WO2019100443A1 - 一种mura补偿方法及装置 - Google Patents
一种mura补偿方法及装置 Download PDFInfo
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- WO2019100443A1 WO2019100443A1 PCT/CN2017/114534 CN2017114534W WO2019100443A1 WO 2019100443 A1 WO2019100443 A1 WO 2019100443A1 CN 2017114534 W CN2017114534 W CN 2017114534W WO 2019100443 A1 WO2019100443 A1 WO 2019100443A1
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control 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
- G09G3/34—Control 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
- G09G3/36—Control 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
- G09G3/3607—Control 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 for displaying colours or for displaying grey scales with a specific pixel layout, e.g. using sub-pixels
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control 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
- G09G3/34—Control 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
- G09G3/36—Control 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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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/02—Improving the quality of display appearance
- G09G2320/0233—Improving the luminance or brightness uniformity across the screen
Definitions
- the present invention relates to the field of screen display technologies, and in particular, to a mura compensation method and apparatus.
- the overall brightness and dark uniformity of the LCD panel can be improved by compensating the grayscale value, that is, the overall grayscale image is taken by the camera to the central area of the LCD panel.
- the brightness is used as a reference to analyze the brightness difference between other areas and the central area, and the corresponding gray level mura compensation data is converted (the gray level value is increased compared with the dark area of the center area, and the compensation data is positive; the light is brighter than the center area)
- the region reduces the grayscale value, the compensation data is negative), and then the mura compensation data of the fixed interval pixel is stored in the flash (in order to reduce the required flash capacity), the timing controller (TCON) IC is read from the flash after power-on.
- the TCON IC internally calculates the mura compensation data of other pixels in the fixed interval area by linear interpolation algorithm, and A/B/C/D is the mura compensation data of the vertex pixels in the fixed interval area, in the fixed interval area.
- the mura compensation data G of any pixel can be represented by A/B/C/D.
- the mura compensation data of the fixed position of the fixed pixel area calculated by the system will be significantly larger/small, and the TCONIC uses this inside too large/
- the small mura compensation data is linearly interpolated, and the mura compensation data of other pixels in the fixed interval area will also become larger/small, resulting in bright/dark spots and dirty positions to form dark/bright block areas after mura compensation.
- Product quality as shown in Figure 5.
- the corresponding grayscale mura compensation data cannot be calculated according to the gamma curve, and needs to be processed to avoid abnormally large/small
- the compensation data is generated to avoid regional bright and dark unevenness after linear interpolation.
- the technical problem to be solved by the present invention is to provide a mura compensation method and apparatus to avoid an abnormality after mura compensation in the presence of a dark dark spot on the LCD panel and a dirty state of the backlight module BLU.
- the present invention provides a mura compensation method, including:
- the brightness average value of all the pixels except the abnormal pixel in the set pixel area is taken as the actual brightness of the abnormal pixel;
- the liquid crystal panel is compensated according to the mura compensation value.
- the determining whether the abnormal pixel exists on the image specifically includes:
- the pixel is determined to be an abnormal pixel.
- determining whether the brightness difference between a pixel brightness and a surrounding pixel thereof exceeds a determination threshold specifically:
- the set pixel area is a 5 ⁇ 5 pixel area.
- the invention also provides a mura compensation device comprising:
- a determining module configured to determine whether an abnormal pixel exists on the image
- a processing module configured to: when the determining module determines that there is an abnormal pixel on the image, using the abnormal pixel as a center, and setting an average value of brightness of all pixels except the abnormal pixel in the set pixel region The actual brightness of the abnormal pixel;
- a calculation module configured to calculate a mura compensation value of the liquid crystal panel according to an actual brightness of the abnormal pixel and a brightness of a normal pixel;
- a compensation module configured to compensate the liquid crystal panel according to the mura compensation value.
- the determining module is specifically configured to determine whether the brightness of a certain pixel and the brightness of the surrounding pixels exceed the determination threshold, and if yes, determine that the pixel is an abnormal pixel.
- the determining module determines whether the brightness of a certain pixel and the brightness of the surrounding pixels exceed the determination threshold, specifically:
- the set pixel area is a 5 ⁇ 5 pixel area.
- the beneficial effects of the embodiments of the present invention are: avoiding the use of a conventional gamma gamma curve to calculate compensation data for a panel having bright or dark spots or a bit of dirty on the backlight module BLU, but determining an abnormal pixel by using an abnormal gamma curve And calculate the actual brightness, perform a certain mura repair, there will be no abnormal large/small compensation data, and will not affect the display effect of bright, dark spots and dirty surrounding areas, avoiding regional bright and dark uneven conditions. .
