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RCAMP: A resilient communication-aware motion planner for mobile robots with autonomous repair of wireless connectivity

Mobile robots, be it autonomous or teleoperated, require stable communication with the base station to exchange valuable information. Given the stochastic elements in radio signal propagation, such as shadowing and fading, and the possibilities of unpredictable events or hardware failures, communica...

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Main Authors:	Caccamo, Sergio, Parasuraman, Ramviyas, Freda, Luigi, Gianni, Mario, Ogren, Petter
Format:	Conference Proceeding
Language:	English
Subjects:	Communication-Aware Motion Planning Mobile robots Planning Robot sensing systems Self-Repair Signal to noise ratio Wireless communication Wireless sensor networks
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container_end_page	2017
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container_start_page	2010
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creator	Caccamo, Sergio Parasuraman, Ramviyas Freda, Luigi Gianni, Mario Ogren, Petter
description	Mobile robots, be it autonomous or teleoperated, require stable communication with the base station to exchange valuable information. Given the stochastic elements in radio signal propagation, such as shadowing and fading, and the possibilities of unpredictable events or hardware failures, communication loss often presents a significant mission risk, both in terms of probability and impact, especially in Urban Search and Rescue (USAR) operations. Depending on the circumstances, disconnected robots are either abandoned, or attempt to autonomously back-trace their way to the base station. Although recent results in Communication-Aware Motion Planning can be used to effectively manage connectivity with robots, there are no results focusing on autonomously re-establishing the wireless connectivity of a mobile robot without back-tracing or using detailed a priori information of the network. In this paper, we present a robust and online radio signal mapping method using Gaussian Random Fields, and propose a Resilient Communication-Aware Motion Planner (RCAMP) that integrates the above signal mapping framework with a motion planner. RCAMP considers both the environment and the physical constraints of the robot, based on the available sensory information. We also propose a self-repair strategy using RCMAP, that takes both connectivity and the goal position into account when driving to a connection-safe position in the event of a communication loss. We demonstrate the proposed planner in a set of realistic simulations of an exploration task in single or multi-channel communication scenarios.
doi_str_mv	10.1109/IROS.2017.8206020
format	conference_proceeding
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source	IEEE Xplore All Conference Series
subjects	Communication-Aware Motion Planning Mobile robots Planning Robot sensing systems Self-Repair Signal to noise ratio Wireless communication Wireless sensor networks
title	RCAMP: A resilient communication-aware motion planner for mobile robots with autonomous repair of wireless connectivity
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