发明名称 |
Method of sub-pixel compensation coloring of RGBW display device based on edge pixel detection |
摘要 |
The invention provides a method of sub-pixel compensation coloring of a RGBW display device based on edge pixel detection, including: receiving m sets of high-resolution RGB data; converting the m sets of high-resolution RGB data into m sets of RGBW data, RG sub-pixels and BW sub-pixels of the RGBW display device each being corresponding to one set of RGBW data; judging a nine-palace pixel block of the RGBW display device whether contains an edge pixel based on the high-resolution RGB data; if the nine-palace pixel block contains the edge pixel, judging the nine-palace pixel block whether contains a saturation pixel based on the high-resolution RGB data; and if the nine-palace pixel block contains the saturation pixel, using a first filtering method to perform a filtering processing on a center pixel in the nine-palace pixel block based on the RGBW data. The invention can effectively eliminate color aliasing phenomenon. |
申请公布号 |
US9633613(B2) |
申请公布日期 |
2017.04.25 |
申请号 |
US201514425051 |
申请日期 |
2015.01.16 |
申请人 |
Shenzhen China Star Optoelectronics Technology Co., Ltd. |
发明人 |
Li Hao;Hu Houliang;Jin Yufeng |
分类号 |
G09G5/02;G09G3/20;G09G3/36;G09G3/32;H04N1/60;H04N9/69;H04N9/73 |
主分类号 |
G09G5/02 |
代理机构 |
|
代理人 |
Cheng Andrew C. |
主权项 |
1. A method of sub-pixel compensation coloring of a RGBW display device based on edge pixel detection, RG sub-pixels and BW sub-pixels of the RGBW display device each being corresponding to a set of high-resolution RGB data; the method comprising:
receiving m sets of high-resolution RGB data, wherein m is a positive integer; converting the m sets of high-resolution RGB data into m sets of RGBW data, wherein RG sub-pixels and BW sub-pixels of the RGBW display device each are corresponding to one of the m sets of the RGBW data; processing the m sets of RGBW data to obtain processed m sets of RGBW data, wherein processing the m sets of RGBW data comprises steps of:
judging a nine-palace pixel block of the RGBW display device whether contains an edge pixel based on the high-resolution RGB data, wherein the nine-palace pixel block comprises nine pixels each of which comprises the RG sub-pixels or the BW sub-pixels;if the nine-palace pixel block contains the edge pixel, further judging the nine-palace pixel block whether contains a saturation pixel based on the high-resolution RGB data;
if the nine-palace pixel block contains the saturation pixel, using a first filtering method to perform a filtering processing on a center pixel in the nine-palace pixel block based on the RGBW data; using the processed m sets of RGBW data to display by the RGBW display device; wherein the step of judging a nine-palace pixel block of the RGBW display device whether contains an edge pixel based on the high-resolution RGB data comprises:
calculating a matrix luminance of each of the nine pixels in the nine-palace pixel block based on Sobel operators in several directions and the high-resolution RGB data;determining a maximum matrix luminance of the matrix luminances of the nine pixels in the nine-palace pixel block;judging the maximum matrix luminance whether is greater than a first predetermined threshold; andif the maximum matrix luminance is greater than the first predetermined threshold, the pixel in the nine-palace pixel block corresponding to the maximum matrix luminance is the edge pixel; wherein the step of further judging the nine-palace pixel block whether contains a saturation pixel based on the high-resolution RGB data comprises:
determining a maximum data value and a minimum data value in the RGB data corresponding to any one of the nine pixels in the nine-palace pixel block;dividing the maximum data value by the minimum data value to obtain a data ratio;judging the data ratio whether is less than a second predetermined threshold; andif the data ratio is not less than the second predetermined threshold, the pixel in the nine-palace pixel block corresponding to the data ratio is the saturation pixel. |
地址 |
Shenzhen, Guangdong CN |