能量中性传感器最早截止时间优先调度的主要结果

2023 15th International Conference on Computer and Automation Engineering (ICCAE) Pub Date : 2023-03-03 DOI:10.1109/ICCAE56788.2023.10111188

M. Chetto, Rola El Osta

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引用次数: 0

摘要

能量收集技术允许小型电子设备(如无线传感器)永久运行。在设计此类设备时，间歇性计算和实时调度是两个主要问题。传统的调度方法由于不能适应电力供应的波动而不方便。为了适应能量收集计算系统的特点，提出了一种改进的最早截止日期优先调度方法。所谓的ED-H算法是一种空转和透视算法，它在截止日期缺失率方面提高了性能。SSP算法是一种非周期任务服务器，在保证关键周期任务的最后期限的同时，为非周期任务提供最优响应。因此，本文综述了实时约束下能量收集系统实时调度理论的主要进展。

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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Main Results on Earliest Deadline First Scheduling for Energy Neutral Sensors

Energy harvesting technology permits perpetual operation to small electronic devices such as wireless sensors. Intermittent computing and real-time scheduling are the two main issues when designing such devices. Classical scheduling approaches are not convenient because they cannot accommodate fluctuations in power supply. A variant of the Earliest Deadline First scheduler was proposed so as to adapt to the characteristics of energy harvesting computing systems. The so-called ED-H algorithm is an idling and clairvoyant one which improves performance in terms of deadline missing ratio. And the so-called SSP algorithm is an aperiodic task server which provides optimal responsiveness for aperiodic tasks while guaranteeing deadlines of the critical periodic tasks. Thus, this paper reviews the main advances in real-time scheduling theory for energy harvesing systems under real-time constraints.

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2023 15th International Conference on Computer and Automation Engineering (ICCAE)

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