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    • 1. 发明申请
    • IMAGE DISPLAY APPARATUS AND IMAGE DISPLAY METHOD
    • 图像显示装置和图像显示方法
    • US20110169795A1
    • 2011-07-14
    • US13119686
    • 2009-09-16
    • Naoko KondohToshiyuki GotohHozumi Nishimura
    • Naoko KondohToshiyuki GotohHozumi Nishimura
    • G09G5/02
    • G09G3/3413G02F1/133603G02F1/133609G09G3/3426G09G3/3648G09G2320/0238G09G2320/0242
    • It is expected to provide an image display apparatus and image display method that can reduce the risk that an image quality is undermined due to a halo phenomenon caused by the leak of light passing through a non-corresponding color filter from a LED. The image display apparatus can respectively control luminous efficiencies of plural color LEDs, i.e., R-LED (11a), G-LED (11b) and B-LED (11c) that emit light through a color filter to a displaying unit. The image display apparatus obtains luminous efficiencies for a frame of RGB image signal (S2), calculates a light leak amount and then detects whether the halo phenomenon may occur or not (S3-S5). When the halo phenomenon is considered to occur, the luminous efficiencies of LEDs (11a, 11b, 11c) included in the liquid crystal display apparatus are controlled to make the light from the LEDs (11a, 11b, 11c) become close to white light (S8).
    • 期望提供一种图像显示装置和图像显示方法,其可以降低由于通过来自LED的非对应滤色器的光的泄漏引起的光晕现象而损害图像质量的风险。 图像显示装置可以分别控制通过彩色滤光器向显示单元发射光的多个彩色LED即R-LED(11a),G-LED(11b)和B-LED(11c)的发光效率。 图像显示装置获得RGB图像信号的帧的发光效率(S2),计算漏光量,然后检测是否可能发生光晕现象(S3-S5)。 当考虑发生光晕现象时,控制包括在液晶显示装置中的LED(11a,11b,11c)的发光效率,以使来自LED(11a,11b,11c)的光变得接近白光( S8)。
    • 2. 发明授权
    • Image display apparatus and image display method
    • 图像显示装置和图像显示方法
    • US08723848B2
    • 2014-05-13
    • US13119686
    • 2009-09-16
    • Naoko KondohToshiyuki GotohHozumi Nishimura
    • Naoko KondohToshiyuki GotohHozumi Nishimura
    • G06F3/038G09G5/00
    • G09G3/3413G02F1/133603G02F1/133609G09G3/3426G09G3/3648G09G2320/0238G09G2320/0242
    • It is expected to provide an image display apparatus and image display method that can reduce the risk that an image quality is undermined due to a halo phenomenon caused by the leak of light passing through a non-corresponding color filter from a LED. The image display apparatus can respectively control luminous efficiencies of plural color LEDs, i.e., R-LED (11a), G-LED (11b) and B-LED (11c) that emit light through a color filter to a displaying unit. The image display apparatus obtains luminous efficiencies for a frame of RGB image signal (S2), calculates a light leak amount and then detects whether the halo phenomenon may occur or not (S3-S5). When the halo phenomenon is considered to occur, the luminous efficiencies of LEDs (11a, 11b, 11c) included in the liquid crystal display apparatus are controlled to make the light from the LEDs (11a, 11b, 11c) become close to white light (S8).
    • 期望提供一种图像显示装置和图像显示方法,其可以降低由于通过来自LED的非对应滤色器的光的泄漏引起的光晕现象而损害图像质量的风险。 图像显示装置可以分别控制通过彩色滤光器向显示单元发射光的多个彩色LED即R-LED(11a),G-LED(11b)和B-LED(11c)的发光效率。 图像显示装置获得RGB图像信号的帧的发光效率(S2),计算漏光量,然后检测是否可能发生光晕现象(S3-S5)。 当考虑发生光晕现象时,控制包括在液晶显示装置中的LED(11a,11b,11c)的发光效率,以使来自LED(11a,11b,11c)的光变得接近白光( S8)。
    • 5. 发明授权
    • Video display device
    • 视频显示设备
    • US08860746B2
    • 2014-10-14
    • US13057309
    • 2009-08-27
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • G09G5/02H04N9/64G09G3/36G09G3/34
    • H04N9/643G09G3/342G09G3/3611G09G5/02G09G2320/0242G09G2320/064G09G2320/0646G09G2340/06
    • When conducting video display with a wide color gamut display based on a video signal conforming to a standard (sRGB standard and the like) having a color reproduction range narrower than that of the wide color gamut display, the video processing circuit 2 corrects a color in a prescribed correction target color range partly including a red hue reference range as a center part in the color range of an equal hue from achromatic colors having the lowest saturation to red having the highest saturation in an expanded color reproduction range but not including red having the highest saturation in the expanded color reproduction range, so that the hue may change to a hue akin to yellow in the expanded color reproduction range. In so doing, the hue in the red hue reference range changes to red hue in the color reproduction range conforming to the sRBG standard. Furthermore, the hue change ratio into the hue akin to yellow becomes smaller in a color having a long distance from the red hue reference range in the expanded color reproduction range than a color having a distance close thereto. As a result, the wide color gamut display displayable of bright red having a high saturation can be fully utilized, while at the same time solving the problem of hue displacement in displaying red having an intermediate saturation.
