Distributed Formation Control of Multi-Agent Systems Using Complex Laplacian

The paper concentrates on the fundamental coordination problem that requires a network of agents to achieve a specific but arbitrary formation shape. A new technique based on complex Laplacian is introduced to address the problems of which formation shapes specified by inter-agent relative positions...

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Published in	IEEE transactions on automatic control Vol. 59; no. 7; pp. 1765 - 1777
Main Authors	Lin, Zhiyun, Wang, Lili, Han, Zhimin, Fu, Minyue
Format	Journal Article
Language	English
Published	New York IEEE 01.07.2014 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Agents (artificial intelligence) Concentrates Control systems distributed control Eigenvalues Eigenvalues and eigenfunctions Expert systems formation Formations graph Laplacian Laplace equations Law Linear control Multi-agent systems Nickel Shape Shape control Specifications Stability Stability analysis Vectors Distributed control multi-agent systems formation graph Laplacian stability
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Abstract	The paper concentrates on the fundamental coordination problem that requires a network of agents to achieve a specific but arbitrary formation shape. A new technique based on complex Laplacian is introduced to address the problems of which formation shapes specified by inter-agent relative positions can be formed and how they can be achieved with distributed control ensuring global stability. Concerning the first question, we show that all similar formations subject to only shape constraints are those that lie in the null space of a complex Laplacian satisfying certain rank condition and that a formation shape can be realized almost surely if and only if the graph modeling the inter-agent specification of the formation shape is 2-rooted. Concerning the second question, a distributed and linear control law is developed based on the complex Laplacian specifying the target formation shape, and provable existence conditions of stabilizing gains to assign the eigenvalues of the closed-loop system at desired locations are given. Moreover, we show how the formation shape control law is extended to achieve a rigid formation if a subset of knowledgable agents knowing the desired formation size scales the formation while the rest agents do not need to re-design and change their control laws.
AbstractList	The paper concentrates on the fundamental coordination problem that requires a network of agents to achieve a specific but arbitrary formation shape. A new technique based on complex Laplacian is introduced to address the problems of which formation shapes specified by inter-agent relative positions can be formed and how they can be achieved with distributed control ensuring global stability. Concerning the first question, we show that all similar formations subject to only shape constraints are those that lie in the null space of a complex Laplacian satisfying certain rank condition and that a formation shape can be realized almost surely if and only if the graph modeling the inter-agent specification of the formation shape is 2-rooted. Concerning the second question, a distributed and linear control law is developed based on the complex Laplacian specifying the target formation shape, and provable existence conditions of stabilizing gains to assign the eigenvalues of the closed-loop system at desired locations are given. Moreover, we show how the formation shape control law is extended to achieve a rigid formation if a subset of knowledgable agents knowing the desired formation size scales the formation while the rest agents do not need to re-design and change their control laws.
Author	Zhimin Han Zhiyun Lin Lili Wang Minyue Fu
Author_xml	– sequence: 1 givenname: Zhiyun surname: Lin fullname: Lin, Zhiyun – sequence: 2 givenname: Lili surname: Wang fullname: Wang, Lili – sequence: 3 givenname: Zhimin surname: Han fullname: Han, Zhimin – sequence: 4 givenname: Minyue surname: Fu fullname: Fu, Minyue
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Snippet	The paper concentrates on the fundamental coordination problem that requires a network of agents to achieve a specific but arbitrary formation shape. A new...
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SubjectTerms	Agents (artificial intelligence) Concentrates Control systems distributed control Eigenvalues Eigenvalues and eigenfunctions Expert systems formation Formations graph Laplacian Laplace equations Law Linear control Multi-agent systems Nickel Shape Shape control Specifications Stability Stability analysis Vectors
Title	Distributed Formation Control of Multi-Agent Systems Using Complex Laplacian
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