Cooperative Control Design

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A Systematic, Passivity-Based Approach, Communications and Control Engineering

ISBN: 1461400139
ISBN 13: 9781461400134
Autor: Bai, He/Arcak, Murat/Wen, John
Verlag: Springer Verlag GmbH
Umfang: xiv, 210 S.
Erscheinungsdatum: 21.06.2011
Auflage: 1/2011
Produktform: Gebunden/Hardback
Einband: GEB

Cooperative Control Design: A Systematic, Passivity-Based Approach discusses multi-agent coordination problems, including formation control, attitude coordination, and agreement. The book introduces passivity as a design tool for multi-agent systems, provides exemplary work using this tool,and illustrates its advantages in designing robust cooperative control algorithms. The discussion begins with an introduction to passivity and demonstrates how passivity can be used as a design tool for motion coordination.This is followed by adaptive designs for reference velocity recovery, including a basic design and a modified design with enhanced parameter convergence properties. Formation control is presented as an example illustrating the passivity-based framework and its adaptive designs. The coverage is concluded with a comprehensive discussion of the agreement problem with examples using attitude dynamics and Euler- Lagrangian systems. Cooperative Control Design: A Systematic, Passivity-Based Approach is an ideal volume for researchers and engineers working in control and engineering design.

Artikelnummer: 1730448 Kategorie:

Beschreibung

Cooperative Control Design: A Systematic, Passivity-Based Approach discusses multi-agent coordination problems, including formation control, attitude coordination, and synchronization. The goal of the book is to introduce passivity as a design tool for multi-agent systems, to provide exemplary work using this tool, and to illustrate its advantages in designing robust cooperative control algorithms. The discussion begins with an introduction to passivity and demonstrates how passivity can be used as a design tool for motion coordination. Followed by the case of adaptive redesigns for reference velocity recovery while describing a basic design, a modified design and the parameter convergence problem. Formation control is presented as it relates to relative distance control and relative position control. The coverage is concluded with a comprehensive discussion of agreement and the synchronization problem with an example using attitude coordination.

Inhaltsverzeichnis

1 Introduction.- 2 Passivity As a Design Tool for Cooperative Control.- 3 Adaptive Design for Reference Velocity Recovery: Internal Model Approach.- 4 Adaptive Design for Reference Velocity Recovery: Parameterization Approach.- 5 Attitude CoordinationWithout Inertial Frame Information.- 6 The Agreement of Euler-Lagrange Systems.- 7 Synchronized Path Following.- 8 Cooperative Load Transport.- 9 Caveats for Robustness.

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