Temporal Vision-Guided Energy Minimization for Portable Displays

ISLPED'06 Proceedings of the 2006 International Symposium on Low Power Electronics and Design Pub Date : 2006-10-04 DOI:10.1145/1165573.1165595

W. Cheng, Chih-Fu Hsu, Chain-Fu Chao

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引用次数: 22

Abstract

This paper presents a novel backlight driving technique for liquid crystal displays. By scaling the intensity, frequency, and duty cycle of the backlight, this technique not only increases the perceived brightness but also prolongs the service time of rechargeable batteries. The increased brightness comes from a perceptual effect of temporal vision - a brief flash appears brighter than a steady light of the same intensity, called Brucke brightness enhancement effect. The prolonged service time comes from the relaxation phenomenon - a lithium-ion battery lasts longer by pulsed discharge. Combining these two effects, a great amount of service time can be obtained at the cost of flickering. We performed visual experiments to parameterize the Brucke effect and derived an optimization algorithm accordingly. To demonstrate the potential energy savings of this technique, we profiled the power consumption of an Apple iPod and fabricated an LED driving module. Based on experimental data, 75% of energy consumption can be saved and the service time can be extended to 300%

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便携式显示器的时间视觉引导能量最小化

提出了一种新的液晶显示器背光驱动技术。通过调整背光的强度、频率和占空比，该技术不仅提高了感知亮度，而且延长了可充电电池的使用时间。亮度的增加来自于时间视觉的感知效应——短暂的闪光比相同强度的稳定光线更亮，这被称为布鲁克亮度增强效应。延长的使用时间来自于松弛现象——脉冲放电的锂离子电池寿命更长。结合这两种效果，可以以牺牲闪烁为代价获得大量的使用时间。我们进行了视觉实验来参数化布鲁克效应，并推导了相应的优化算法。为了证明这种技术的潜在节能性，我们对苹果iPod的功耗进行了分析，并制作了一个LED驱动模块。根据实验数据，可节省75%的能耗，并可将使用时间延长至300%

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ISLPED'06 Proceedings of the 2006 International Symposium on Low Power Electronics and Design

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