Optimal controllers for hybrid systems: stability and piecewise linear explicit form

Proceedings of the 39th IEEE Conference on Decision and Control (Cat. No.00CH37187) Pub Date : 2000-12-12 DOI:10.1109/CDC.2000.912125

A. Bemporad, F. Borrelli, M. Morari

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引用次数: 168

Abstract

We propose a procedure for synthesizing piecewise linear optimal controllers for hybrid systems and investigate conditions for closed-loop stability. Hybrid systems are modeled in discrete-time within the mixed logical dynamical framework, or, equivalently, as piecewise affine systems. A stabilizing controller is obtained by designing a model predictive controller, which is based on the minimization of a weighted 1//spl infin/-norm of the tracking error and the input trajectories over a finite horizon. The control law is obtained by solving a mixed-integer linear program (MILP) which depends on the current state. Although efficient branch and bound algorithms exist to solve MILPs, these are known to be NP-hard problems, which may prevent their online solution if the sampling-time is too small for the available computation power. Rather than solving the MILP online, we propose a different approach where all the computation is moved off line, by solving a multiparametric MILP. As the resulting control law is piecewise affine, online computation is drastically reduced to a simple linear function evaluation. An example of piecewise linear optimal control of a heat exchange system shows the potential of the method.

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混合系统的最优控制器:稳定性与分段线性显式

提出了混合系统分段线性最优控制器的合成方法，并研究了其闭环稳定的条件。混合系统是在混合逻辑动力框架内的离散时间建模的，或者，等效地，作为分段仿射系统。通过设计一个模型预测控制器，该控制器基于在有限视界上跟踪误差和输入轨迹的加权1//spl infin/-范数的最小化，从而获得稳定控制器。通过求解一个依赖于当前状态的混合整数线性规划(MILP)得到控制律。尽管存在有效的分支和定界算法来解决milp，但已知这些是np困难问题，如果采样时间太小，可能会妨碍其在线解决。与在线求解MILP不同，我们提出了一种不同的方法，通过求解多参数MILP，将所有计算移离在线。由于所得到的控制律是分段仿射的，在线计算被大大简化为简单的线性函数计算。一个换热系统分段线性最优控制的实例表明了该方法的潜力。

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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Proceedings of the 39th IEEE Conference on Decision and Control (Cat. No.00CH37187)

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