Title :
Optimal Design for Synchronization of Cooperative Systems: State Feedback, Observer and Output Feedback
Author :
Zhang, Hongwei ; Lewis, Frank L. ; Das, Abhijit
Author_Institution :
Autom. & Robot. Res. Inst., Univ. of Texas at Arlington, Fort Worth, TX, USA
Abstract :
This technical note studies synchronization of identical general linear systems on a digraph containing a spanning tree. A leader node or command generator is considered, which generates the desired tracking trajectory. A framework for cooperative tracking control is proposed, including full state feedback control, observer design and dynamic output feedback control. The classical system theory notion of duality is extended to networked systems. It is shown that unbounded synchronization regions that achieve synchronization on arbitrary digraphs containing a spanning tree can be guaranteed by using linear quadratic regulator based optimal control and observer design methods at each node.
Keywords :
control system synthesis; cooperative systems; directed graphs; duality (mathematics); linear quadratic control; linear systems; networked control systems; observers; position control; state feedback; synchronisation; trees (mathematics); command generator; cooperative systems; cooperative tracking control; digraph; duality; identical general linear systems; linear quadratic regulator; networked systems; observer; optimal design; output feedback; spanning tree; state feedback; synchronization; trajectory tracking; Couplings; Lead; Linear systems; Observers; Output feedback; Protocols; Synchronization; Cooperative control; duality; linear systems; observer; output feedback; synchronization;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2011.2139510
