摘要:
A display is provided. The display includes a first timing controller, a second timing controller and drivers. The first timing controller receives and transmits a first portion of pixel values, in which the first portion of the pixel values includes the pixel values of at least two non-adjacent pixels. The second timing controller receives and transmits a second portion of the pixel values, in which the second portion of the pixel values includes the pixel values of at least two non-adjacent pixels. Each of the drivers receives respectively a part of the first portion of the pixel values transmitted by the first timing controller and a part of the second portion of the pixel values transmitted by the second timing controller. A method of transmitting image data in the display is also disclosed.
摘要:
A display is provided. The display includes a first timing controller, a second timing controller and drivers. The first timing controller receives and transmits a first portion of pixel values, in which the first portion of the pixel values includes the pixel values of at least two non-adjacent pixels. The second timing controller receives and transmits a second portion of the pixel values, in which the second portion of the pixel values includes the pixel values of at least two non-adjacent pixels. Each of the drivers receives respectively a part of the first portion of the pixel values transmitted by the first timing controller and a part of the second portion of the pixel values transmitted by the second timing controller. A method of transmitting image data in the display is also disclosed.
摘要:
In one aspect, the present invention relates to a method of processing images. In one embodiment, the method includes the steps of processing an image having a plurality of image pixels expressed in grey level values, GLIN(i), of n bits in a RGB color domain so as to obtain the maximum gray level value among the gray level values of all RGB colors of the plurality of image pixels, determining a color shift compensation coefficient, ζM, according to the maximum gray level value of the image, and transforming the image into an output image having grey level values, GLOUT(i), that satisfies the relationship of GLOUT(i)=ζM×GLIN(i)≦N.