A Discrete-Time Integral Sliding Mode Control Law for Systems With Matched and Unmatched Disturbances
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Institute of Electrical and Electronics Engineers (IEEE)
Abstract
This letter proposes a discrete-time integral sliding mode (DT-ISM) control strategy for linear time-invariant systems subject to matched and unmatched disturbances. The DT-ISM strategy is defined based on a discrete-time model of the system obtained from its continuous-time counterpart, providing numerical procedures to determine the sets in which the disturbances are contained, starting from the corresponding sets in the continuous-time domain. The DT-ISM law is based on disturbance estimation to ideally steer the sliding variable to zero in one discrete step, and achieves a quasi-DT-ISM in the presence of bounded estimation errors. The effectiveness of the proposed control law is tested in simulation combined with a robust model predictive control law.
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Keywords
Mode (computer interface), Sliding mode control, Integral sliding mode, Control theory (sociology), Discrete time and continuous time, Control (management), Computer science, Mathematics, Physics, Nonlinear system, Artificial intelligence, Statistics, Quantum mechanics, Operating system, type of access: open access
Citation
Rubagotti Matteo, Incremona Gian Paolo, Ferrara Antonella. (2024). A Discrete-Time Integral Sliding Mode Control Law for Systems With Matched and Unmatched Disturbances. IEEE Control Systems Letters. https://doi.org/https://doi.org/10.1109/lcsys.2024.3394001