- Figure 1 is a schematic view of a conventional mura compensation
- FIG. 2 is a schematic view showing brightness comparison before and after compensation of the LCD panel mura
- FIG. 3 is a schematic diagram of mura compensation data of any pixel in a conventional fixed interval region
- FIG. 5 is a schematic diagram of a conventional compensation method for forming a bright block after compensation for a dark spot
- FIG. 6 is a schematic flow chart of a mura compensation method of the present invention.
- FIG. 7 is a schematic diagram of comparison before and after abnormal pixel brightness processing of the present invention.
- FIG. 8 is a schematic diagram of comparison of compensation brightness in an abnormal processing area after compensation by the compensation method according to the present invention.
- a first embodiment of the present invention provides a mura compensation method, including:
- step S1 is to take a picture of the liquid crystal panel by a camera (for example, a CCD camera) to obtain a corresponding image.
- a camera for example, a CCD camera
- the present embodiment sets a determination threshold a, that is, when the image data is analyzed, if the brightness of a certain pixel and the brightness of the surrounding pixels exceed the determination threshold a, it is determined that the pixel is an abnormal pixel. Judging the threshold a needs to be set according to the actual situation, including the brightness of the backlight and the transmittance of the LCD panel itself, which basically exceeds the brightness of about 20 gray levels.
- determining whether the brightness of a certain pixel and the brightness of the surrounding pixels exceed the determination threshold a specifically determining the brightness of the pixel, and all pixels in the area of at least 5 ⁇ 5 pixels centered on the pixel (except for the pixel) Whether the difference between the average values of the brightness exceeds the judgment threshold a.
- step S2 After the abnormal pixel is determined by step S2, the compensation data for the abnormal pixel cannot be based on The gamma gamma curve is calculated, and the following processing is required to obtain the mura compensation data of the abnormal pixel:
- the average brightness of all the pixels (excluding the abnormal pixels) in at least 5 ⁇ 5 pixel regions is taken as the actual brightness of the abnormal pixel.
- the pixel area set in this embodiment is a 5 ⁇ 5 pixel area.
- the size is too small, the calculated data is less, and the result is less accurate.
- the larger the pixel area is, the more accurate the result is, but the data to be processed is more, so A 5 x 5 pixel area of an embodiment is suitable.
- a comparison diagram of a 5 ⁇ 5 pixel area before and after the abnormal pixel brightness processing is performed.
- the pixel brightness value of the center point is obtained as 2, and the brightness is significantly lower than that of the surrounding pixels.
- S2 is determined to be an abnormal pixel, and then the average brightness of the surrounding pixels is calculated to be 8.8, and the brightness value 8.8 is taken as the actual brightness of the abnormal pixel.
- the average brightness of the pixels around the abnormal pixel is taken as the actual brightness of the abnormal pixel, and then the actual brightness of the abnormal pixel is used to participate in the mura compensation value of the fixed set interval pixel, and the actual brightness of the abnormal pixel is
- the average brightness of the surrounding pixels is very small, so the difference between the brightness values of the surrounding pixels is very small, and the calculated mura compensation value of the fixed position of the abnormal pixel is consistent with the mura compensation value calculated when there is no abnormal pixel.
- the abnormal pixel does not affect the average brightness of all the pixels in the area including it, and the calculated mura compensation value of the fixed setting interval vertex pixel does not appear too large/small due to the presence of the abnormal pixel, TCON
- the mura compensation value of the remaining pixels in the fixed interval calculated by the internal linear interpolation of the IC still tends to be normal.
- the mura compensation value calculated in step S4 is not affected by the abnormal pixel, the mura compensation value is mura compensated on the LCD panel, and the overall brightness of the fixed interval region where the abnormal pixel is located does not appear bright/dark, resulting in a regional visual effect. bad.
- the second embodiment of the present invention provides a mura compensation device, including:
- a determining module configured to determine whether an abnormal pixel exists on the image
- a processing module configured to: when the determining module determines that there is an abnormal pixel on the image, using the abnormal pixel as a center, and setting an average value of brightness of all pixels except the abnormal pixel in the set pixel region The actual brightness of the abnormal pixel;
- a calculation module configured to calculate a mura compensation value of the liquid crystal panel according to an actual brightness of the abnormal pixel and a brightness of a normal pixel;
- a compensation module configured to compensate the liquid crystal panel according to the mura compensation value.
