider, and outputs the adjustment to the dimming amount calculation unit 8.

  Next, the dimming amount calculation unit 8 uses the brightness value of each region of the backlight 3 set by the image analysis unit 6 as the depth value calculated by the depth acquisition unit 7 and the depth of the image region corresponding to the region. The brightness value of each area of the backlight 3 is adjusted by multiplying the average value of the degrees and reflecting the adjustment by the user received by the receiving unit 32 (step S25). The dimming amount calculation unit 8 supplies the adjusted luminance value of each region of the backlight 3 to the backlight control unit 9.

  Next, the backlight control unit 9 controls the luminance of each region of the backlight 3 in accordance with the luminance value of each region of the backlight 3 adjusted by the dimming amount calculation unit 8 (step S26).

  As described above, the liquid crystal display device 30 according to the present embodiment accepts an adjustment by the user for the luminance value of each area of the backlight. Thereby, an image can be displayed with a sense of depth desired by the user.

[Embodiment 4]
Embodiment 4 of the present invention will be described below with reference to the drawings. In the present embodiment, the liquid crystal display device 1 according to the first embodiment is used.

(Backlight Control Method for Liquid Crystal Display Device 1 According to Embodiment 4)
The flow of the backlight control method executed by the liquid crystal display device 1 according to the present embodiment will be described with reference to FIG. FIG. 9 is a flowchart showing the flow of the backlight control method. Hereinafter, for simplification, description of the control of the liquid crystal panel 4 is omitted.

  The liquid crystal display device 1 according to this embodiment adjusts the luminance value of the backlight 3 and controls the backlight 3 by executing steps S30 to S36 described below.

  First, the video signal acquisition unit 5 acquires a video signal (corresponding to an image signal in claims) (step S30). The video signal acquisition unit 5 supplies the acquired video signal to the depth acquisition unit 7 and the image analysis unit 6.

  Next, the image analysis unit 6 sets the luminance value of each area of the backlight 3 with reference to the video signal acquired by the video signal acquisition unit 5 (step S31).

  On the other hand, the depth acquisition unit 7 calculates, for each region of the backlight 3, the depth degree of the image region of the image corresponding to the region with reference to the video signal acquired by the video signal acquisition unit 5 (step S32). .

  After step S32, the depth acquisition unit 7 refers to the calculated depth degree of each image area and calculates an average value (weighting coefficient) of the depth degree of each image area of the image (step S33). The depth acquisition unit 7 supplies the calculated average value of the degree of depth to the dimming amount calculation unit 8.

  In addition, the image analysis unit 6 detects an irregular reflection region (diffuse reflection region) in the image indicated by the video signal acquired by the video signal acquisition unit 5 (step S34). An example of how the image analysis unit 6 detects the irregular reflection area will be described later. The image analysis unit 6 supplies the detection result of the irregular reflection region in the image indicated by the video signal to the dimming amount calculation unit 8. In addition, the order which processes step S31, step S32, and step S33 is arbitrary.

  Next, the dimming amount calculation unit 8 uses the brightness value of each region of the backlight 3 set by the image analysis unit 6 as the depth value calculated by the depth acquisition unit 7 and the depth of the image region corresponding to the region. The brightness value of each area of the corresponding backlight 3 is adjusted by multiplying the average value of the degrees, and by referring to the detection result of the irregular reflection area supplied from the image analysis unit 6 to emphasize irregular reflection. (Step S35). An example of a method for adjusting the luminance value of each region of the backlight 3 so that the light control amount calculation unit 8 emphasizes irregular reflection will be described later. Further, the light control amount calculation unit 8 supplies the adjusted luminance value of each area of the backlight 3 to the backlight control unit 9.

  Next, the backlight control unit 9 controls the luminance of each region of the backlight 3 in accordance with the luminance value of each region of the backlight 3 adjusted by the light control amount calculating unit 8 (step S36).

(Example of how to determine the diffuse reflection area)
For example, when the image analysis unit 6 detects an area in which the brightness is rapidly changed so that an edge is generated and the color does not change in the image indicated by the video signal, the area is changed to the irregular reflection area. It is determined as

  Alternatively, the image analysis unit 6 detects an area where colors very close to the primary colors (seven colors of the rainbow) are arranged in the image indicated by the video signal, and whether or not these colors are arranged according to the frequency. If these colors are arranged according to the frequency, the area is determined as an irregular reflection area.

