A. Williams scite author profile

This paper investigates a method for decentralized stabilization of vehicle formations using techniques from algebraic graph theory. The vehicles exchange information according to a pre-specified communication digraph, G. A feedback control is designed using relative information between a vehicle and its in-neighbors in G. We prove that a necessary and sufficient condition for an appropriate decentralized linear stabilizing feedback to exist is that G has a rooted directed spanning tree. We show the direct relationship between the rate of convergence to formation and the eigenvalues of the (directed) Laplacian of G. Various special situations are discussed, including symmetric communication graphs and formations with leaders. Several numerical simulations are used to illustrate the results.

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Flocks and Formations

Veerman

Lafferriere

Caughman

et al. 2005

J Stat Phys

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Formations of formations: hierarchy and stability

Williams

Glavaski

Samad

2004

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Stable motions of vehicle formations

Williams

Lafferriere

Veerman

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Graph theoretic methods in the stability of vehicle formations

Lafferriere

Caughman

Williams

2004

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A. Williams

Decentralized control of vehicle formations

Flocks and Formations

Formations of formations: hierarchy and stability

Stable motions of vehicle formations

Graph theoretic methods in the stability of vehicle formations

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