Necessary and sufficient stability condition of fractional-order interval linear systems

Abstract

This paper establishes a necessary and sufficient stability condition of fractional-order interval linear systems. It is supposed that the system matrix A is an interval uncertain matrix and fractional commensurate order belongs to 1 <= alpha < 2. Using the existence condition of Hermitian P = P* for a complex Lyapunov inequality, we prove that the fractional-order interval linear system is robust stable if and only if there exists Hermitian matrix P = P* such that a certain type of complex Lyapunov inequality is satisfied for all vertex matrices. The results are directly extended to the robust stability condition of fractional-order interval polynomial systems. (C) 2008 Elsevier Ltd. All rights reserved.