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Extended State Observer-Based Sliding Mode Control for Multi-input Multi-output System with Multiple Disturbances

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Abstract

This paper proposes a generalized design procedure for the extended state observer-based sliding mode control for multi-input multi-output linear systems with multiple disturbances (matched and/or mismatched) using an extended state observer. First, the system is transferred to a regular form to decouple the states having matched and mismatched uncertainties; then, a novel sliding surface is designed based on the state and disturbance estimation obtained through extended state observer (ESO). The proposed generalized ESO-based sliding mode controller (SMC) is designed to counteract the effect of matched and/or mismatched disturbances which are bounded, while the classical SMC fails to provide the desired performance in the presence of mismatched disturbance. This paper develops a simple method for the design of sliding surface coefficients and the selection of switching gain. The proposed control strategy is validated through numerical simulations, and the comparison with ESO-based state feedback control shows a reduced-order closed-loop dynamics and better transient performance.

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Brisilla, R.M., Sankaranarayanan, V. Extended State Observer-Based Sliding Mode Control for Multi-input Multi-output System with Multiple Disturbances. J Control Autom Electr Syst 28, 11–25 (2017). https://doi.org/10.1007/s40313-016-0289-4

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  • DOI: https://doi.org/10.1007/s40313-016-0289-4

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