Distributed
Multi-Robot Patrol: A Scalable and Fault-Tolerant Framework
Robotics
and Autonomous Systems, 61(12), pp. 1572-1587, Elsevier, Dec. 2013. DOI: 10.1016/j.robot.2013.06.011
Abstract
This
paper addresses the Multi-Robot Patrolling Problem, where agents must
coordinate their actions while continuously deciding which place to move next
after clearing their locations. This problem is commonly addressed using
centralized planners with global knowledge and/or calculating a priori routes
for all robots before the beginning of the mission. In this work, two
distributed techniques to solve the problem are proposed. These are motivated
by the need to adapt to the changes in the system at any time and the
possibility to add or remove patrolling agents (e.g., due to faults). The first
technique presented is greedy and aims to maximize robot’s local gain. The
second one is an extension of the former, which takes into account the distribution
of agents in the space to reduce interference and foster scalability. The
validation of the proposed solution is preliminarily conducted through
realistic simulations as well as experiments with robot platforms in a small
lab scenario. Subsequently, the work is verified in a large indoor real-world
environment with a team of autonomous mobile robots with scalability and
fault-tolerance assessment.
Keywords ─ Distributed systems; multi-robot
patrol; scalability; fault-tolerance; security.
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BibTeX
@ARTICLE(Portugal_et_al_13e,
AUTHOR = "Portugal, D. and Rocha, R. P.",
TITLE = "Distributed Multi-Robot Patrol: A Scalable and Fault-Tolerant Framework",
JOURNAL = "Robotics and Autonomous Systems",
VOLUME = "61",
NUMBER = "12"
YEAR = "2013",
MONTH = "Dec.",
PAGES = "1572-1587"
)
Last
update: 08/10/2014
Copyright ©
2014 Rui P. Rocha, Dep. of Electrical and Computer Engineering,