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Event-driven optimization-based control of hybrid systems with integral continuous-time dynamics |
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| Authors: | S. Di Cairano [Author Vitae],A. Bemporad [Author Vitae],J. Jú lvez [Author Vitae] |
| Affiliation: | a Department of Information Engineering, University of Siena, Via Roma 56, Siena, Italy b Department of Software, Technical University of Catalonia, Jordi Girona 1-3, Barcelona, Spain c Powertrain Control Department, Ford Motor Company Research and Advanced Engineering, Dearborn, MI, USA |
| Abstract: | In this paper we introduce a class of continuous-time hybrid dynamical systems called integral continuous-time hybrid automata (icHA) for which we propose an event-driven optimization-based control strategy. Events include both external actions applied to the system and changes of continuous dynamics (mode switches). The icHA formalism subsumes a number of hybrid dynamical systems with practical interest, e.g., linear hybrid automata. Different cost functions, including minimum-time and minimum-effort criteria, and constraints are examined in the event-driven optimal control formulation. This is translated into a finite-dimensional mixed-integer optimization problem, in which the event instants and the corresponding values of the control input are the optimization variables. As a consequence, the proposed approach has the advantage of automatically adjusting the attention of the controller to the frequency of event occurrence in the hybrid process. A receding horizon control scheme exploiting the event-based optimal control formulation is proposed as a feedback control strategy and proved to ensure either finite-time or asymptotic convergence of the closed-loop. |
| Keywords: | Hybrid systems Discrete-event systems Optimal control Model predictive control Mixed-integer programming |
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