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A supervisory control policy over an acoustic communication network

This paper presents a supervisory multi-agent control policy over an acoustic communication network subject to imperfections (packet dropout and transmission delay) for localisation of an underwater flow source (e.g., source of chemical pollution, fresh water, etc.) with an unknown location at the b...

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Published in:	International journal of control 2015-05, Vol.88 (5), p.946-958
Main Authors:	Farhadi, Alireza, Dumon, Jonathan, Canudas-de-Wit, Carlos
Format:	Article
Language:	English
Subjects:	Acoustics Automatic Communication Communication networks Communications networks Control systems Delay Engineering Sciences Freshwater multi-agent system networked control system Optimization Policies Pollution sources Simulation Strategy supervisory control Transmissions (automotive) Underwater
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container_end_page	958
container_issue	5
container_start_page	946
container_title	International journal of control
container_volume	88
creator	Farhadi, Alireza Dumon, Jonathan Canudas-de-Wit, Carlos
description	This paper presents a supervisory multi-agent control policy over an acoustic communication network subject to imperfections (packet dropout and transmission delay) for localisation of an underwater flow source (e.g., source of chemical pollution, fresh water, etc.) with an unknown location at the bottom of the ocean. A two-loop control policy combined with a coding strategy for reliable communication is presented to perform the above task. A simulator is developed and used to evaluate the trade-offs between quality of communication, transmission delay and control for a fleet of autonomous underwater vehicles supervised over a noisy acoustic communication network by an autonomous surface vessel. It is illustrated that without compensation of the effects of severe random packet dropout, localisation of an unknown underwater flow source is not possible for the condition simulated just by implementing a two-loop control policy. But a two-loop control policy combined with a strategy for reliable communication locates the unknown location of flow source.
doi_str_mv	10.1080/00207179.2014.986201
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subjects	Acoustics Automatic Communication Communication networks Communications networks Control systems Delay Engineering Sciences Freshwater multi-agent system networked control system Optimization Policies Pollution sources Simulation Strategy supervisory control Transmissions (automotive) Underwater
title	A supervisory control policy over an acoustic communication network
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