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Informal Systems Seminar (ISS), Centre for Intelligent Machines (CIM) and Groupe d'Etudes et de Recherche en Analyse des Decisions (GERAD)

On the Minimum Principle and Dynamic Programming for Hybrid Systems with Low Dimensional Switching Manifolds


Ali Pakniyat
Electrical and Computer Engineering McGill University

November 20, 2015 at  12:00 AM
McConnell Engineering Room 437

Motivated by collision and rendez-vous problems in mechanical systems, the generalization of hybrid optimal control theory is discussed in order to cover the class of hybrid systems with low dimensional switching manifolds. To this end, a class of hybrid systems with both autonomous and controlled switchings and jumps is considered where switching manifolds corresponding to autonomous switchings and jumps are allowed to be codimension k submanifolds in R^n with k in {1, 2, ... , n}. Optimal control problems associated to this class of hybrid systems are studied where in addition to running and terminal costs, costs associated to switching between discrete states are allowed. Statements of the Hybrid Minimum Principle and Hybrid Dynamic Programming as well as their relationship are presented in this general setting and an illustrative example is provided.
This is joint work with Peter E. Caines.