WO2017035910A1 - Mura区域的亮度补偿方法及Mura像素点亮度的设计方法 - Google Patents

Mura区域的亮度补偿方法及Mura像素点亮度的设计方法 Download PDF

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Publication number
WO2017035910A1
WO2017035910A1 PCT/CN2015/091722 CN2015091722W WO2017035910A1 WO 2017035910 A1 WO2017035910 A1 WO 2017035910A1 CN 2015091722 W CN2015091722 W CN 2015091722W WO 2017035910 A1 WO2017035910 A1 WO 2017035910A1
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mura
brightness
pixel point
normal pixel
pixel
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PCT/CN2015/091722
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English (en)
French (fr)
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邓宇帆
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深圳市华星光电技术有限公司
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Priority to US14/894,367 priority Critical patent/US9805667B2/en
Publication of WO2017035910A1 publication Critical patent/WO2017035910A1/zh

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    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
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    • G09G3/3426Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines the different display panel areas being distributed in two dimensions, e.g. matrix
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    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
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    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/22Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources
    • G09G3/30Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using electroluminescent panels
    • G09G3/32Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using electroluminescent panels semiconductive, e.g. using light-emitting diodes [LED]
    • G09G3/3208Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using electroluminescent panels semiconductive, e.g. using light-emitting diodes [LED] organic, e.g. using organic light-emitting diodes [OLED]
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    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
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    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
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    • G09G2320/0626Adjustment of display parameters for control of overall brightness
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    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2330/00Aspects of power supply; Aspects of display protection and defect management
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    • GPHYSICS
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    • G09G2360/16Calculation or use of calculated indices related to luminance levels in display data