- the determining module is specifically configured to determine whether the brightness difference between the brightness of a certain pixel position and the surrounding pixel position exceeds a determination threshold, and if yes, determine that the pixel at the position is an abnormal pixel.
- the determining module determines whether the brightness difference between the brightness of a certain pixel position and the pixel position of the surrounding pixel exceeds a determination threshold, specifically:
- the brightness of the pixel is determined, and whether the difference between the luminance average values of all the pixels except the pixel in the area of at least 5 ⁇ 5 pixels centering on the position of the pixel exceeds the determination threshold.
- the set pixel area is a 5 ⁇ 5 pixel area.
- the beneficial effects of the embodiments of the present invention are: avoiding the use of a conventional gamma gamma curve to calculate compensation data for a panel having bright and dark spots or a bit dirty on the backlight module BLU.
- a certain mura repair is performed, and the abnormal large/small compensation data does not occur, and the display effects of bright, dark spots and dirty surrounding areas are not affected, and regional brightening is avoided. Dark and uneven conditions.
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Abstract
一种mura补偿方法及装置,其中,补偿方法包括:获取对所述液晶面板拍摄得到的图像(S1);判断所述图像上是否存在异常像素(S2);如果所述图像上存在异常像素,则以所述异常像素的位置为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度(S3);根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值(S4);根据所述mura补偿值对所述液晶面板进行补偿(S5)。所述方法及装置针对存在亮、暗点的面板,或者背光模组BLU上有点状脏污的状况下,通过判定异常像素并计算其实际亮度,进行一定的mura修补,不会影响亮、暗点及脏污周围区域的显示效果,避免出现区域性亮、暗不均一状况。
Description
本申请要求于2017年11月21日提交中国专利局、申请号为201711167291.3、发明名称为“一种mura补偿方法及装置”的中国专利申请的优先权,上述专利的全部内容通过引用结合在本申请中。
本发明涉及屏幕显示技术领域,尤其涉及一种mura补偿方法及装置。
由于LCD面板制程中的偏移、液晶分子之间的特性差异等因素,LCD面板在纯白色固定灰阶画面下各区域位置的亮度存在差异,形成mura现象(亮暗不均一)。根据亮度与灰阶值的一一对应关系(伽马gamma曲线),可以通过补偿灰阶值来提高LCD面板的整体亮、暗均一性,即通过相机拍摄整体灰阶画面,以LCD面板中心区域的亮度为基准,分析其它区域与中心区域的亮度差值,换算出对应的灰阶mura补偿数据(比中心区域偏暗的区域提高灰阶值,补偿数据为正数;比中心区域偏亮的区域降低灰阶值,补偿数据为负数),再选取固定间隔位置像素的mura补偿数据存储在flash中(为了降低所需flash容量),时序控制器(TCON)IC上电后从flash中读取补偿数据,再经过线性插值计算出各像素在灰阶画面下的mura补偿数据,与输入画面信号(灰阶值)作加、减运算,以此来提高LCD面板整体画面的亮、暗均一性(实际输入画面信号为相同的灰阶值,但是经过灰阶mura补偿数据补偿后,LCD面板各区域的灰阶值不同了,但是亮度却趋于相同),如图1、图2所示。
如图3、图4所示,TCON IC内部通过线性插值算法计算固定间隔区域内其它像素的mura补偿数据,A/B/C/D为固定间隔区域顶点像素的mura补偿数据,固定间隔区域内任一像素的mura补偿数据G都可以由A/B/C/D表示。
