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Onboard dynamic RGB‐D simultaneous localization and mapping for mobile robot navigation

Bruce Canovas, Amaury Nègre, Michèle Rombaut

Year
2021
Citations
17

Abstract

Although the actual visual simultaneous localization and mapping (SLAM) algorithms provide highly accurate tracking and mapping, most algorithms are too heavy to run live on embedded devices. In addition, the maps they produce are often unsuitable for path planning. To mitigate these issues, we propose a completely closed-loop online dense RGB-D SLAM algorithm targeting autonomous indoor mobile robot navigation tasks. The proposed algorithm runs live on an NVIDIA Jetson board embedded on a two-wheel differential-drive robot. It exhibits lightweight three-dimensional mapping, room-scale consistency, accurate pose tracking, and robustness to moving objects. Further, we introduce a navigation strategy based on the proposed algorithm. Experimental results demonstrate the robustness of the proposed SLAM algorithm, its computational efficiency, and its benefits for on-the-fly navigation while mapping.

Keywords

Robustness (evolution)Simultaneous localization and mappingMobile robotComputer visionComputer scienceArtificial intelligenceRobotRGB color modelMotion planningMobile robot navigation

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