任务和时间关键网络物理系统中的脉冲功率负载协调

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Tianming Zhao, Wei Li, Bo Qin, Ling Wang, Albert Y. Zomaya
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引用次数: 0

摘要

许多任务和时间关键的网络物理系统为其电源部署了一个隔离的电源系统。在极端条件下,电力系统必须通过最大化脉冲电力负载(PPL)效用来处理关键任务,同时保持网络物理系统中的正常负载。最佳运行需要仔细协调PPL部署和供电过程。在这项工作中,我们制定了在可用资源、容量和需求约束下最大化PPL效用的协调问题。对于不同的用例,协调问题有两种场景,即固定负载和一般正常负载。我们为每个场景开发了一个精确的伪多项式时间动态规划算法,并证明了生成最优协调调度的保证。对算法的性能也进行了实验评估,结果与我们的理论分析一致,表明了解决方案的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pulsed Power Load Coordination in Mission- and Time-critical Cyber-physical Systems
Many mission- and time-critical cyber-physical systems deploy an isolated power system for their power supply. Under extreme conditions, the power system must process critical missions by maximizing the Pulsed Power Load (PPL) utility while maintaining the normal loads in the cyber-physical system. Optimal operation requires careful coordination of PPL deployment and power supply processes. In this work, we formulate the coordination problem for maximizing PPL utility under available resources, capacity, and demand constraints. The coordination problem has two scenarios for different use cases, fixed and general normal loads. We develop an exact pseudo-polynomial time dynamic programming algorithm for each scenario with a proven guarantee to produce an optimal coordination schedule. The performance of the algorithms is also experimentally evaluated, and the results agree with our theoretical analysis, showing the practicality of the solutions.
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CiteScore
2.10
自引率
0.00%
发文量
9
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