Relaxed H∞ controller design for continuous Markov jump system with incomplete transition probabilities

Mouquan Shen; Guangming Zhang; Yuhao Yuan; Dan Ye

doi:10.1007/s00034-013-9695-z

Relaxed H_∞ controller design for continuous Markov jump system with incomplete transition probabilities

Mouquan Shen, Guangming Zhang, Yuhao Yuan, Dan Ye

COLLEGE OF ELECTRICAL ENGINEERING AND CONTROL SCIENCE

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

This paper studies the H_∞ state feedback control of continuous-time Markov jump linear systems (MJLSs) with incomplete transition probabilities (TPs) which are allowed to be known, uncertain with known lower and upper bounds, and completely unknown. Combining the TP property and a matrix transformation technique, a new method for the H_∞ controller synthesis is proposed in terms of linear matrix inequalities (LMIs). The dominant feature of the proposed method is that two sets of slack variables without coupling relationship are introduced. It is shown that the proposed method is less conservative than the existing result. The effectiveness of the proposed method is further illustrated by numerical examples.

Original language	English
Pages (from-to)	1393-1410
Number of pages	18
Journal	Circuits, Systems, and Signal Processing
Volume	33
Issue number	5
DOIs	https://doi.org/10.1007/s00034-013-9695-z
State	Published - May 2014

Keywords

Linear matrix inequality
Markov jump linear system
Parameter-dependent Lyapunov function

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abstract = "This paper studies the H∞ state feedback control of continuous-time Markov jump linear systems (MJLSs) with incomplete transition probabilities (TPs) which are allowed to be known, uncertain with known lower and upper bounds, and completely unknown. Combining the TP property and a matrix transformation technique, a new method for the H∞ controller synthesis is proposed in terms of linear matrix inequalities (LMIs). The dominant feature of the proposed method is that two sets of slack variables without coupling relationship are introduced. It is shown that the proposed method is less conservative than the existing result. The effectiveness of the proposed method is further illustrated by numerical examples.",

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AU - Shen, Mouquan

AU - Zhang, Guangming

AU - Yuan, Yuhao

AU - Ye, Dan

PY - 2014/5

Y1 - 2014/5

N2 - This paper studies the H∞ state feedback control of continuous-time Markov jump linear systems (MJLSs) with incomplete transition probabilities (TPs) which are allowed to be known, uncertain with known lower and upper bounds, and completely unknown. Combining the TP property and a matrix transformation technique, a new method for the H∞ controller synthesis is proposed in terms of linear matrix inequalities (LMIs). The dominant feature of the proposed method is that two sets of slack variables without coupling relationship are introduced. It is shown that the proposed method is less conservative than the existing result. The effectiveness of the proposed method is further illustrated by numerical examples.

AB - This paper studies the H∞ state feedback control of continuous-time Markov jump linear systems (MJLSs) with incomplete transition probabilities (TPs) which are allowed to be known, uncertain with known lower and upper bounds, and completely unknown. Combining the TP property and a matrix transformation technique, a new method for the H∞ controller synthesis is proposed in terms of linear matrix inequalities (LMIs). The dominant feature of the proposed method is that two sets of slack variables without coupling relationship are introduced. It is shown that the proposed method is less conservative than the existing result. The effectiveness of the proposed method is further illustrated by numerical examples.

KW - Linear matrix inequality

KW - Markov jump linear system

KW - Parameter-dependent Lyapunov function

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JO - Circuits, Systems, and Signal Processing

JF - Circuits, Systems, and Signal Processing

IS - 5

ER -

Relaxed H_∞ controller design for continuous Markov jump system with incomplete transition probabilities

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