当LCD面板上存在亮/暗点(单个像素),或者提供亮度的背光模组BLU
表面存在灰尘/脏污时(现象同LCD面板上的暗点),经过系统计算出的异常像素所处固定间隔区域的顶点位置mura补偿数据会明显偏大/小,TCONIC内部使用此偏大/小的mura补偿数据进行线性插值计算,固定间隔区域内其它像素的mura补偿数据也会随着偏大/小,导致亮/暗点、脏污位置进行mura补偿后形成暗/亮块状区域,严重影响产品品质,如图5所示。
由上可知,针对LCD面板上的亮暗点以及背光模组BLU上的黑点脏污状况,其对应的灰阶mura补偿数据不能根据gamma曲线去计算,需要经过处理去避免异常偏大/小的补偿数据产生,以免造成线性插值后出现区域性亮、暗不均一。
发明内容
本发明所要解决的技术问题在于,提供一种mura补偿方法及装置,以避免对LCD面板存在亮暗点及背光模组BLU存在脏污情况下的mura补偿后发生异常。
为了解决上述技术问题,本发明提供一种mura补偿方法,包括:
获取对液晶面板拍摄得到的图像;
判断所述图像上是否存在异常像素;
如果所述图像上存在异常像素,则以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;
根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值;
根据所述mura补偿值对所述液晶面板进行补偿。
其中,所述判断所述图像上是否存在异常像素具体包括:
判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,若是则判定此像素为异常像素。
其中,所述判断某一像素亮度与其四周像素的亮度差异是否超过判断阈值,具体是:
判断该像素的亮度,与以该像素为中心、以至少5×5像素区域内除该像素以外的所有像素的亮度平均值之间的差异是否超过所述判断阈值。
其中,所述设定像素区域为5×5像素区域。
本发明还提供一种mura补偿装置,包括:
获取模块,用于获取对液晶面板拍摄得到的图像;
判断模块,用于判断所述图像上是否存在异常像素;
处理模块,用于在所述判断模块判断所述图像上存在异常像素时,以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;
计算模块,用于根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值;
补偿模块,用于根据所述mura补偿值对所述液晶面板进行补偿。
其中,所述判断模块具体用于判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,若是则判定此像素为异常像素。
其中,所述判断模块判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,具体是:
判断该像素的亮度,与以该像素为中心、以至少5×5像素区域内除该像素以外的所有像素的亮度平均值之间的差异是否超过所述判断阈值。
其中,所述设定像素区域为5×5像素区域。
本发明实施例的有益效果在于:针对存在亮、暗点的面板,或者背光模组BLU上有点状脏污的状况下,避免采用常规伽马gamma曲线去计算补偿数据,而是通过判定异常像素并计算其实际亮度,进行一定的mura修补,不会出现异常偏大/小的补偿数据,不会影响亮、暗点及脏污周围区域的显示效果,避免出现区域性亮、暗不均一状况。
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是现有mura补偿示意图;
图2是现有对LCD面板mura补偿前后的亮度对比示意图;
图3是现有固定间隔区域内任一像素的mura补偿数据示意图;
图4是现有固定间隔区域内补偿亮度对比示意图;
图5是现有补偿方法对暗点补偿后形成亮块的示意图;
图6是本发明mura补偿方法的流程示意图;
图7是本发明异常像素亮度处理前后对比示意图;
图8是根据本发明所述补偿方法补偿后异常处理区域内补偿亮度对比示意图。
以下各实施例的说明是参考附图,用以示例本发明可以用以实施的特定实施例。
请参照图6所示,本发明实施例一提供一种mura补偿方法,包括:
S1、获取对液晶面板拍摄得到的图像;
具体地,步骤S1是通过相机(例如CCD相机)对液晶面板进行拍照而获得相应图像。
S2、判断所述图像上是否存在异常像素;
如前所述,如果LCD面板存在暗点像素,或者LED背光模组上存在脏污点,在步骤S1通过相机(例如CCD相机)拍摄得到的图像上,异常像素位置的亮度会明显低于周围像素的亮度。因此,本实施例设定一个判定阈值a,即当分析图像数据时,若发现某一像素的亮度与其四周像素的亮度差异超过判断阈值a后,则判定此像素为异常像素。判断阈值a需要根据实际状况进行设定,包括背光亮度以及LCD面板本身的穿透率,基本上会超过20灰阶左右的亮度。进一步地,判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值a,具体是判断该像素的亮度,与以该像素为中心,以至少5×5像素区域内所有像素(该像素除外)的亮度平均值之间的差异是否超过判断阈值a。
S3、如果所述图像上存在异常像素,则以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;
通过步骤S2判断出异常像素后,针对异常像素的补偿数据则不能根据
伽马gamma曲线进行计算,需要进行如下处理得到异常像素的mura补偿数据:
