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Approximating optimal finite horizon feedback by model predictive control

Approximating optimal finite horizon feedback by model predictive control
Approximating optimal finite horizon feedback by model predictive control

We consider a finite-horizon continuous-time optimal control problem with nonlinear dynamics, an integral cost, control constraints and a time-varying parameter which represents perturbations or uncertainty. After discretizing the problem we employ a Model Predictive Control (MPC) approach by first solving the problem over the entire remaining time horizon and then applying the first element of the optimal discrete-time control sequence, as a constant in time function, to the continuous-time system over the sampling interval. Then the state at the end of the sampling interval is measured (estimated) with certain error, and the process is repeated at each step over the remaining horizon. As a result, we obtain a piecewise constant function of time representing MPC-generated control signal. Hence MPC turns out to be an approximation to the optimal feedback control for the continuous-time system. In our main result we derive an estimate of the difference between the MPC-generated state and control trajectories and the optimal feedback generated state and control trajectories, both obtained for the same value of the perturbation parameter, in terms of the step-size of the discretization and the measurement error. Numerical results illustrating our estimate are reported.

Discrete approximations, Error estimate, Model predictive control, Optimal feedback control, Parameter uncertainty
0167-6911
1-9
Dontchev, A.L.
080775ad-90b3-482d-95bd-a6dbfedaab9d
Kolmanovsky, I.V.
515bc1d2-7531-46b1-804f-628518f9d0c3
Krastanov, M.I
3eaa4283-e4a4-4cd7-879b-5be72979ac1f
Veliov, V.M.
69723e2e-1b2c-49e8-bf58-89b68ef17cc1
Vuong, P.T.
52577e5d-ebe9-4a43-b5e7-68aa06cfdcaf
Dontchev, A.L.
080775ad-90b3-482d-95bd-a6dbfedaab9d
Kolmanovsky, I.V.
515bc1d2-7531-46b1-804f-628518f9d0c3
Krastanov, M.I
3eaa4283-e4a4-4cd7-879b-5be72979ac1f
Veliov, V.M.
69723e2e-1b2c-49e8-bf58-89b68ef17cc1
Vuong, P.T.
52577e5d-ebe9-4a43-b5e7-68aa06cfdcaf

Dontchev, A.L., Kolmanovsky, I.V., Krastanov, M.I, Veliov, V.M. and Vuong, P.T. (2020) Approximating optimal finite horizon feedback by model predictive control. Systems & Control Letters, 139, 1-9, [104666]. (doi:10.1016/j.sysconle.2020.104666).

Record type: Article

Abstract

We consider a finite-horizon continuous-time optimal control problem with nonlinear dynamics, an integral cost, control constraints and a time-varying parameter which represents perturbations or uncertainty. After discretizing the problem we employ a Model Predictive Control (MPC) approach by first solving the problem over the entire remaining time horizon and then applying the first element of the optimal discrete-time control sequence, as a constant in time function, to the continuous-time system over the sampling interval. Then the state at the end of the sampling interval is measured (estimated) with certain error, and the process is repeated at each step over the remaining horizon. As a result, we obtain a piecewise constant function of time representing MPC-generated control signal. Hence MPC turns out to be an approximation to the optimal feedback control for the continuous-time system. In our main result we derive an estimate of the difference between the MPC-generated state and control trajectories and the optimal feedback generated state and control trajectories, both obtained for the same value of the perturbation parameter, in terms of the step-size of the discretization and the measurement error. Numerical results illustrating our estimate are reported.

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Accepted/In Press date: 24 February 2020
e-pub ahead of print date: 19 March 2020
Published date: May 2020
Additional Information: Funding Information: Supported by the National Science Foundation Award Number CMMI 1562209, the Austrian Science Foundation (FWF) Grant P26640-N25, and the Australian Research Council (ARC) Project DP160100854.Supported by the National Science Foundation Award Number CMMI 1562209.Supported by the Bulgarian National Science Fund under Grant KP-06-H22/4/04.12.2018..Supported by Austrian Science Foundation (FWF) Grant P31400-N32.Supported by Austrian Science Foundation (FWF) Grant P26640-N25. Publisher Copyright: © 2020 Elsevier B.V.
Keywords: Discrete approximations, Error estimate, Model predictive control, Optimal feedback control, Parameter uncertainty

Identifiers

Local EPrints ID: 438707
URI: http://eprints.soton.ac.uk/id/eprint/438707
ISSN: 0167-6911
PURE UUID: 9a1cc7dc-fad3-4bb1-bc37-07858106df26
ORCID for P.T. Vuong: ORCID iD orcid.org/0000-0002-1474-994X

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Date deposited: 23 Mar 2020 17:30
Last modified: 06 Jun 2024 04:17

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Contributors

Author: A.L. Dontchev
Author: I.V. Kolmanovsky
Author: M.I Krastanov
Author: V.M. Veliov
Author: P.T. Vuong ORCID iD

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