Definitions

  • the present invention relates to the field of display technologies, and in particular, to a method for compensating for brightness of a Mura region and a method for designing brightness of a Mura pixel.
  • the flat panel display device has many advantages such as thin body, power saving, no radiation, and has been widely used.
  • the conventional flat panel display device mainly includes a liquid crystal display (LCD) and an organic light emitting display (OLED).
  • Mura defects are often generated in the production process of flat display panels due to production processes, etc.
  • the so-called Mura refers to various traces caused by uneven brightness of the display panel.
  • this kind of display area with various traces as Mura. region.
  • the commonly used processing method is: obtaining screen brightness information, detecting Mura, and compensating the brightness of the Mura area to ideal brightness.
  • Existing methods for calculating the ideal brightness of the Mura region include: estimating based on Gamma values, and filtering acquisition.
  • the method of estimating the Gamma value is to adjust the Gamma value setting of the Mura region to be consistent with the Gamma value setting of the normal region, thereby improving panel uniformity and reducing the possibility of Mura being observed.
  • the ideal brightness calculated by the Gamma value is generally applied to the center point of the display panel, but the position of the Mura area is random, and thus is located in the Mura area.
  • the normal area of the periphery may not be equal to the brightness of the center point. Correcting the Mura in this way, as shown in Fig. 1, the brightness of the Mura area may not match the trend of the surrounding brightness, which may introduce new unevenness.
  • the method of filtering acquisition is to filter and smooth the brightness matrix to obtain a new brightness matrix, and divide the new brightness matrix with each pixel of the original brightness matrix point by point to obtain the brightness adjustment coefficient of each pixel.
  • the filtering can smooth the boundary of the Mura region, it also affects the normal region. While adjusting the brightness of the Mura region, it is also necessary to adjust the brightness of the normal region. The smoothness control and the setting of the filter parameters are difficult, and the smoothing effect is limited for the Mura region with large difference in brightness or large area.
  • An object of the present invention is to provide a brightness compensation method for a Mura region, which can compensate the brightness of each Mura pixel in the Mura region, and compensate for the smooth transition of the brightness of the Mura region, improve the production yield of the display panel, and improve the display panel. Display quality.
  • the object of the present invention is to provide a method for designing the brightness of a Mura pixel, which can obtain the ideal brightness of the Mura pixel point, compensate the brightness of the Mura pixel point, and compensate the smooth transition of the brightness of the Mura pixel point, and enhance the display panel.
  • the production yield improves the display quality of the display panel.
  • the present invention first provides a brightness compensation method for a Mura region, comprising the following steps:
  • Step 1 providing a display panel, the display panel includes a plurality of pixel points arranged in an array, the display panel having a Mura area and a normal area;
  • Step 2 Obtain a brightness matrix of the display panel, and mark a Mura region to find and select a first Mura pixel in the Mura region;
  • Step 3 Find the right normal pixel point and the lower normal pixel point which are located at the right side of the selected Mura pixel point and below the Euclidean distance of the Mura pixel point, and record the brightness of the right side and the lower normal pixel point respectively. And the distance between the right side and the normal pixel point below and the selected Mura pixel point;
  • Step 4 searching for the left normal pixel point and the upper left normal pixel point and the upper normal pixel point adjacent to the selected Mura pixel point, respectively recording the brightness of the left side and the upper normal pixel point;
  • Step 5 according to the right side, and the brightness of the normal pixel below, the right side, and the distance between the normal pixel point below and the selected Mura pixel point, and the brightness of the left side and the upper normal pixel point, Weighting, weighting the brightness of normal pixel points located to the right, below, left, and above the selected Mura pixel points to obtain the desired brightness of the selected Mura pixel, and replacing the selected brightness with the desired brightness The original brightness of the Mura pixel;
  • Step 6 Find and select the next Mura pixel in the Mura region, and repeat steps 3 through 5 until all the Mura pixels in the Mura region are processed to complete the brightness compensation of the Mura region of the display panel.
  • the brightness compensation method of the Mura region is sequentially searched from left to right and top to bottom. Find and select the Mura pixel in the Mura area.
  • the weighting operation in the step 5 is:
  • Li is the ideal brightness of the selected Mura pixel point
  • L1 is the brightness of the right normal pixel point
  • L2 is the brightness of the lower normal pixel point
  • L3 is the brightness of the left normal pixel point
  • L4 is the brightness of the upper normal pixel point
  • D1 is the distance between the right normal pixel point and the selected Mura pixel point
  • D2 is between the lower normal pixel point and the selected Mura pixel point.
  • F2 is the lower normal pixel
  • the brightness of the normal pixel point closest to the Euclidean distance of the pixel in the first row of the first row is taken as its ideal brightness. And replacing the original brightness of the first row of pixels in the first row with the ideal brightness.
  • the Mura region is located anywhere in the display panel.
  • the invention also provides a design method for brightness of Mura pixel points, comprising the following steps:
  • Step 1 Providing a display panel including a Mura pixel point and a normal pixel point, searching for and selecting a Mura pixel point in the display panel;
