Title :
Three-Dimensional Motion Coordination in a Spatiotemporal Flowfield
Author :
Hernandez, Sonia ; Paley, Derek A.
Author_Institution :
Dept. of Aerosp. Eng., Univ. of Texas at Austin, Austin, TX, USA
Abstract :
Decentralized algorithms to stabilize 3-D formations of unmanned vehicles in a flowfield that varies in space and time have applications in environmental monitoring in the atmosphere and ocean. In this note, we provide a Lyapunov-based control design to steer a system of self-propelled particles traveling in three dimensions at a constant speed relative to a spatiotemporal flowfield. We assume that the flow is known locally to each particle and that it does not exceed the particle speed. Multiple particles can be steered to form 3-D parallel or helical formations in a flowfield. Also presented are motion coordination results for a special case of the 3-D model in which the particles travel in a circular formation on the surface of a rotating sphere.
Keywords :
control system synthesis; decentralised control; motion control; multidimensional systems; remotely operated vehicles; spatiotemporal phenomena; 3D formations; Lyapunov-based control design; decentralized algorithms; environmental monitoring; multiple particles; particle speed; self-propelled particles; spatiotemporal flowfield; three-dimensional motion coordination; unmanned vehicles; Adaptation model; Aerospace electronics; Dynamics; Force; Heuristic algorithms; Solid modeling; Spatiotemporal phenomena; Cooperative systems; multiagent systems; nonlinear control systems;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2010.2070710
