基于动态补偿器的广义线性系统的容错H∞控制

Yantao Wang, Chong Tan, Xian Zhang
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引用次数: 1

摘要

研究了一类基于动态补偿器的广义线性系统在执行器和/或传感器失效时的容错H∞控制问题。基于广义线性系统的H∞理论,导出了带参数动态补偿器存在的充分条件。动态补偿器保证所得到的闭环广义系统在正常情况下以及在执行器故障或/和传感器故障的情况下是允许的,并保持一定的H∞范数性能。此外,通过选择设计的动态补偿器中的自由参数,可以优化闭环系统的性能。数值算例表明了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fault-tolerant H∞ control for descriptor linear systems via dynamical compensators
Fault-tolerant H∞ control against actuator failures and/or sensor failures for a class of descriptor linear systems via dynamical compensators is investigated. Based on H∞ theory in descriptor linear systems, sufficient conditions for the existence of dynamical compensators with parameters are derived. The dynamical compensator guarantees that the resulting closed-loop descriptor system is admissible and maintains a certain H∞ norm performance in the normal condition as well as in the event of actuator failures or/and sensor failures. Moreover, the closed-loop system performance can be optimized by choosing free parameters in designed dynamical compensators. A numerical example shows the effectiveness of the proposed method.
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