A Fast Algorithm for Optimal Power Scheduling of Large-Scale Appliances with Temporally-Spatially Coupled Constraints

机译：具有时空耦合约束的大型设备最优功率调度的快速算法

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摘要

The scheduling of appliance power consumption is one of the main tasks in demand response management in smart grids. In many scenarios, it requires us to optimally schedule a large number of appliances with limited computational resources, thus the computational efficiency becomes a major concern of algorithm design. To this end, a novel algorithm is proposed based on KKT conditions to solve the optimal power scheduling problem with temporally-spatially coupled constraints. We show the algorithm is much more efficient than conventional algorithms, e.g., dual decomposition, and less sensitive to the problem parameter setting, as verified by numerical examples.

机译：设备功耗的调度是智能电网中需求响应管理中的主要任务之一。在许多情况下，它要求我们以有限的计算资源来最佳调度大量设备，因此计算效率成为算法设计的主要关注点。为此，提出了一种基于KKT条件的新型算法，以解决具有时空耦合约束的最优功率调度问题。我们证明了该算法比常规算法高效，例如对偶分解，并且对问题参数设置的敏感性较低，如数值示例所示。

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《IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids》|2018年|1-6|共6页
会议地点 Aalborg(DK)
作者
Zhenwei Guo; Qinmin Yang; Zaiyue Yang;
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作者单位

College of Control Science and Engineering Zhejiang University Hangzhou China;

Dept. of Mechanical and Energy Engineering Southern University of Science and Technology Shenzhen China;

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原文格式 PDF
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关键词
Scheduling; Smart grids; Optimal scheduling; Processor scheduling; Power demand; Conferences;

机译：排程；智能电网；最佳调度；处理器调度；电力需求；会议活动;
入库时间 2022-08-26 14:35:20

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1. A Fast Algorithm for Optimal Power Scheduling of Large-Scale Appliances With Temporally Spatially Coupled Constraints [J] . Smart Grid, IEEE Transactions on . 2020,第2期

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4. A Fast Algorithm for Optimal Power Scheduling of Large-Scale Appliances with Temporally-Spatially Coupled Constraints [C] . Zhenwei Guo, Qinmin Yang, Zaiyue Yang IEEE International Conference on Communications, Control, and Computing Technologies for Smart Gridss . 2018

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A Fast Algorithm for Optimal Power Scheduling of Large-Scale Appliances with Temporally-Spatially Coupled Constraints

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