Affine and predictive control policies for a class of nonlinear systems

Løvaas, Christian; Mare, José

Title: Affine and predictive control policies for a class of nonlinear systems
Creator: Løvaas, Christian; Mare, José
Relation: Automatica Vol. 45, Issue 5, p. 1280-1284
Publisher Link: http://dx.doi.org/10.1016/j.automatica.2008.12.022
Publisher: Elsevier
Resource Type: journal article
Date: 2009
Description: The input-state linear horizon (ISLH) for a nonlinear discrete-time system is defined as the smallest number of time steps it takes the system input to appear nonlinearly in the state variable. In this paper, we employ the latter concept and show that the class of constraint admissible N-step affine state-feedback policies is equivalent to the associated class of constraint admissible disturbance-feedback policies, provided that N is less than the system’s ISLH. The result generalizes a recent result in [Goulart, P. J., Kerrigan, E. C., Maciejowski, J. M. (2006). Optimization over state feedback policies for robust control with constraints. Automatica, 42(4), 523–533] and is significant because it enables one: (i) to determine a constraint admissible state-feedback policy by employing well-known convex optimization techniques; and (ii) to guarantee robust recursive feasibility of a class of model predictive control (MPC) policies by imposing a suitable terminal constraint. In particular, we propose an input-to-state stabilizing MPC policy for a class of nonlinear systems with bounded disturbance inputs and mixed polytopic constraints on the state and the control input. At each time step, the proposed MPC policy requires the solution of a single convex quadratic programme parameterized by the current system state.
Subject: constrained control; predictive control; nonlinear systems
Identifier: uon:7138
Identifier: http://hdl.handle.net/1959.13/806551
Identifier: ISSN:0005-1098
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