在有限计算能力的网络物理系统中实现基于优化的控制任务

2022 2nd International Workshop on Computation-Aware Algorithmic Design for Cyber-Physical Systems (CAADCPS) Pub Date : 2022-03-11 DOI:10.1109/CAADCPS56132.2022.00009

M. Hosseinzadeh, B. Sinopoli, I. Kolmanovsky, Sanjoy Baruah

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引用次数: 3

摘要

当今网络物理系统的一个共同方面是，多个基于优化的控制任务可能在共享处理器中执行。此类控制任务利用在线优化，因此执行时间长;因此，它们的采样周期也必须较大，以满足实时可调度性条件。然而，较大的采样周期可能会导致较差的控制性能。我们的工作目标是开发一种鲁棒的早期终止优化方法，该方法可用于有效解决涉及控制系统的机载优化问题，尽管存在不可预测的、可变的和有限的计算能力。该方法的意义在于，优化迭代可以在任意时刻停止，且有保证的可行解;因此，基于优化的控制任务可以在较小的采样周期内实现(因此控制性能的退化最小)。

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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Implementing Optimization-Based Control Tasks in Cyber-Physical Systems With Limited Computing Capacity

A common aspect of today's cyber-physical systems is that multiple optimization-based control tasks may execute in a shared processor. Such control tasks make use of online optimization and thus have large execution times; hence, their sampling periods must be large as well to satisfy real-time schedulability condition. However, larger sampling periods may cause worse control performance. The goal of our work is to develop a robust to early termination optimization approach that can be used to effectively solve onboard optimization problems involved in controlling the system despite the presence of unpredictable, variable, and limited computing capacity. The significance of the developed approach is that the optimization iterations can be stopped at any time instant with a guaranteed feasible solution; as a result, optimization-based control tasks can be implemented with a small sampling period (and consequently with a minimum degradation in the control performance).

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2022 2nd International Workshop on Computation-Aware Algorithmic Design for Cyber-Physical Systems (CAADCPS)

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