  • Step 2 Find the right normal pixel point and the lower normal pixel point which are located closest to the right and below the selected Mura pixel point, and record the brightness and right side of the right and lower normal pixel points respectively, and The distance between the lower normal pixel point and the selected Mura pixel point;
  • Step 3 Find the left normal pixel point and the upper normal pixel point adjacent to the left side of the selected Mura pixel point, and record the brightness of the left side and the upper normal pixel point respectively;
  • Step 4 according to the right side, and the brightness of the normal pixel below, the distance between the right side and the lower normal pixel point and the selected Mura pixel point, and the brightness of the left side and the upper normal pixel point, Weighting, weighting the brightness of normal pixel points located to the right, below, left, and above the selected Mura pixel points to obtain the desired brightness of the selected Mura pixel.
  • the weighting operation formula in the step 4 is:
  • L1 is the brightness of the right normal pixel point
  • L2 is the brightness of the lower normal pixel point
  • L3 is the brightness of the left normal pixel point
  • D1 is the distance between the right normal pixel and the selected Mura pixel
  • D2 is the distance between the lower normal pixel and the selected Mura pixel.
  • the selected Mura pixel is the first row and the first column of pixels
  • the normal pixel point brightness closest to the Euclidean distance of the first row and the first column is used as the ideal Mura pixel point. brightness.
  • the Mura pixel point is searched for and selected by the brightness matrix of the display panel.
  • the invention also provides a brightness compensation method for a Mura region, comprising the following steps:
  • Step 1 providing a display panel, the display panel includes a plurality of pixel points arranged in an array, the display panel having a Mura area and a normal area;
  • Step 2 Obtain a brightness matrix of the display panel, and mark a Mura region to find and select a first Mura pixel in the Mura region;
  • Step 3 Find the right normal pixel point and the lower normal pixel point which are located at the right side of the selected Mura pixel point and below the Euclidean distance of the Mura pixel point, and record the brightness of the right side and the lower normal pixel point respectively. And the distance between the right side and the normal pixel point below and the selected Mura pixel point;
  • Step 4 searching for the left normal pixel point and the upper left normal pixel point and the upper normal pixel point adjacent to the selected Mura pixel point, respectively recording the brightness of the left side and the upper normal pixel point;
  • Step 5 according to the right side, and the brightness of the normal pixel below, the right side, and the distance between the normal pixel point below and the selected Mura pixel point, and the brightness of the left side and the upper normal pixel point, Weighting, weighting the brightness of normal pixel points located to the right, below, left, and above the selected Mura pixel points to obtain the desired brightness of the selected Mura pixel points, and obtain The desired brightness is replaced by the original brightness of the selected Mura pixel;
  • Step 6 Find and select the next Mura pixel in the Mura region, and repeat steps 3 through 5 until all the Mura pixels in the Mura region are processed to complete the brightness compensation of the Mura region of the display panel.
  • the Mura pixel points in the Mura region are sequentially searched for and selected from left to right and top to bottom;
  • the weighting operation formula in the step 5 is:
  • L1 is the brightness of the right normal pixel point
  • L2 is the brightness of the lower normal pixel point
  • L3 is the brightness of the left normal pixel point
  • D1 is the distance between the right normal pixel and the selected Mura pixel
  • D2 is the distance between the lower normal pixel and the selected Mura pixel.
  • the brightness of the normal pixel point closest to the Euclidean distance of the pixel in the first row and the first column is taken as An ideal brightness, and replacing the original brightness of the first row of pixels in the first row with the ideal brightness;
  • the Mura region is located at any position in the display panel.
  • the invention provides a brightness compensation method for the Mura region and a design method for the brightness of the Mura pixel point, by searching for the right pixel of the selected Mura pixel point and the nearest normal pixel point, and respectively recording The brightness of the right and below normal pixels and the distance between the right and below normal pixels and the selected Mura pixel, combined with the brightness of the left and adjacent normal pixels of the selected Mura pixel. Using the distance as a weight, the brightness of the normal pixel points located to the right, below, left and above the selected Mura pixel points is weighted to obtain the ideal brightness of the selected Mura pixel point, and replaced with the obtained ideal brightness. The original brightness of the selected Mura pixel can be used to compensate for the brightness of the Mura region. After compensation The smooth transition of the brightness of the Mura area can improve the production yield of the display panel and improve the display quality of the display panel.
  • 1 is a conventional luminance conversion curve of each column of a display panel after estimating the brightness of the Mura region according to the gamma value;
  • FIG. 2 is a flow chart of a method for compensating for brightness of a Mura region according to the present invention
  • FIG. 3 is a flow chart of a method for designing brightness of a Mura pixel point according to the present invention.
  • FIG. 4 is a schematic diagram of steps 3 and 4 in the method for compensating the brightness of the Mura region of the present invention and a schematic diagram of steps 2 and 3 of the method for designing the brightness of the Mura pixel of the present invention;
  • Figure 5 is a view showing the original display effect of the display panel
  • Fig. 6 is a view showing the display effect of the display panel after being compensated by the brightness compensation method of the Mura region of the present invention.
  • the present invention first provides a brightness compensation method for a Mura region, including the following steps:
  • Step 1 providing a display panel, the display panel includes a plurality of pixel points arranged in an array, the display panel having a Mura area and a normal area;
  • the Mura region may be located at any position in the display panel, and the number of Mura regions may be one or more, depending on the Mura detection condition of the display panel.
  • Step 2 Obtain a brightness matrix of the display panel, and mark the Mura area to find and select the first Mura pixel in the Mura area.
  • the first Mura pixel point is searched for and selected in order from left to right and top to bottom.
  • Step 3 Please refer to Figure 4 to find the right and below the selected Mura pixel.
  • the Eura distance of the Mura pixel is closest to the right normal pixel point and the lower normal pixel point, and the brightness of the right side and the lower normal pixel point and the right side, and the lower normal pixel point and the selected Mura pixel point are respectively recorded. the distance.
  • Step 4 referring to FIG. 4, find the left normal pixel point and the upper normal pixel point and the upper normal pixel point on the left side of the selected Mura pixel point, respectively, and record the brightness of the left side and the upper normal pixel point respectively.
  • Step 5 according to the right side, and the brightness of the normal pixel below, the right side, and the distance between the normal pixel point below and the selected Mura pixel point, and the brightness of the left side and the upper normal pixel point, Weighting, weighting the brightness of normal pixel points located to the right, below, left, and above the selected Mura pixel points to obtain the desired brightness of the selected Mura pixel, and replacing the selected brightness with the desired brightness The original brightness of the Mura pixel.
  • the weighting operation formula in the step 5 is:
  • L1 is the brightness of the right normal pixel point
  • L2 is the brightness of the lower normal pixel point
  • L3 is the brightness of the left normal pixel point
  • D1 is the distance between the right normal pixel and the selected Mura pixel
  • D2 is the distance between the lower normal pixel and the selected Mura pixel.
  • Step 6 Still find and select the next Mura pixel in the Mura region in order from left to right and top to bottom. Repeat steps 3 through 5 until the Mura region is processed. There is a Mura pixel to complete the brightness compensation of the Mura area of the display panel.
  • the first Mura pixel in the Mura region is the pixel of the second row and the second column
  • the right normal pixel is the second row and the fourth column
  • the pixel is the fourth row and the second column of pixels
  • the left normal pixel is the second row and the first column of pixels
  • the upper normal pixel is the first row and the second column of pixels
  • the normal pixel points in four directions are found.
  • calculating the ideal brightness of the Mura pixel located in the second row and the second column and replacing the original brightness with the calculated ideal brightness, and then sequentially processing the Mura pixel points in the second row and the third column in the Mura region.
  • FIG. 5 Please compare FIG. 5 with FIG. 6.
  • the original display effect of the display panel shown in FIG. 5 is uncompensated, and the Mura region is obviously uneven in brightness.
  • the brightness of the Mura region is smoothed after being compensated by the brightness compensation method of the Mura region of the present invention as shown in FIG. In the transition, the brightness of the display panel is relatively uniform, which can improve the production yield of the display panel and improve the display quality of the display panel.
  • the present invention further provides a method for designing brightness of a Mura pixel, comprising the following steps:
  • Step 1 Providing a display panel including a Mura pixel point and a normal pixel point, searching for and selecting a Mura pixel point in the display panel;
  • the Mura pixel point is located at any position in the display panel, and the Mura pixel point can be found and selected through the brightness matrix of the display panel.
  • Step 2 referring to FIG. 4, find the right normal pixel point and the lower normal pixel point which are located closest to the right and below the selected Mura pixel point, and record the brightness of the right side and the lower normal pixel point respectively. And the distance between the right side and the lower normal pixel point and the selected Mura pixel point.
  • Step 3 referring to FIG. 4, find the left normal pixel point and the upper normal pixel point located to the left and above the selected Mura pixel point, and record the brightness of the left side and the upper normal pixel point respectively.
  • Step 4 according to the right side, and the brightness of the normal pixel below, the distance between the right side and the lower normal pixel point and the selected Mura pixel point, and the brightness of the left side and the upper normal pixel point, Weighting, weighting the brightness of normal pixel points located to the right, below, left, and above the selected Mura pixel points to obtain the desired brightness of the selected Mura pixel.
  • the weighting operation formula in the step 4 is:
  • L1 is the brightness of the right normal pixel point
  • L2 is the brightness of the lower normal pixel point
  • L3 is the brightness of the left normal pixel point
  • D1 is the distance between the right normal pixel and the selected Mura pixel
  • D2 is the distance between the lower normal pixel and the selected Mura pixel.
  • the original brightness of the Mura pixel can be replaced by the calculated ideal brightness to achieve the purpose of brightness compensation.
  • the brightness compensation method of the Mura region of the present invention and the design method of the brightness of the Mura pixel point are obtained by searching for the right pixel point closest to the selected Mura pixel point and below, and recording the right side, and respectively.
  • the original brightness of the Mura pixel can be used to compensate for the Mura region.
  • the smooth transition of the brightness of the Mura area after compensation can improve the production yield of the display panel and improve the display quality of the display panel.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Control Of Indicators Other Than Cathode Ray Tubes (AREA)

