Towards Coordinated Multirobot Missions for Lunar Sample Collection in an Unknown Environment

In this paper, the recent results of the space project IMPERA are presented. The goal of IMPERA is the development of a multirobot planning and plan execution architecture with a focus on a lunar sample collection scenario in an unknown environment. We describe the implementation and verification of...

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Veröffentlicht in:	Journal of field robotics 2014-01, Vol.31 (1), p.35-74
Hauptverfasser:	Eich, Markus, Hartanto, Ronny, Kasperski, Sebastian, Natarajan, Sankaranarayanan, Wollenberg, Johannes
Format:	Artikel
Sprache:	eng
Schlagworte:	Collection Missions Modules Multirobots Perception Robots Skills Unknown environments
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container_end_page	74
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container_title	Journal of field robotics
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creator	Eich, Markus Hartanto, Ronny Kasperski, Sebastian Natarajan, Sankaranarayanan Wollenberg, Johannes
description	In this paper, the recent results of the space project IMPERA are presented. The goal of IMPERA is the development of a multirobot planning and plan execution architecture with a focus on a lunar sample collection scenario in an unknown environment. We describe the implementation and verification of different modules that are integrated into a distributed system architecture. The modules include a mission planning approach for a multirobot system and modules for task and skill execution within a lunar use‐case scenario. The skills needed for the test scenario include cooperative exploration and mapping strategies for an unknown environment, the localization and classification of sample containers using a novel approach of semantic perception, and the skill of transporting sample containers to a collection point using a mobile manipulation robot. Additionally, we present our approach of a reliable communication framework that can deal with communication loss during the mission. Several modules are tested within several experiments in the domain of planning and plan execution, communication, coordinated exploration, perception, and object transportation. An overall system integration is tested on a mission scenario experiment using three robots.
doi_str_mv	10.1002/rob.21491
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subjects	Collection Missions Modules Multirobots Perception Robots Skills Unknown environments
title	Towards Coordinated Multirobot Missions for Lunar Sample Collection in an Unknown Environment
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