Image integrity-based gray-level error control for low power liquid crystal displays

In this paper, we present a new approach to dynamic gray-level error control for global dimming of liquid crystal display (LCD) devices. In the LCD devices, global dimming is used to reduce power consumption by limiting the maximum luminance and lowering the brightness of backlight. The existing approaches, based on the fixed rate of clipped pixels, deteriorate the image quality seriously for some images even after gray level compensation. The proposed approach, on the other hand, dynamically chooses the maximum luminance for a given image, based on final image integrity. Thus, it has an advantage of preserving the worst image quality at any desired level, while reducing power consumption as much as possible. In the experiments, the proposed approach successfully maintained the minimum target peak signal to noise ratio (PSNR) for test sequences.

[1]  Hyuk-Jae Lee,et al.  Reduction of quantization errors caused by dynamic LCD backlight scaling , 2009, IEICE Electron. Express.

[2]  Massoud Pedram,et al.  HEBS: histogram equalization for backlight scaling , 2005, Design, Automation and Test in Europe.

[3]  Scott J. Daly,et al.  Brightness preservation for LCD backlight dimming , 2006 .

[4]  Chin-Chen Chang,et al.  A virtual image cryptosystem based upon vector quantization , 1998, IEEE Trans. Image Process..

[5]  Kyoung-Rok Cho,et al.  Motion Compensated Frame Rate Up-Conversion Using Extended Bilateral Motion Estimation , 2007, IEEE Transactions on Consumer Electronics.

[6]  Jee-Gong Chang,et al.  Random-dot pattern design of a light guide in an edge-lit backlight: integration of optical design and dot generation scheme by the molecular-dynamics method. , 2007, Journal of the Optical Society of America. A, Optics, image science, and vision.

[7]  Eun-Soo Kim,et al.  Magnification of 3D reconstructed images in integral imaging using an intermediate-view reconstruction technique. , 2006, Applied optics.

[8]  Yourii Martynov,et al.  43.4: High Brightness Direct LED Backlight for LCD-TV , 2003 .

[9]  Michael W. Marcellin,et al.  JPEG2000 - image compression fundamentals, standards and practice , 2002, The Kluwer International Series in Engineering and Computer Science.

[10]  Jee-Gong Chang,et al.  Dot-pattern design of a light guide in an edge-lit backlight using a regional partition approach , 2007 .

[11]  Gary Marchionini,et al.  The Open Video Digital Library , 2002, D Lib Mag..

[12]  Lin-Yao Liao,et al.  Dynamic Backlight Gamma on High Dynamic Range LCD TVs , 2008, Journal of Display Technology.

[13]  Naehyuck Chang,et al.  DLS: dynamic backlight luminance scaling of liquid crystal display , 2004, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[14]  Naehyuck Chang,et al.  Low-power color TFT LCD display for hand-held embedded systems , 2002, ISLPED '02.

[15]  Young Hwan Kim,et al.  Image Adaptive Incremental Subfield Coding for Plasma Display Panels , 2007, IEICE Trans. Electron..