Abstract

一种Mura区域的亮度补偿方法及Mura像素点亮度的设计方法,通过寻找距离选定的Mura像素点右方和下方最近的正常像素点,并分别记录右方和下方正常像素点的亮度及右方和下方正常像素点与选定的Mura像素点之间的距离,结合邻近选定的Mura像素点左方和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度,即可完成对Mura区域的亮度补偿,补偿后Mura区域的亮度平滑过渡。

Description

Mura区域的亮度补偿方法及Mura像素点亮度的设计方法 技术领域
本发明涉及显示技术领域,尤其涉及一种Mura区域的亮度补偿方法及Mura像素点亮度的设计方法。
背景技术
平板显示装置具有机身薄、省电、无辐射等众多优点,得到了广泛的应用。现有的平板显示装置主要包括液晶显示装置(Liquid Crystal Display,LCD)及有机发光二极管显示装置(Organic Light Emitting Display,OLED)。
随着科技的发展及人们物质生活的需求,现今平面显示器的尺寸做得越来越大,显示分辨率也越来越高,对生产工艺的要求也越来越严苛。目前在平面显示面板生产过程中由于生产工艺等原因经常会产生Mura缺陷,所谓Mura是指因显示面板亮度不均匀造成各种痕迹的现象。通过在暗室中将显示面板切换到黑色画面以及其它低灰阶画面,然后从各种不同的角度去看显示画面中是否存在痕迹即可判断该显示面板是否存在Mura,这种痕迹可能是横向条纹或四十五度角条纹,可能是切得很直的方块,可能是某个角落出现一块,也可能是没有规则可言的痕迹,通常我们将这种出现各种痕迹的显示区域称为Mura区域。
针对显示面板Mura区域,常用的处理方法是:获取屏幕亮度信息,检测Mura,将Mura区域的亮度补偿为理想亮度。现有的的计算Mura区域理想亮度的方式包括:根据Gamma值推算、和滤波获取。
请参阅图1,根据Gamma值推算的方法是通过将Mura区域的Gamma值设定调整至与正常区的Gamma值设定一致,如此可提高面板均匀性,降低Mura被观察到的可能性。然而由于实际操作过程中显示面板本身都存在一定程度的可接受的亮度不均,Gamma值推算出的理想亮度一般适用于显示面板的中心点,但Mura区域的位置是随机的,因而位于Mura区域周边的正常区域可能不等于中心点的亮度,以这种方式校正Mura,如图1所示,Mura区域的亮度可能与周边亮度变化趋势不符,会引入新的不均。
滤波获取的方法是对亮度矩阵进行滤波、平滑后得到新的亮度矩阵,并将新的亮度矩阵与原亮度矩阵的各个像素对应逐点相除,得到各个像素的亮度调整系数。尽管滤波可以平滑Mura区域的边界,但其对正常区域也会造成影响,在调整Mura区域亮度的同时,也要调整正常区域的亮度,而 且平滑程度的控制、滤波参数的设置操作难度较大,对于亮度差异大或者面积大的Mura区域,平滑效果有限。
因此,需要一种更好的Mura区域的亮度补偿方法,以使补偿后Mura区域的亮度平滑过渡。
发明内容
本发明的目的在于提供一种Mura区域的亮度补偿方法,能够补偿Mura区域中的各个Mura像素点的亮度,且补偿后Mura区域的亮度平滑过渡,提升显示面板的生产良率,改善显示面板的显示质量。
本发明的目的还在于提供一种Mura像素点亮度的设计方法,能够获得Mura像素点的理想亮度,以对Mura像素点的亮度进行补偿,且补偿后Mura像素点的亮度平滑过渡,提升显示面板的生产良率,改善显示面板的显示质量。
为实现上述目的,本发明首先提供了一种Mura区域的亮度补偿方法,包括如下步骤:
步骤1、提供一显示面板,所述显示面板包括数个呈阵列排布的像素点,所述显示面板内具有Mura区域及正常区域;
步骤2、获取该显示面板的亮度矩阵,并标记出Mura区域,寻找并选定Mura区域中的第一个Mura像素点;
步骤3、寻找位于选定的Mura像素点右方、和下方的与该Mura像素点的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离;
步骤4、寻找邻近选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
步骤5、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度;
步骤6、寻找并选定Mura区域中的下一个Mura像素点,重复步骤3至步骤5,直至处理完Mura区域内的所有Mura像素点,完成对该显示面板的Mura区域的亮度补偿。
所述Mura区域的亮度补偿方法按照从左至右,从上至下的顺序依次寻 找并选定Mura区域中的Mura像素点。
所述步骤5中的加权运算为:
Figure PCTCN2015091722-appb-000001
其中,Li为所述选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
若所述Mura区域内的其中一个选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度,并用该理想亮度替换第一行第一列像素点的原始亮度。
所述Mura区域位于显示面板的中的任意位置。
本发明还提供一种Mura像素点亮度的设计方法,包括如下步骤:
步骤1、提供一包括Mura像素点和正常像素点的显示面板,寻找并选定该显示面板中的一Mura像素点;
步骤2、寻找位于该选定的Mura像素点右方、和下方的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与该选定的Mura像素点之间的距离;
步骤3、寻找邻近该选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
步骤4、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度。
所述步骤4中的加权运算公式为:
Figure PCTCN2015091722-appb-000002
其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
若所述选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为该选定的Mura像素点的理想亮度。
所述步骤1中通过该显示面板的亮度矩阵寻找并选定Mura像素点。
本发明还提供一种Mura区域的亮度补偿方法,包括如下步骤:
步骤1、提供一显示面板,所述显示面板包括数个呈阵列排布的像素点,所述显示面板内具有Mura区域及正常区域;
步骤2、获取该显示面板的亮度矩阵,并标记出Mura区域,寻找并选定Mura区域中的第一个Mura像素点;
步骤3、寻找位于选定的Mura像素点右方、和下方的与该Mura像素点的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离;
步骤4、寻找邻近选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
步骤5、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得选定的Mura像素点的理想亮度,并用获 得的理想亮度替换该选定的Mura像素点的原始亮度;
步骤6、寻找并选定Mura区域中的下一个Mura像素点,重复步骤3至步骤5,直至处理完Mura区域内的所有Mura像素点,完成对该显示面板的Mura区域的亮度补偿;
