Abstract
This paper investigates the output feedback stabilization problem of linear time‐varying uncertain delay systems with limited measurable state variables. Each uncertain parameter and each delay under consideration may take arbitrarily large values. In such a situation, the locations of uncertain entries in the system matrices play an important role. It has been shown that if a system has a particular configuration called a triangular configuration, then the system is stabilizable irrespective of the given bounds of uncertain variations. In the results so far obtained, the stabilization problem has been reduced to finding the proper variable transformation such that an M‐matrix stability criterion is satisfied. However, it still has not been shown whether the constructed variable transformation enables the system to satisfy the M‐matrix stability condition. The objective of this paper is to show a method that enables verification of whether the transformed system satisfies the M‐matrix stability condition.
Highlights
This paper examines the stabilization problem of linear time-varying uncertain delay systems by means of linear memoryless state feedback control
The stabilization problem of linear time-varying uncertain systems without delays was studied by Wei 4
On the one hand, based on the properties of an M-matrix, Amemiya and Leitmann 5 developed the conditions for the stabilization of linear time-varying uncertain systems with time-varying delays using linear memoryless state feedback control
Summary
This paper examines the stabilization problem of linear time-varying uncertain delay systems by means of linear memoryless state feedback control. This paper presents investigation of the permissible locations of uncertain entries, which are allowed to take unlimited large values, for the stabilization using linear state feedback control. The stabilization problem of linear time-varying uncertain systems without delays was studied by Wei 4. Using the concept of antisymmetric stepwise configuration ASC 4 , Wei proved that a linear time-varying uncertain system is stabilizable independently of the given bounds of uncertain variations using linear state feedback control if and only if the system has an ASC. On the one hand, based on the properties of an M-matrix, Amemiya and Leitmann 5 developed the conditions for the stabilization of linear time-varying uncertain systems with time-varying delays using linear memoryless state feedback control.
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