Title :
Optimized Brightness Compensation and Contrast Enhancement for Transmissive Liquid Crystal Displays
Author :
Chul Lee ; Jin-Hwan Kim ; Chulwoo Lee ; Chang-Su Kim
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University Park, PA, USA
Abstract :
An optimized brightness-compensated contrast enhancement (BCCE) algorithm for transmissive liquid crystal displays (LCDs) is proposed in this paper. We first develop a global contrast enhancement scheme to compensate for the reduced brightness when the backlight of an LCD device is dimmed for power reduction. We also derive a distortion model to describe the information loss due to the brightness compensation. Then, we formulate an objective function that consists of the contrast enhancement term and the distortion term. By minimizing the objective function, we maximize the backlight-scaled image contrast, subject to the constraint on the distortion. Simulation results show that the proposed BCCE algorithm provides high-quality images, even when the backlight intensity is reduced by up to 50-70% to save power.
Keywords :
brightness; distortion; image enhancement; liquid crystal displays; LCD device; backlight intensity reduction; backlight scaling; brightness compensation and contrast enhancement; dimmed backlight; distortion model; global contrast enhancement scheme; high quality image; information loss; low-power image processing; optimized BCCE algorithm; power reduction; transmissive liquid crystal display; Brightness; Educational institutions; Histograms; Image quality; Optimization; Power demand; Vectors; Backlight scaling; Brightness compensation; backlight scaling; brightness compensation; contrast enhancement; histogram modification; low-power image processing; power management; transmissive LCD; transmissive liquid crystal display (LCD);
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2013.2276154