其中,按照从左至右,从上至下的顺序依次寻找并选定Mura区域中的Mura像素点;
其中,所述步骤5中的加权运算公式为:
Figure PCTCN2015091722-appb-000003
其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0;
其中,若所述Mura区域内的其中一个选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度,并用该理想亮度替换第一行第一列像素点的原始亮度;
其中,所述Mura区域位于显示面板的中的任意位置。
本发明的有益效果:本发明提供的一种Mura区域的亮度补偿方法及Mura像素点亮度的设计方法,通过寻找距离选定的Mura像素点右方、和下方最近的正常像素点,并分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离,结合邻近选定的Mura像素点左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度,即可完成对Mura区域的亮度补偿。补偿后 Mura区域的亮度平滑过渡,能够提升显示面板的生产良率,改善显示面板的显示质量。
为了能更进一步了解本发明的特征以及技术内容,请参阅以下有关本发明的详细说明与附图,然而附图仅提供参考与说明用,并非用来对本发明加以限制。
附图说明
下面结合附图,通过对本发明的具体实施方式详细描述,将使本发明的技术方案及其它有益效果显而易见。
附图中,
图1为现有的根据Gamma值推算补偿Mura区域亮度后的显示面板各列像素的亮度变换曲线;
图2为本发明Mura区域的亮度补偿方法的流程图;
图3为本发明Mura像素点亮度的设计方法的流程图;
图4为本发明Mura区域亮度的补偿方法中步骤3与步骤4的示意图暨本发明的Mura像素点亮度的设计方法的步骤2与步骤3的示意图;
图5为显示面板的原始显示效果图;
图6为经本发明Mura区域的亮度补偿方法补偿之后显示面板的显示效果图。
具体实施方式
为更进一步阐述本发明所采取的技术手段及其效果,以下结合本发明的优选实施例及其附图进行详细描述。
请参阅图2,本发明首先提供一种Mura区域的亮度补偿方法,包括如下步骤:
步骤1、提供一显示面板,所述显示面板包括数个呈阵列排布的像素点,所述显示面板内具有Mura区域及正常区域;
所述Mura区域可位于显示面板中的任意位置,Mura区域的数量可为一个或多个,具体视显示面板的Mura检测情况而定。
步骤2、获取该显示面板的亮度矩阵,并标记出Mura区域,寻找并选定Mura区域中的第一个Mura像素点。
具体地,在标记出的Mura区域中,按照从左至右、从上至下的顺序寻找并选定第一个Mura像素点。
步骤3、请参阅图4,寻找位于选定的Mura像素点右方、和下方的与 该Mura像素点的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离。
步骤4、请参阅图4,寻找邻近选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度。
步骤5、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度。
具体地,所述步骤5中的加权运算公式为:
Figure PCTCN2015091722-appb-000004
其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
特别的,当Mura像素点为第一列的像素点时,将不会有左方正常像素点,即有F3=0;当Mura像素点为第一行的像素点时,将不会有上方正常像素点,即有F4=0。若所述Mura区域内的其中一个选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度。
步骤6、仍按照从左至右、从上至下的顺序寻找并选定Mura区域中的下一个Mura像素点,重复步骤3至步骤5,直至处理完Mura区域内的所 有Mura像素点,完成对该显示面板的Mura区域的亮度补偿。
以图4所示为例,所述Mura区域内的第一个Mura像素点为第二行第二列的像素点,所述右方正常像素点为第二行第四列像素点,下方正常像素点为第四行第二列像素点,左方正常像素点为第二行第一列像素点,上方正常像素点为第一行第二列像素点,寻找到四个方向的正常像素点之后,计算该位于第二行第二列的Mura像素点的理想亮度,并用计算得到的理想亮度替代其原始亮度,然后继续依次处理所述Mura区域内位于第二行第三列的Mura像素点、位于第三行第二列的Mura像素点、位于第三行第三列的Mura像素点,直至处理完成所有的Mura像素点,完成对图4所示Mura区域的亮度补偿。
请比较图5与图6,图5所示的显示面板的原始显示效果未经补偿,Mura区域明显亮度不均,图6所示经本发明Mura区域的亮度补偿方法补偿之后Mura区域的亮度平滑过渡,显示面板的亮度较均匀,能够提升显示面板的生产良率,改善显示面板的显示质量。
请参阅图3,基于同一发明构思,本发明还提供一种Mura像素点亮度的设计方法,包括如下步骤:
步骤1、提供一包括Mura像素点和正常像素点的显示面板,寻找并选定该显示面板中的一Mura像素点;
具体地,所述Mura像素点位于显示面板中的任意位置,可通过该显示面板的亮度矩阵寻找并选定Mura像素点。
步骤2、请参阅图4,寻找位于该选定的Mura像素点右方、和下方的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与该选定的Mura像素点之间的距离。
步骤3、请参阅图4,寻找位于邻近该选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度。
步骤4、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度。
具体地,所述步骤4中的加权运算公式为:
Figure PCTCN2015091722-appb-000005
其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
特别的,当选定的Mura像素点为第一列的像素点时,将不会有左方正常像素点,即有F3=0;当Mura像素点为第一行的像素点时,将不会有上方正常像素点,即有F4=0。若选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度。
计算出Mura像素点的理想亮度后,便可用计算出的理想亮度来替换Mura像素点的原始亮度,达到亮度补偿的目的。
综上所述,本发明的Mura区域的亮度补偿方法及Mura像素点亮度的设计方法,通过寻找距离选定的Mura像素点右方、和下方最近的正常像素点,并分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离,结合邻近选定的Mura像素点左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度,即可完成对Mura区域的补偿。补偿后Mura区域的亮度平滑过渡,能够提升显示面板的生产良率,改善显示面板的显示质量。
以上所述,对于本领域的普通技术人员来说,可以根据本发明的技术方案和技术构思作出其他各种相应的改变和变形,而所有这些改变和变形都应属于本发明权利要求的保护范围。

