HectorGrapher:具有多分辨率签名距离函数配准的具有挑战性地形的连续时间激光雷达SLAM

2021 IEEE International Symposium on Safety, Security, and Rescue Robotics (SSRR) Pub Date : 2021-10-25 DOI:10.1109/SSRR53300.2021.9597690

Kevin Daun, Marius Schnaubelt, S. Kohlbrecher, O. Stryk

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引用次数: 4

摘要

为了在以前未知、非结构化和gps拒绝的环境中部署，自主移动救援机器人需要在这些环境中进行自我定位，并使用同步定位和映射(SLAM)方法创建该环境的地图。连续时间SLAM方法将姿态表示为时间连续估计，提供高精度，并允许纠正扫描捕获期间运动引起的扭曲。为了在具有挑战性的地形中实现鲁棒和精确的实时SLAM，我们提出了HectorGrapher，它通过连续时间姿态估计和基于多分辨率签名距离函数的鲁棒扫描配准实现精确定位。我们在多个公开可用的真实世界数据集以及机器人世界杯2021救援联盟的数据集中评估了该方法，在那里我们应用所提出的方法赢得了同类最佳“探索和测绘”奖。

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HectorGrapher: Continuous-time Lidar SLAM with Multi-resolution Signed Distance Function Registration for Challenging Terrain

For deployment in previously unknown, unstructured, and GPS-denied environments, autonomous mobile rescue robots need to localize themselves in such environments and create a map of it using a simultaneous localization and mapping (SLAM) approach. Continuous-time SLAM approaches represent the pose as a time-continuous estimate that provides high accuracy and allows correcting for distortions induced by motion during the scan capture. To enable robust and accurate real-time SLAM in challenging terrain, we propose HectorGrapher which enables accurate localization by continuous-time pose estimation and robust scan registration based on multiresolution signed distance functions. We evaluate the method in multiple publicly available real-world datasets, as well as a data set from the RoboCup 2021 Rescue League, where we applied the proposed method to win the Best-in-Class “Exploration and Mapping” Award.

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来源期刊

2021 IEEE International Symposium on Safety, Security, and Rescue Robotics (SSRR)

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