Title :
Curve Shortening and the Rendezvous Problem for Mobile Autonomous Robots
Author :
Smith, Stephen L. ; Broucke, Mireille E. ; Francis, B.A.
Author_Institution :
Univ. of California, Santa Barbara
fDate :
6/1/2007 12:00:00 AM
Abstract :
If a smooth, closed, and embedded curve is deformed along its normal vector field at a rate proportional to its curvature, it shrinks to a circular point. This curve evolution is called Euclidean curve shortening and the result is known as the Gage-Hamilton-Grayson theorem. Motivated by the rendezvous problem for mobile autonomous robots, we address the problem of creating a polygon shortening flow. A linear scheme is proposed that exhibits several analogues to Euclidean curve shortening: The polygon shrinks to an elliptical point, convex polygons remain convex, and the perimeter of the polygon is monotonically decreasing.
Keywords :
mobile robots; Euclidean curve; Gage-Hamilton-Grayson theorem; convex polygons; curve shortening; linear scheme; mobile autonomous robots; normal vector field; polygon shortening; rendezvous problem; Control systems; Linear approximation; Linear feedback control systems; Mobile robots; Nonlinear control systems; Nonlinear equations; Nonlinear systems; Polynomials; Robot kinematics; Sampling methods; Curve shortening; distributed control; mobile autonomous robots;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2007.899024