(Example of how to adjust the brightness value to emphasize diffuse reflection)
For example, the dimming amount calculation unit 8 increases the stereoscopic value of the object in the image by increasing the luminance value of the backlight 3 in the irregular reflection region detected by the image analysis unit 6, and emphasizes the depth feeling of the entire space.

  Alternatively, the image analysis unit 6 adjusts the LCD data included in the video signal, thereby increasing the saturation of the irregular reflection region in the image displayed by the liquid crystal panel 4 and decreasing the brightness. Then, the dimming amount calculation unit 8 increases the luminance value of the backlight 3 in the irregular reflection region so as to improve the feeling of glittering in response to the change in saturation and brightness. Thereby, the stereoscopic effect of the object in the image can be increased.

  Alternatively, the image analysis unit 6 adjusts the LCD data included in the video signal to increase the saturation and lightness of the irregular reflection region in the image displayed on the liquid crystal panel 4, thereby improving the sense of glitter. Then, the light control amount calculation unit 8 adjusts the average value of the degree of depth calculated by the depth acquisition unit 7 according to whether or not the image region in which the average value of the degree of depth is calculated is an irregular reflection region.

  Alternatively, irregular reflection occurs due to irregularities on an object that reflects light, so that the dimming amount calculation unit 8 enhances the enhancement of the irregular reflection region in the image in order to reproduce the irregularities of the object, The brightness value of the backlight 3 in the irregular reflection region is adjusted, or the image analysis unit 6 adjusts the LCD data included in the video signal.

(Summary of Embodiment 4)
As described above, the liquid crystal display device 1 according to the fourth embodiment detects the irregular reflection region in the image indicated by the video signal, and further adjusts the luminance value of each region of the backlight with reference to the detected irregular reflection region. . As a result, by enhancing the irregular reflection in the irregular reflection region of the image, the stereoscopic effect of the object can be increased and the depth feeling of the entire screen can be improved.

[Modification]
A modification of the present invention will be described below with reference to the drawings. For convenience of explanation, members having the same functions as those described in the above embodiments are denoted by the same reference numerals and description thereof is omitted.

(Configuration of the liquid crystal display device 40)
FIG. 10 is a block diagram showing a configuration of a liquid crystal display device 40 according to this modification. As shown in FIG. 10, the liquid crystal display device 40 is the same as the liquid crystal display device 1 according to the first embodiment, but instead of the depth acquisition unit 7, the depth data acquisition unit 42 of the control unit 41 (in the claims, the depth acquisition unit). Equivalent).

  The depth data acquisition unit 42 extracts depth data from the video signal acquired by the video signal acquisition unit 5.

(Backlight control method of liquid crystal display device 40)
The flow of the backlight control method executed by the liquid crystal display device 40 according to this modification will be described with reference to FIG. FIG. 11 is a flowchart showing the flow of the backlight control method. Hereinafter, for simplification, description of the control of the liquid crystal panel 4 is omitted.

  The liquid crystal display device 40 according to the present modification adjusts the luminance value of the backlight 3 and controls the backlight 3 by executing steps S40 to S45 described below.

  First, the video signal acquisition unit 5 acquires a video signal (corresponding to an image signal in claims) (step S40). The video signal acquisition unit 5 supplies the acquired video signal to the depth data acquisition unit 42 and the image analysis unit 6.

  Next, the image analysis unit 6 sets the luminance value of each area of the backlight 3 with reference to the video signal acquired by the video signal acquisition unit 5 (step S41).

  On the other hand, the depth data acquisition unit 42 extracts the depth data of the image region of the image corresponding to each region of the backlight 3 from the video signal acquired by the video signal acquisition unit 5 (step S42). The depth data acquisition unit 42 may acquire the depth data itself from the outside separately from the video signal, instead of extracting the depth data from the video signal. In addition, the order which processes step S41 and step S42 is arbitrary.

  After step S42, the depth data acquisition unit 42 refers to the depth data of each image area of the acquired image, and calculates the average value (weighting coefficient) of the depth degree of each image area of the image (step S43). . The depth data acquisition unit 42 supplies the calculated average value of the degree of depth to the dimming amount calculation unit 8.

  Next, the dimming amount calculation unit 8 uses the brightness value of each region of the backlight 3 set by the image analysis unit 6 as the brightness value of the image region corresponding to the region of the depth degree acquired by the depth data acquisition unit 42. The brightness value of each area of the corresponding backlight 3 is adjusted by multiplying the average value of the depth degree (step S44). The dimming amount calculation unit 8 supplies the adjusted luminance value of each region of the backlight 3 to the backlight control unit 9.