    • 当基于符合具有比宽色域显示窄的颜色再现范围的标准(sRGB标准等)的视频信号进行具有宽色域显示的视频显示时,视频处理电路2校正 规定的修正目标色彩范围,其部分地包括红色调参考范围作为中心部分,在相同色调的色彩范围内,从具有最低饱和度的无色色彩到具有扩展颜色再现范围中具有最高饱和度的红色,但不包括具有 在扩大的颜色再现范围中的最高饱和度,使得色调可以在扩展的色彩再现范围内变为类似于黄色的色调。 在这样做时,红色调参考范围中的色调在符合sRBG标准的色彩还原范围内变为红色。 此外,与扩展色彩再现范围中的红色调参考范围相距远的颜色与距离接近的颜色相比,色调变为与黄色相似的色调的色相变小。 结果,可以充分利用可显示具有高饱和度的亮红色的宽色域显示,同时解决显示具有中间饱和度的红色的色相位移问题。
    • 6. 发明申请
    • VIDEO DISPLAY DEVICE
    • 视频显示设备
    • US20110199541A1
    • 2011-08-18
    • US13057309
    • 2009-08-27
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • H04N9/64
    • H04N9/643G09G3/342G09G3/3611G09G5/02G09G2320/0242G09G2320/064G09G2320/0646G09G2340/06
    • When conducting video display with a wide color gamut display based on a video signal conforming to a standard (sRGB standard and the like) having a color reproduction range narrower than that of the wide color gamut display, the video processing circuit 2 corrects a color in a prescribed correction target color range partly including a red hue reference range as a center part in the color range of an equal hue from achromatic colors having the lowest saturation to red having the highest saturation in an expanded color reproduction range but not including red having the highest saturation in the expanded color reproduction range, so that the hue may change to a hue akin to yellow in the expanded color reproduction range. In so doing, the hue in the red hue reference range changes to red hue in the color reproduction range conforming to the sRBG standard. Furthermore, the hue change ratio into the hue akin to yellow becomes smaller in a color having a long distance from the red hue reference range in the expanded color reproduction range than a color having a distance close thereto. As a result, the wide color gamut display displayable of bright red having a high saturation can be fully utilized, while at the same time solving the problem of hue displacement in displaying red having an intermediate saturation.
    • 当基于符合具有比宽色域显示窄的颜色再现范围的标准(sRGB标准等)的视频信号进行具有宽色域显示的视频显示时,视频处理电路2校正 规定的修正目标色彩范围,其部分地包括红色调参考范围作为中心部分,在相同色调的色彩范围内,从具有最低饱和度的无色色彩到具有扩展颜色再现范围中具有最高饱和度的红色,但不包括具有 在扩大的颜色再现范围中的最高饱和度,使得色调可以在扩展的色彩再现范围内变为类似于黄色的色调。 在这样做时,红色调参考范围中的色调在符合sRBG标准的色彩还原范围内变为红色。 此外,与扩展色彩再现范围中的红色调参考范围相距远的颜色与距离接近的颜色相比,色调变为与黄色相似的色调的色相变小。 结果,可以充分利用可显示具有高饱和度的亮红色的宽色域显示,同时解决显示具有中间饱和度的红色的色相位移问题。
    • 7. 发明申请
    • VIDEO DISPLAY DEVICE
    • 视频显示设备
    • US20110187735A1
    • 2011-08-04
    • US13060411
    • 2009-08-27
    • Naoko KondohToshiyuki Gotoh
    • Naoko KondohToshiyuki Gotoh
    • G09G5/02
    • G09G3/3607G09G3/2003G09G3/3406G09G5/02G09G2320/0666G09G2340/06G09G2360/16H04N1/6058H04N1/62H04N9/643H04N9/68
    • In order to simply and easily implement an elimination of a color deviation and a color adjustment for a color correction to a favorable color in an arbitrary portion of a color region in a color reproduction range, a video processing circuit 2 corrects a luminance, a saturation and a hue of a color by the correction quantity corresponding to a reference correction coefficient with regard to a signal value of an input video signal indicating a color within a designated color region defined by a designated range of the luminance, the saturation and the hue when the color indicated by the signal value is a color in the center of the designated color region or at a core for occupying a predetermined range around the center. Otherwise, the video processing circuit 2 corrects the luminance, the saturation and the hue of the color of the signal value by the correction quantity gradually smaller as a position in a color space of the color indicated by the signal value approaches a boundary position of the designated color region.
