Quasi-Random, Maneoeuvre-Based Motion Planning Algorithm for Autonomous Underwater Vehicles
| Authors: | Tan Chiew Seon, The University of Plymouth, United Kingdom
Sutton Robert, The University of Plymouth, United Kingdom
Chudley John, The University of Plymouth, United Kingdom |
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| Topic: | 7.2 Marine Systems |
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| Session: | Marine Systems I |
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| Keywords: | Hybrid system, Manoeuvre Automaton, Dynamics quantisation, Optimal motion planning, Motion primitives |
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Abstract
This paper presents an approach using a hybrid modelling techniqueknown as Manoeuvre Automaton (MA) to capture the key dynamics of a nonlinearautonomous underwater vehicle (AUV) in such a way that high-level tasks suchas optimal motion planning can be computationally simplified while still allowingit to perform complicated manoeuvres when the situation arises. With respectto motion planning in an obstacle filled environment, an incremental stochastictechnique derived from the Rapid-exploring Random Tree (RRT) algorithm isapplied. This paper proposes a multiple nested node version of RRT and alsoaddresses the case of a time varying final state. Simulation results as presented,using a 3 degree-of-freedom (DOF) AUV model in order to prove the viability ofthe concept. Copyright c° 2005 IFAC