Claims (10)

  1. 一种Mura区域的亮度补偿方法,包括如下步骤:
    步骤1、提供一显示面板,所述显示面板包括数个呈阵列排布的像素点,所述显示面板内具有Mura区域及正常区域;
    步骤2、获取该显示面板的亮度矩阵,并标记出Mura区域,寻找并选定Mura区域中的第一个Mura像素点;
    步骤3、寻找位于选定的Mura像素点右方、和下方的与该Mura像素点的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离;
    步骤4、寻找邻近选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
    步骤5、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度;
    步骤6、寻找并选定Mura区域中的下一个Mura像素点,重复步骤3至步骤5,直至处理完Mura区域内的所有Mura像素点,完成对该显示面板的Mura区域的亮度补偿。
  2. 如权利要求1所述的Mura区域的亮度补偿方法,其中,按照从左至右,从上至下的顺序依次寻找并选定Mura区域中的Mura像素点。
  3. 如权利要求1所述的Mura区域的亮度补偿方法,其中,所述步骤5中的加权运算公式为:
    Figure PCTCN2015091722-appb-100001
    其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素 点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
  4. 如权利要求3所述的Mura区域的亮度补偿方法,其中,若所述Mura区域内的其中一个选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度,并用该理想亮度替换第一行第一列像素点的原始亮度。
  5. 如权利要求1所述的Mura区域的亮度补偿方法,其中,所述Mura区域位于显示面板的中的任意位置。
  6. 一种Mura像素点亮度的设计方法,包括如下步骤:
    步骤1、提供一包括Mura像素点和正常像素点的显示面板,寻找并选定该显示面板中的一Mura像素点;
    步骤2、寻找位于该选定的Mura像素点右方、和下方的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与该选定的Mura像素点之间的距离;
    步骤3、寻找邻近该选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
    步骤4、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得该选定的Mura像素点的理想亮度。
  7. 如权利要求6所述的Mura像素点亮度的设计方法,其中,所述步骤4中的加权运算公式为:
    Figure PCTCN2015091722-appb-100002
    其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定 的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0。
  8. 如权利要求7所述的Mura像素点亮度的设计方法,其中,若所述选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为该选定的Mura像素点的理想亮度。
  9. 如权利要求6所述的Mura像素点亮度的设计方法,其中,所述步骤1中通过该显示面板的亮度矩阵寻找并选定Mura像素点。
  10. 一种Mura区域的亮度补偿方法,包括如下步骤:
    步骤1、提供一显示面板,所述显示面板包括数个呈阵列排布的像素点,所述显示面板内具有Mura区域及正常区域;
    步骤2、获取该显示面板的亮度矩阵,并标记出Mura区域,寻找并选定Mura区域中的第一个Mura像素点;
    步骤3、寻找位于选定的Mura像素点右方、和下方的与该Mura像素点的欧式距离最近的右方正常像素点和下方正常像素点,分别记录右方、和下方正常像素点的亮度及右方、和下方正常像素点与选定的Mura像素点之间的距离;
    步骤4、寻找邻近选定的Mura像素点左方、和上方的左方正常像素点和上方正常像素点,分别记录左方、和上方正常像素点的亮度;
    步骤5、依据右方、和下方正常像素点的亮度、右方、和下方正常像素点与选定的Mura像素点之间的距离、及左方、和上方正常像素点的亮度,以距离作为权重,对位于选定的Mura像素点右方、下方、左方和上方的正常像素点的亮度做加权运算,获得选定的Mura像素点的理想亮度,并用获得的理想亮度替换该选定的Mura像素点的原始亮度;
    步骤6、寻找并选定Mura区域中的下一个Mura像素点,重复步骤3至步骤5,直至处理完Mura区域内的所有Mura像素点,完成对该显示面板的Mura区域的亮度补偿;
    其中,按照从左至右,从上至下的顺序依次寻找并选定Mura区域中的Mura像素点;
    其中,所述步骤5中的加权运算公式为:
    Figure PCTCN2015091722-appb-100003
    其中,Li为选定的Mura像素点的理想亮度,L1为所述右方正常像素点的亮度,L2为所述下方正常像素点的亮度,L3为所述左方正常像素点的亮度,L4为所述上方正常像素点的亮度,D1为所述右方正常像素点与选定的Mura像素点之间的距离,D2为所述下方正常像素点与选定的Mura像素点之间的距离;F1为所述右方正常像素点的存在系数,若存在右方正常像素点,则F1=1,若不存在右方正常像素点,则F1=0;F2为所述下方正常像素点的存在系数,若存在下方正常像素点,则F2=1,若不存在下方正常像素点,则F2=0;F3为所述左方正常像素点的存在系数,若存在左方正常像素点,则F3=1,若不存在左方正常像素点,则F3=0;F4为所述上方正常像素点的存在系数,若存在上方正常像素点,则F4=1,若不存在上方正常像素点,则F4=0;
    其中,若所述Mura区域内的其中一个选定的Mura像素点为第一行第一列像素点,则将与该第一行第一列像素点欧氏距离最近的正常像素点亮度作为其理想亮度,并用该理想亮度替换第一行第一列像素点的原始亮度;
    其中,所述Mura区域位于显示面板的中的任意位置。
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CN118781953A (zh) * 2023-03-28 2024-10-15 Tcl华星光电技术有限公司 电压补偿方法、装置、终端设备及计算机可读存储介质

