Event-Triggering in Distributed Networked Control Systems

This paper examines event-triggered data transmission in distributed networked control systems with packet loss and transmission delays. We propose a distributed event-triggering scheme, where a subsystem broadcasts its state information to its neighbors only when the subsystem's local state er...

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Veröffentlicht in:	IEEE transactions on automatic control Jg. 56; H. 3; S. 586 - 601
Hauptverfasser:	Xiaofeng Wang, Lemmon, M D
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	New York, NY IEEE 01.03.2011 Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Schlagworte:	Applied sciences Asymptotic properties Broadcasting Communication system control Computer science; control theory; systems Computer systems and distributed systems. User interface Control system analysis Control systems Control theory. Systems Costs Delay Design engineering Distributed systems Dropouts event-triggering Exact sciences and technology Filtering theory Linear matrix inequalities Linear systems Networked control systems networked control systems (NCS) Nonlinearity Postal services Process control. Computer integrated manufacturing Propagation losses Sampled data Software Packet switching Decision making Deadline event-triggering Distributed system Transmission zero Transmission time Bounded delay Multicast Asymptotic stability Input to state stability Distributed systems Distributed control Linear matrix inequality Data transmission network Feasibility Finite gain Transmission loss networked control systems (NCS) Triggering Discrete event system
ISSN:	0018-9286, 1558-2523
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Zusammenfassung:	This paper examines event-triggered data transmission in distributed networked control systems with packet loss and transmission delays. We propose a distributed event-triggering scheme, where a subsystem broadcasts its state information to its neighbors only when the subsystem's local state error exceeds a specified threshold. In this scheme, a subsystem is able to make broadcast decisions using its locally sampled data. It can also locally predict the maximal allowable number of successive data dropouts (MANSD) and the state-based deadlines for transmission delays. Moreover, the designer's selection of the local event for a subsystem only requires information on that individual subsystem. Our analysis applies to both linear and nonlinear subsystems. Designing local events for a nonlinear subsystem requires us to find a controller that ensures that subsystem to be input-to-state stable. For linear subsystems, the design problem becomes a linear matrix inequality feasibility problem. With the assumption that the number of each subsystem's successive data dropouts is less than its MANSD, we show that if the transmission delays are zero, the resulting system is finite-gain Lp stable. If the delays are bounded by given deadlines, the system is asymptotically stable. We also show that those state-based deadlines for transmission delays are always greater than a positive constant.
Bibliographie:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 ObjectType-Article-2 ObjectType-Feature-1 content type line 23
ISSN:	0018-9286 1558-2523
DOI:	10.1109/TAC.2010.2057951