Abstract
This paper investigates the novel sliding mode control design with state derivative output feedback in nontraditional reciprocal state space (RSS) form. The concepts and the need of RSS form are comprehensively reviewed and explained. Novel switching function and approaching condition based on the derivative of sliding surface are introduced. In addition, a sufficient condition for finding the upper bound of system uncertainty to guarantee the stability in sliding surface is developed for robustness analysis. A compact sliding mode controller utilizing only state derivative related output feedback is proposed for systems with system uncertainty, matched input uncertainty, and matched external disturbance. Simulation results for a circuit system successfully verify the validities of the proposed algorithms. Our derivation is basically parallel to that for systems in standard state space form. Therefore, those who understand the concepts of sliding mode control can easily apply our method to handle more control problems without being involved in complex mathematics.
Highlights
The solutions of output feedback control designs are not always available for systems
A sliding mode controller is designed to drive the system to sliding surface
Nontraditional switching function utilizing the derivative of sliding surface is proposed and proven to satisfy the approaching condition of sliding mode
Summary
The solutions of output feedback control designs are not always available for systems. In many cases, output feedback controllers are the designers’ first choice as long as the closed loop system can be stabilized. The system outputs are not related to states but to state derivatives. For this reason, the state derivative output feedback algorithms are needed. In the past, state derivative output feedback algorithms were rarely investigated because the closed loop systems are complex in state space form. A sliding mode controller utilizing state derivative related output feedback in novel reciprocal state space (RSS) form is proposed
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