  Next, the backlight control unit 9 controls the luminance of each region of the backlight 3 in accordance with the luminance value of each region of the backlight 3 adjusted by the dimming amount calculation unit 8 (step S45).

  As described above, the liquid crystal display device 40 according to the present modification acquires the depth data of each area of the image instead of calculating the depth degree of each area of the image. Even in such a configuration, the same effects as those of the first embodiment can be obtained.

[Example of software implementation]
Control blocks of the liquid crystal display devices 1, 20, 30 and 40 (in particular, the video signal acquisition unit 5, the image analysis unit 6, the dimming amount calculation unit 8, the backlight control unit 9 and the control units 2, 21, 31 and 41) The liquid crystal panel control unit 10, the depth acquisition unit 7 of the control units 2, 21 and 31, the random noise generation unit 22 of the control unit 21, the reception unit 32 of the control unit 31, and the depth data acquisition unit 42 of the control unit 41) Alternatively, it may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or may be realized by software using a CPU (Central Processing Unit).

  In the latter case, the liquid crystal display devices 1, 20, 30 and 40 have a CPU for executing instructions of a program which is software for realizing each function, and the program and various data are recorded so as to be readable by a computer (or CPU). A ROM (Read Only Memory) or a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) for expanding the program, and the like are provided. And the objective of this invention is achieved when a computer (or CPU) reads the said program from the said recording medium and runs it. As the recording medium, a “non-temporary tangible medium” such as a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. The program may be supplied to the computer via an arbitrary transmission medium (such as a communication network or a broadcast wave) that can transmit the program. The present invention can also be realized in the form of a data signal embedded in a carrier wave in which the program is embodied by electronic transmission.

[Summary]
The liquid crystal display device (1, 20, 30, 40) according to the first aspect of the present invention is a liquid crystal display device that displays an image, and has a plurality of regions, and a backlight (3 ), For each area of the backlight, a depth acquisition unit (7) that acquires the degree of depth of the image area of the image corresponding to the area, and for each area of the backlight, A luminance value adjustment unit (8) that adjusts the depth of the image area corresponding to the area acquired by the depth acquisition unit with reference to the degree of depth.

  According to the above configuration, for each region of the backlight, the brightness value of the region is adjusted based on the depth degree of the image region of the image corresponding to the region, so the depth does not depend on the image to be displayed. The feeling can be emphasized.

  In the liquid crystal display device (1, 20, 30, 40) according to aspect 2 of the present invention, in the aspect 1, the brightness value adjusting unit acquires the brightness value of each region of the backlight, and the depth acquisition unit acquires the brightness value. Among the obtained depth degrees, the depth may be adjusted to a value corresponding to the average value of the depth degrees of the image areas corresponding to the area.

  According to said structure, the liquid crystal display device which concerns on the said aspect 1 can be used suitably.

  In the liquid crystal display device (20) according to the third aspect of the present invention, in the first or second aspect, the luminance value adjusting unit may further adjust the luminance value of each area of the backlight by adding random noise. Good.

  According to said structure, the change of the brightness | luminance between the area | regions of a backlight can be made unnoticeable.

  The liquid crystal display device (30) according to aspect 4 of the present invention may further include a reception unit (32) that receives an adjustment regarding the luminance value of each area of the backlight by the user in the above aspects 1 to 3. .

  According to the above configuration, an image can be displayed with a sense of depth desired by the user.

  The liquid crystal display device (1, 20, 30, 40) according to aspect 5 of the present invention further includes an image analysis unit (6) that detects a diffuse reflection region in the image according to the aspects 1 to 4, and the brightness value adjustment. The unit may further adjust the luminance value of each region of the backlight with reference to the irregular reflection region detected by the image analysis unit.

  According to the above configuration, by emphasizing the irregular reflection in the irregular reflection region of the image, the stereoscopic effect of the object can be increased and the depth feeling of the entire screen can be improved.

  In the liquid crystal display device (1, 20, 30) according to aspect 6 of the present invention, in any of the above aspects 1 to 5, the depth acquisition unit includes, for each area of the backlight, the image area of the image corresponding to the area. Is obtained by referring to an image signal representing the image.

  According to said structure, there exists an effect similar to the liquid crystal display device which concerns on the said aspect 1. FIG.

  The liquid crystal display device (40) according to aspect 7 of the present invention is the liquid crystal display device (40) according to aspects 1 to 5, wherein, for each area of the backlight, the depth acquisition unit calculates the depth degree of the image area of the image corresponding to the area. Get from outside.

