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Maneuver-based motion planning for nonlinear systems with symmetries

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3 Author(s)
Frazzoli, E. ; Mech. & Aerosp. Eng. Dept., Univ. of California Los Angeles, CA, USA ; Dahleh, M.A. ; Feron, E.

In this paper, we introduce an approach for the efficient solution of motion-planning problems for time-invariant dynamical control systems with symmetries, such as mobile robots and autonomous vehicles, under a variety of differential and algebraic constraints on the state and on the control inputs. Motion plans are described as the concatenation of a number of well-defined motion primitives, selected from a finite library. Rules for the concatenation of primitives are given in the form of a regular language, defined through a finite-state machine called a Maneuver Automaton. We analyze the reachability properties of the language, and present algorithms for the solution of a class of motion-planning problems. In particular, it is shown that the solution of steering problems for nonlinear dynamical systems with symmetries and invariant constraints can be reduced to the solution of a sequence of kinematic inversion problems. A detailed example of the application of the proposed approach to motion planning for a small aerobatic helicopter is presented.

Published in:

Robotics, IEEE Transactions on  (Volume:21 ,  Issue: 6 )

Date of Publication:

Dec. 2005

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