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Robust Stability Analysis of Interval Fractional-Order Plants With Interval Time Delay and General Form of Fractional-Order Controllers

Majid Ghorbani, Mahsan Tavakoli‐Kakhki, Aleksei Tepljakov, Eduard Petlenkov, Arash Farnam, Guillaume Crevecoeur

2021IEEE Control Systems Letters25 citationsDOI

Abstract

This letter aims to investigate the robust stability of an interval fractional-order plant with an interval time delay by a general form of fractional-order controllers. Based on a simple graphical procedure, necessary and sufficient criteria are proposed to analyze the robust stability of an interval fractional-order plant. Then, the idea of “robust stability testing function” is extended to analyze the robust stability of the considered type of systems. Besides, an upper frequency bound is provided which is useful for the simulation purposes and it helps to reduce the computational cost. Finally, two examples are presented to verify the usefulness of the obtained results.

Topics & Concepts

Interval (graph theory)Order (exchange)Stability (learning theory)MathematicsControl theory (sociology)Applied mathematicsFractional-order systemFractional calculusComputer scienceCombinatoricsControl (management)EconomicsArtificial intelligenceFinanceMachine learningAdvanced Control Systems DesignExtremum Seeking Control SystemsAdvanced Control Systems Optimization
Robust Stability Analysis of Interval Fractional-Order Plants With Interval Time Delay and General Form of Fractional-Order Controllers | Litcius