Stabilization of nonlinear systems with state and control constraints using Lyapunov-based predictive control |
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Authors: | Prashant Mhaskar Nael H. El-Farra Panagiotis D. Christofides |
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Affiliation: | aDepartment of Chemical Engineering, McMaster University, Hamilton, ON Canada, L8P1X6;bDepartment of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USA;cDepartment of Chemical and Biomolecular Engineering, University of California, Los Angeles, CA 90095-1592, USA |
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Abstract: | This work considers the problem of stabilization of nonlinear systems subject to state and control constraints, for cases where the state constraints need to be enforced at all times (hard constraints) and where they can be relaxed for some time (soft constraints). We propose a Lyapunov-based predictive control design that guarantees stabilization and state and input constraint satisfaction for all times from an explicitly characterized set of initial conditions. An auxiliary Lyapunov-based analytical bounded control design is used to characterize the stability region of the predictive controller and also provide a feasible initial guess to the optimization problem in the predictive controller formulation. For the case when the state constraints are soft, we propose a switched predictive control strategy that reduces the time during which state constraints are violated, driving the states into the state and input constraints feasibility region of the Lyapunov-based predictive controller. We demonstrate the application of the Lyapunov-based predictive controller designs through a chemical process example. |
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Keywords: | State constraints Soft constraints Input constraints Model predictive control Bounded Lyapunov-based control Stability region Feasibility region |
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