  According to said structure, there exists an effect similar to the liquid crystal display device which concerns on the said aspect 1. FIG.

  The television receiver (100) which concerns on aspect 8 of this invention is equipped with the liquid crystal display device as described in any one of the said aspects 1-7.

  According to said structure, the effect which the said liquid crystal display device has in each said aspect can be acquired in the said television receiver.

A backlight control method for a liquid crystal display device according to an aspect 9 of the present invention is a liquid crystal display device that includes a liquid crystal panel that displays an image, and a backlight that has a plurality of regions and can control luminance for each region. A backlight control method,
For each area of the backlight, the depth acquisition step of acquiring the depth degree of the image area of the image corresponding to the area, and for each area of the backlight, the luminance of the area is acquired in the depth acquisition step. And a luminance value adjusting step of adjusting with reference to the depth degree of the image area of the image corresponding to the area.

  According to said structure, there exists an effect similar to the liquid crystal display device 1 which concerns on the said aspect 1. FIG.

  The liquid crystal display device according to each aspect of the present invention may be realized by a computer. In this case, the liquid crystal display device is operated as each unit (software element) included in the liquid crystal display device. A backlight control program for a liquid crystal display device realized by the above and a computer-readable recording medium on which the program is recorded also fall within the scope of the present invention.

  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. Furthermore, a new technical feature can be formed by combining the technical means disclosed in each embodiment.

DESCRIPTION OF SYMBOLS 1, 20, 30, 40 Liquid crystal display device 2, 21, 31, 41 Control part 3 Backlight 4 Liquid crystal panel 5 Image | video signal acquisition part 6 Image analysis part 7 Depth acquisition part 8 Control light quantity calculation part 9 Backlight control part 10 Liquid crystal panel control unit 22 Random noise generation unit 32 Reception unit 42 Data acquisition unit 100 Television receiver

Claims (11)

A liquid crystal display device for displaying an image,
A backlight having a plurality of areas and capable of controlling the brightness for each area;
For each region of the backlight, a depth acquisition unit that acquires the depth of the image region of the image corresponding to the region;
For each region of the backlight, a luminance value adjustment unit that adjusts the luminance of the region with reference to the depth degree of the image region of the image corresponding to the region, out of the depth degrees acquired by the depth acquisition unit And,
A liquid crystal display device characterized by the above. The luminance value adjusting unit adjusts the luminance value of each area of the backlight to a value corresponding to an average value of the depth degrees of the image areas corresponding to the area among the depth degrees acquired by the depth acquisition unit. ,
The liquid crystal display device according to claim 1. The luminance value adjusting unit further adjusts the luminance value of each area of the backlight by adding random noise.
The liquid crystal display device according to claim 1, wherein the liquid crystal display device is a liquid crystal display device. The apparatus further includes a reception unit that receives an adjustment regarding a luminance value of each area of the backlight by the user.
The liquid crystal display device according to claim 1, wherein the liquid crystal display device is a liquid crystal display device. An image analysis unit for detecting the irregular reflection region in the image,
The luminance value adjusting unit refers to the irregular reflection region detected by the image analysis unit and further adjusts the luminance value of each region of the backlight;
The liquid crystal display device according to claim 1, wherein the liquid crystal display device is a liquid crystal display device. The depth acquisition unit acquires, for each area of the backlight, a depth degree of the image area of the image corresponding to the area by referring to an image signal representing the image.
The liquid crystal display device according to claim 1, wherein the liquid crystal display device is a liquid crystal display device. The depth acquisition unit acquires, for each area of the backlight, the depth degree of the image area of the image corresponding to the area from the outside.
The liquid crystal display device according to claim 1, wherein the liquid crystal display device is a liquid crystal display device. The liquid crystal display device according to claim 1 is provided.
A television receiver characterized by that. A backlight control method for a liquid crystal display device comprising a liquid crystal panel for displaying an image and a backlight having a plurality of areas and capable of controlling brightness for each area,
A depth acquisition step of acquiring the degree of depth of the image area of the image corresponding to each area of the backlight;
A luminance value adjusting step for adjusting the luminance of each area of the backlight with reference to the degree of depth of the image area of the image corresponding to the area acquired in the depth acquiring step. ,
A backlight control method for a liquid crystal display device.   A backlight control program for causing a computer to function as the liquid crystal display device according to claim 1, wherein the backlight control program causes the computer to function as the depth acquisition unit and the luminance value adjustment unit.   A computer-readable recording medium on which the backlight control program according to claim 10 is recorded.

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