电池寿命是移动设备的关键设计参数之一。由于电池容量消耗的非线性和与负载轮廓相关的特性，最大化电池寿命是个相当困难的问题。研究了在考虑电池放电特性情况下动态电压调节策略（DVS, dynamic voltage scaling）最小化电池容量消耗的问题。针对现有考虑电池 放电特性的DVS策略中空闲时间分配不合理的缺陷，提出了空闲时间分布调整过程，用于优化空闲时间分布从而减少电池容量消耗，并分析了该过程对任务调度的影响。实验结果表明对现有考虑电池放电特性的DVS策略形成的任务调度进行空闲

Battery lifetime is one of the critical design parameters for mobile computing d evices. Maximizing the battery lifetime is a particularly difficult problem due to the nonlinearity of the battery discharge behavior and its dependence on the discharge profile. In this paper, the problem of task scheduling with dynamic voltage scaling such that the maximum consume battery capacity is addressed. T o deal with the shortcoming of the existing battery-aware DVS policy, the idle time distribution adjustment procedure is proposed, which optimizes id le time dis tribution and then reduce the battery capacity consumption, and the cha nge of task scheduling under the procedure is analyzed. The experiment results s how that the proposed procedure can save more battery capacity consumption evidently than th e existing battery-aware DVS policy.