期刊
JOURNAL OF FIELD ROBOTICS
卷 36, 期 8, 页码 1333-1344出版社
WILEY
DOI: 10.1002/rob.21907
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资金
- Ministerio de Economia y Competitividad [DPI2017-86372-C3-2-R, TWINBOT-Girona1000]
This paper presents experimental results using a newly developed 3D underwater laser scanner mounted on an autonomous underwater vehicle (AUV) for real-time simultaneous localization and mapping (SLAM). The algorithm consists of registering point clouds using a dual step procedure. First, a feature-based coarse alignment is performed, which is then refined using iterative closest point. The robot position is estimated using an extended Kalman filter (EKF) that fuses the data coming from navigation sensors of the AUV. Moreover, the pose from where each point cloud was collected is also stored in the pose-based EKF-SLAM state vector. The results of the registration algorithm are used as constraint observations among the different poses within the state vector, solving the full-SLAM problem. The method is demonstrated using the Girona 500 AUV, equipped with a laser scanner and inspecting a 3D sub-sea infrastructure inside a water tank. Our results prove that it is possible to limit the navigation drift and deliver a consistent high-accuracy 3D map of the inspected object.
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