LMI based model order reduction considering the minimum phase characteristic of the system

Gholamreza Khademi, Hanieh Mohammadi, M. Dehghani
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引用次数: 4

Abstract

One usual method to solve the model order reduction problem is to minimize the H∞-norm of the difference between the transfer function of the original system and the reduced one. In many papers, the minimization problem is solved using the Linear Matrix Inequality (LMI) approach. This paper deals with defining an extra matrix inequality constraint to guaranty that the minimum phase characteristic of the system preserves after order reduction. To overcome this, poles and zeros of the reduced system transfer function must be at Left-Half Plane (LHP). It is very easy to apply a LMI condition to force the poles of the system to be at LHP. However, the same cannot be applied to zeroes easily. Thus, a special state-space realization of the system is introduced in a way to apply conditions on zeros of the reduced system. The method is applied to some sample example and the simulation results verify the performance of the proposed method.
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考虑系统最小相位特性的基于LMI的模型降阶
求解模型降阶问题的一种常用方法是使原系统的传递函数与降阶后的传递函数之差的H∞范数最小。在许多论文中,最小化问题是用线性矩阵不等式(LMI)方法来解决的。为了保证系统在降阶后仍能保持最小相位特性,本文给出了一个额外的矩阵不等式约束。为了克服这一点,简化系统传递函数的极点和零点必须在左半平面(LHP)上。应用LMI条件使系统极点处于LHP是很容易的。然而,同样的方法并不适用于零。因此,引入了系统的一种特殊状态空间实现方式,将条件应用于化简系统的零点。将该方法应用于一些实例,仿真结果验证了该方法的有效性。
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