Frame data shrinking method used in over-driving technology

摘要

A frame data shrinking method is disclosed. The method is to divide frame data into data of target pixel and neighbor pixels, and select one data combination set from a plurality of data combination sets provided from the data neighbor pixels as encoded data of the target pixel; and the data combination set are to be compressed and recovered as decoded data of the target pixel of the current frame for being used to be compared with the decoded data of a target pixel of a previous frame; and then the data of the neighbor pixels are compressed and stored along with the selection information about the target pixel in a memory. Because the usage of memory is relatively lower, the cost of driving chips can be effectively reduced.

主权项

1. A frame data shrinking method used in over-driving technology comprising steps of:
S01: receiving the frame data of a first frame; S02: dividing the frame data of the first frame into data of a target pixel and data of a plurality of neighbor pixels which are neighbor to the target pixel, wherein the frame data of the first frame are divided into the data of the target pixel and the data of the neighbor pixels according to predetermined reference information of rows and columns; S03: selecting a data combination set which value is close to the data of the target pixel as encoded data of the target pixel from a plurality of data combination sets which are provided by the data of the neighbor pixels in the frame data of the first frame; S04: compressing the selected data combination set of the frame data of the first frame and decompressing the selected data combination set as decoded data of the target pixel of the first frame; S05: compressing the data of the neighbor pixels of the frame data of the first frame and storing the compressed data of the neighbor pixels along with the selection information about the target pixel in a memory; S06: continuing to receive the frame data of a second frame; S07: dividing the frame data of the second frame into data of a target pixel and data of a plurality of neighbor pixels; S08: selecting a data combination set which value is close to the data of the target pixel as encoded data of the target pixel from a plurality of data combination sets which are provided by the data of the neighbor pixels in the frame data of the second frame; S09: compressing the selected data combination set of the frame data of the second frame and decompressing the selected data combination set as decoded data of the target pixel of the second frame; S10: reading the compressed data of the neighbor pixels of the frame data of the first frame which are previously stored in the memory; S11: decompressing the compressed data of the neighbor pixels of the frame data of the first frame to decoded data of the neighbor pixels of the first frame; S12: recovering the decoded data of the target pixel of the first frame from the decoded data of the neighbor pixels of the first frame according to the selection information about the target pixel of the first frame; and S13: comparing the decoded data of the target pixel of the second frame with the decoded data of the target pixel of the first frame, if both are the same, then directly outputting the original data of the target pixel of the second frame; otherwise, performing over-driving operation for the target pixel.