Developing a Deterministic Patrolling Strategy for Security Agents

Developing autonomous systems that patrol environments for detecting intruders is a topic of increasing relevance in security applications. An important aspect of these systems is the patrolling strategy; namely, the determination of where to move in order to conveniently detect intrusions. While a...

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Bibliographic Details
Published in:	Proceedings of the 2009 IEEE/WIC/ACM International Joint Conference on Web Intelligence and Intelligent Agent Technology - Volume 02 Vol. 2; pp. 565 - 572
Main Authors:	Basilico, Nicola, Gatti, Nicola, Amigoni, Francesco
Format:	Conference Proceeding
Language:	English
Published:	Washington, DC, USA IEEE Computer Society 15.09.2009 IEEE
Series:	ACM Conferences
Subjects:	Computer systems organization > Embedded and cyber-physical systems > Robotics Computing methodologies > Artificial intelligence > Control methods > Robotic planning Computing methodologies > Artificial intelligence > Distributed artificial intelligence > Intelligent agents Computing methodologies > Artificial intelligence > Planning and scheduling Computing methodologies > Artificial intelligence > Planning and scheduling > Robotic planning Computing methodologies > Artificial intelligence > Search methodologies Computing methodologies > Artificial intelligence > Search methodologies > Discrete space search Computing methodologies > Artificial intelligence > Search methodologies > Game tree search Conferences constraint satisfaction problem Intelligent agent Mathematics of computing > Mathematical analysis > Mathematical optimization Mobile robots Protection Robotic patrolling with adversaries Security Sensor systems Theory of computation > Design and analysis of algorithms > Mathematical optimization traveling salesman problem Traveling salesman problems Utility theory Robotic patrolling with adversaries constraint satisfaction problem traveling salesman problem
ISBN:	0769538010, 9780769538013
Online Access:	Get full text
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Summary:	Developing autonomous systems that patrol environments for detecting intruders is a topic of increasing relevance in security applications. An important aspect of these systems is the patrolling strategy; namely, the determination of where to move in order to conveniently detect intrusions. While a large part of patrolling strategies proposed so far adopt some kind of random movements, deterministic strategies can be useful in some situations of interest. In this paper, we propose an approach to find a deterministic strategy that allows the patrolling agent to always detect an intruder that attempts to enter an environment. The problem is formulated as the determination of a cyclic path that visits, under temporal constraints, all the vertexes of a graph representing the environment. We propose a solving algorithm, study its properties, and experimentally evaluate it.
ISBN:	0769538010 9780769538013
DOI:	10.1109/WI-IAT.2009.212