    • 视频处理电路2为了简单且容易地实现色彩再现范围中的颜色偏差和色彩校正的颜色校正到色区域的任意部分中的有利颜色,校正亮度,饱和度 以及相对于参考校正系数的校正量的色调的色调,所述校正量相对于指示由指定的亮度范围,饱和度和色调所定义的指定颜色区域内的颜色的输入视频信号的信号值, 由信号值表示的颜色是指定颜色区域的中心的颜色或用于占据围绕中心的预定范围的核心的颜色。 否则,视频处理电路2随着信号值指示的颜色的颜色空间中的位置接近边界位置,校正信号值的颜色的亮度,饱和度和色调逐渐变小。 指定颜色区域。
    • 8. 发明申请
    • VIDEO DISPLAY DEVICE
    • 视频显示设备
    • US20110279740A1
    • 2011-11-17
    • US13144256
    • 2010-01-12
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • Toshiyuki FujineTakashi KandaToshiyuki GotohNaoko Kondoh
    • H04N3/14
    • H04N1/6058G09G5/02G09G2320/0242G09G2320/0666G09G2340/06H04N9/67H04N9/68
    • When a wide color gamut display displays video based on a video signal that complies with a narrower color reproduction range standard, in order to make full use of the feature of the wide color gamut display capable of displaying highly saturated and vivid reds, while eliminating the problem of seeing glaring images in the part of the red color region near the highest brightness and saturation, a video processing circuit (2) reduces and corrects the signal value of the input video signal, which represents the colors within the color range to be corrected, which is within a specified saturation range from the highest saturation to the middle saturation inside a specified hue range centered on the red hue in the color reproduction range (an expanded color reproduction range wider than the sRGB standard color reproduction range) of a liquid crystal panel (4), and which is within a specified brightness range from the highest brightness to the middle brightness inside that range, so that the saturation and brightness thereof change to saturation and brightness within a predetermined middle color range between the expanded color reproduction range and the color reproduction range of the standard to which the input video signal complies.
    • 当宽色域显示器基于符合较窄颜色再现范围标准的视频信号显示视频时,为了充分利用能够显示高度饱和和鲜艳红色的宽色域显示器的特征,同时消除 视频处理电路(2)在接近最高亮度和饱和度的红色区域的部分看到亮度图像的问题,减少并校正输入视频信号的信号值,该信号值表示要校正的颜色范围内的颜色 在从液晶的颜色再现范围(比sRGB标准色彩再现范围宽的扩展颜色再现范围)的红色色调的特定色相范围内的最高饱和度到中间饱和度的规定饱和范围内 面板(4),并且在该范围内从最高亮度到中间亮度的指定亮度范围内,使得t 其饱和度和亮度在扩展色彩再现范围和输入视频信号所符合的标准的色彩再现范围之间的预定中间色彩范围内变为饱和度和亮度。
    • 9. 发明申请
    • IMAGE DISPLAY DEVICE
    • 图像显示设备
    • US20120293571A1
    • 2012-11-22
    • US13576577
    • 2010-12-15
    • Toshiyuki Gotoh
    • Toshiyuki Gotoh
    • G09G5/10
    • G09G3/3413G09G3/3426G09G3/3611G09G2310/0235G09G2320/0242G09G2320/0276G09G2320/064G09G2320/0646G09G2320/0666G09G2330/08G09G2360/144G09G2360/16
    • An image display device of the present invention includes a subframe generation section (10) for dividing one frame of a video signal into a first subframe during which at least a green (G) light source emits light, a second subframe during which at least a red (R) light source emits light, and a third subframe during which a blue (B) light source emits light. The subframe generation section (10) finds a difference between (i) a signal to be displayed, which signal is obtained from an aperture ratio corrected in the first subframe and luminance distribution of a light source corresponding to a red (R) video signal included in the first subframe and (ii) the red (R) video signal included in the first subframe, and corrects, according to the difference found in the first subframe, an aperture ratio corrected in the second subframe. This prevents insufficiency of luminance, and thus makes it possible to carry out an accurate color display.
    • 本发明的图像显示装置包括:子帧生成部(10),用于将视频信号的一帧分割为至少绿色(G)光源发光的第一子帧;第二子帧,其中至少一个 红色(R)光源发光,以及蓝色(B)光源发光的第三子帧。 子帧产生部分(10)找到(i)要显示的信号,从第一子帧中校正的孔径率获得的信号和对应于包括的红色(R)视频信号的光源的亮度分布之间的差异 在第一子帧中和(ii)包括在第一子帧中的红色(R)视频信号,并且根据在第一子帧中发现的差异,校正在第二子帧中校正的孔径比。 这防止亮度不足,因此能够进行精确的彩色显示。