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004266755A (ja) * 2003-03-04 2004-09-24 Sony Corp 画像処理装置および画像表示装置、並びに画像処理方法
US20050068330A1 (en) * 2003-09-30 2005-03-31 Sharp Laboratories Of America, Inc. Systems and methods for computing the presence of self-luminous elements in an image
CN101477284A (zh) * 2009-02-09 2009-07-08 友达光电股份有限公司 改善因亮度不均造成显示痕迹的液晶显示器及其驱动方法
US20100110112A1 (en) * 2008-10-28 2010-05-06 Panasonic Corporation Backlight apparatus and display apparatus
CN101996618A (zh) * 2009-08-27 2011-03-30 联咏科技股份有限公司 增进亮度一致性的控制方法及亮度校正控制器与显示装置
CN104715731A (zh) * 2015-03-11 2015-06-17 青岛海信电器股份有限公司 一种屏幕亮度调整方法、装置及液晶显示装置

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001125535A (ja) * 1999-10-29 2001-05-11 Fujitsu General Ltd 画質補正回路
KR100590529B1 (ko) * 2003-11-04 2006-06-15 삼성전자주식회사 영상의 국부적 휘도 향상 방법 및 장치와 컴퓨터프로그램을 저장하는 컴퓨터로 읽을 수 있는 기록 매체
JP2006113090A (ja) * 2004-10-12 2006-04-27 Seiko Epson Corp 電気光学装置用画像補正装置及び方法、画像補正装置付き電気光学装置、並びに電子機器
CN101667418B (zh) * 2009-09-25 2012-03-28 深圳丹邦投资集团有限公司 一种显示屏显示亮度补偿的方法及其系统
CN102025952B (zh) * 2010-11-19 2012-07-18 广东威创视讯科技股份有限公司 一种显示装置亮度校正方法及其系统
US9437171B2 (en) * 2012-12-05 2016-09-06 Texas Instruments Incorporated Local tone mapping for high dynamic range images
JP2015039153A (ja) * 2013-08-19 2015-02-26 富士ゼロックス株式会社 画像処理装置、画像読み取り装置およびプログラム

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004266755A (ja) * 2003-03-04 2004-09-24 Sony Corp 画像処理装置および画像表示装置、並びに画像処理方法
US20050068330A1 (en) * 2003-09-30 2005-03-31 Sharp Laboratories Of America, Inc. Systems and methods for computing the presence of self-luminous elements in an image
US20100110112A1 (en) * 2008-10-28 2010-05-06 Panasonic Corporation Backlight apparatus and display apparatus
CN101477284A (zh) * 2009-02-09 2009-07-08 友达光电股份有限公司 改善因亮度不均造成显示痕迹的液晶显示器及其驱动方法
CN101996618A (zh) * 2009-08-27 2011-03-30 联咏科技股份有限公司 增进亮度一致性的控制方法及亮度校正控制器与显示装置
CN104715731A (zh) * 2015-03-11 2015-06-17 青岛海信电器股份有限公司 一种屏幕亮度调整方法、装置及液晶显示装置

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110444169A (zh) * 2019-01-17 2019-11-12 友达光电股份有限公司 信号处理方法及显示装置
CN111551348A (zh) * 2020-05-08 2020-08-18 昆山国显光电有限公司 gamma调试方法和装置
CN111551348B (zh) * 2020-05-08 2022-03-25 昆山国显光电有限公司 gamma调试方法和装置

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