以异常像素为中心,以至少5×5像素区域内所有像素(异常像素除外)的亮度平均值作为异常像素的实际亮度。
本实施例设定的像素区域为5×5像素区域,过小则纳入计算的数据较少,结果不太准确;虽然像素区域越大结果越准确,但是需要处理的数据会较多,因此本实施例的5×5像素区域是合适的。
再请参照图7所示,为一5×5像素区域在异常像素亮度处理前后的对比示意图,在处理前获得中心点的像素亮度值为2,发现明显低于四周像素的亮度,按前述步骤S2判定为异常像素,然后计算得到其四周像素亮度平均值为8.8,则将亮度值8.8作为该异常像素的实际亮度。
S4、根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值;
如图8所示,将异常像素四周像素亮度平均值作为该异常像素的实际亮度,然后以所述异常像素的实际亮度参与固定设置间隔像素的mura补偿值计算,该异常像素的实际亮度由于是其四周像素亮度平均值,因此与四周像素亮度值差异非常小,计算出来的该异常像素所处固定间隔区域的顶点位置mura补偿值与不存在异常像素时计算出的mura补偿值仍趋一致。因此,异常像素不会影响到任何包含其在内的区域内所有像素的平均亮度,则计算出的固定设置间隔顶点像素的mura补偿值不会因异常像素的存在而出现偏大/小,TCON IC内部线性插值计算出的固定间隔内其余像素的mura补偿值仍趋于正常。
S5、根据所述mura补偿值对所述液晶面板进行补偿;
由于步骤S4计算出的mura补偿值不受异常像素影响,将该mura补偿值对LCD面板进行mura补偿后不会出现异常像素所在的固定间隔区域整体亮度偏亮/暗,造成区域性的视觉效果不良。
相应于本发明实施例一,本发明实施例二提供一种mura补偿装置,包括:
获取模块,用于获取对液晶面板拍摄得到的图像;
判断模块,用于判断所述图像上是否存在异常像素;
处理模块,用于在所述判断模块判断所述图像上存在异常像素时,以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;
计算模块,用于根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值;
补偿模块,用于根据所述mura补偿值对所述液晶面板进行补偿。
其中,所述判断模块具体用于判断某一像素位置的亮度与其四周像素位置的亮度差异是否超过判断阈值,若是则判定此位置的像素为异常像素。
其中,所述判断模块判断某一像素位置的亮度与其四周像素位置的亮度差异是否超过判断阈值,具体是:
判断该像素的亮度,与以该像素的位置为中心、以至少5×5像素区域内除该像素以外的所有像素的亮度平均值之间的差异是否超过所述判断阈值。
其中,所述设定像素区域为5×5像素区域。
通过上述说明可知,本发明实施例的有益效果在于:针对存在亮、暗点的面板,或者背光模组BLU上有点状脏污的状况下,避免采用常规伽马gamma曲线去计算补偿数据,而是通过判定异常像素并计算其实际亮度,进行一定的mura修补,不会出现异常偏大/小的补偿数据,不会影响亮、暗点及脏污周围区域的显示效果,避免出现区域性亮、暗不均一状况。
以上所揭露的仅为本发明较佳实施例而已,当然不能以此来限定本发明之权利范围,因此依本发明权利要求所作的等同变化,仍属本发明所涵盖的范围。
Claims (8)
- 一种mura补偿方法,包括:获取对液晶面板拍摄得到的图像;判断所述图像上是否存在异常像素;如果所述图像上存在异常像素,则以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值;根据所述mura补偿值对所述液晶面板进行补偿。
- 根据权利要求1所述的mura补偿方法,其中,所述判断所述图像上是否存在异常像素具体包括:判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,若是则判定此像素为异常像素。
- 根据权利要求2所述的mura补偿方法,其中,所述判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,具体是:判断该像素的亮度,与以该像素为中心、以至少5×5像素区域内除该像素以外的所有像素的亮度平均值之间的差异是否超过所述判断阈值。
- 根据权利要求1所述的mura补偿方法,其中,所述设定像素区域为5×5像素区域。
- 一种mura补偿装置,其中,包括:获取模块,用于获取对液晶面板拍摄得到的图像;判断模块,用于判断所述图像上是否存在异常像素;处理模块,用于在所述判断模块判断所述图像上存在异常像素时,以所述异常像素为中心,以设定像素区域内除所述异常像素以外的所有像素的亮度平均值作为所述异常像素的实际亮度;计算模块,用于根据所述异常像素的实际亮度和正常像素的亮度计算所述液晶面板的mura补偿值,补偿模块,用于根据所述mura补偿值对所述液晶面板进行补偿。
- 根据权利要求5所述的mura补偿装置,其中,所述判断模块具体用于判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,若是则判定此像素为异常像素。
- 根据权利要求6所述的mura补偿装置,其中,所述判断模块判断某一像素的亮度与其四周像素的亮度差异是否超过判断阈值,具体是:判断该像素的亮度,与以该像素为中心、以至少5×5像素区域内除该像素以外的所有像素的亮度平均值之间的差异是否超过所述判断阈值。
- 根据权利要求5所述的mura补偿装置,其中,所述设定像素区域为5×5像素区域。
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