Title :
On the control of the algebraic connectivity and clustering of a mobile robotic network
Author_Institution :
Networked Controlled Syst. (NeCS) Team, Inria Grenoble Rhone-Alpes, St. Ismier, France
Abstract :
In this paper two related problems are studied: the control of the algebraic connectivity and clustering of a network of single-integrator agents. A steepest-descent algorithm is presented for the first problem, so that a smooth approximation of the algebraic connectivity of the underlying undirected communication graph converges to an assigned value. For the second problem, a new gradient-based control strategy is proposed to automatically partition the mobile robotic network into two predefined groups: our spectral-clustering method leverages a continuous-time power-iteration algorithm on the normalized Laplacian matrix which provides an estimate of its Fiedler vector at each time instant. The results of numerical simulations are provided to illustrate our theoretical findings.
Keywords :
Laplace equations; algebra; approximation theory; gradient methods; graph theory; matrix algebra; mobile robots; pattern clustering; Fiedler vector estimation; continuous-time power-iteration algorithm; gradient-based control strategy; mobile robotic network clustering; normalized Laplacian matrix; numerical simulations; single-integrator agents; smooth approximation; spectral-clustering method; steepest-descent algorithm; undirected communication graph; Clustering algorithms; Cost function; Eigenvalues and eigenfunctions; Laplace equations; Robots; Symmetric matrices; Vectors;
Conference_Titel :
Control Conference (ECC), 2013 European
