Compositional Modeling and Analysis of Multi-Hop Control Networks

We propose a mathematical framework for modeling and analyzing multi-hop control networks designed for systems consisting of multiple control loops closed over a multi-hop (wireless) communication network. We separate control, topology, routing, and scheduling and propose formal syntax and semantics...

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Veröffentlicht in:	IEEE transactions on automatic control 2011-10, Vol.56 (10), p.2345-2357
Hauptverfasser:	Alur, R., D'Innocenzo, A., Johansson, K. H., Pappas, G. J., Weiss, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Communications networks Compositional analysis Computational modeling Control systems Dynamical systems Dynamics Failure Links Mathematical models multi-hop sensor and actuator networks networked control Networks Schedules Sensors Spread spectrum communication Studies Switching theory Wireless communication Wireless networks Wireless sensor networks
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creator	Alur, R. D'Innocenzo, A. Johansson, K. H. Pappas, G. J. Weiss, G.
description	We propose a mathematical framework for modeling and analyzing multi-hop control networks designed for systems consisting of multiple control loops closed over a multi-hop (wireless) communication network. We separate control, topology, routing, and scheduling and propose formal syntax and semantics for the dynamics of the composed system, providing an explicit translation of multi-hop control networks to switched systems. We propose formal models for analyzing robustness of multi-hop control networks, where data is exchanged through a multi-hop communication network subject to disruptions. When communication disruptions are long, compared to the speed of the control system, we propose to model them as permanent link failures. We show that the complexity of analyzing such failures is NP-hard, and discuss a way to overcome this limitation for practical cases using compositional analysis. For typical packet transmission errors, we propose a transient error model where links fail for one time slot independently of the past and of other links. We provide sufficient conditions for almost sure stability in presence of transient link failures, and give efficient decision procedures. We deal with errors that have random time span and show that, under some conditions, the permanent failure model can be used as a reliable abstraction. Our approach is compositional, namely it addresses the problem of designing scalable scheduling and routing policies for multiple control loops closed on the same multi-hop control network. We describe how the translation of multi-hop control networks to switched systems can be automated, and use it to solve control and networking co-design challenges in some representative examples, and to propose a scheduling solution in a mineral floatation control problem that can be implemented on a time triggered communication protocols for wireless networks.
doi_str_mv	10.1109/TAC.2011.2163873
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subjects	Communications networks Compositional analysis Computational modeling Control systems Dynamical systems Dynamics Failure Links Mathematical models multi-hop sensor and actuator networks networked control Networks Schedules Sensors Spread spectrum communication Studies Switching theory Wireless communication Wireless networks Wireless sensor networks
title	Compositional Modeling and Analysis of Multi-Hop Control Networks
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