Feiya Li , Chunyun Fu , Dongye Sun , Jian Li , Jianwen Wang
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引用次数: 0
摘要
通过使用大量遥感数据的激光雷达传感器生成的点云图通常被自动驾驶车辆和机器人用于定位和导航。然而,点云图中包含的动态物体不仅会降低定位精度和导航性能,还会损害地图质量。为了应对这一挑战,我们在本文中提出了一种基于激光雷达点云的新型动态场景语义 SLAM 方法,以下简称 SD-SLAM。这项工作的主要贡献体现在三个方面:1)基于激光雷达点云为动态场景引入专用的语义 SLAM 框架;2)采用语义学和卡尔曼滤波技术有效区分动态和半静态地标;3)在 SD-SLAM 过程中充分利用半静态和纯静态地标的语义信息,提高定位和绘图性能。为了评估所提出的 SD-SLAM,我们使用广泛采用的 KITTI 测速数据集进行了测试。结果表明,所提出的 SD-SLAM 能有效减轻动态物体对 SLAM 的不利影响,提高车辆在动态场景中的定位和映射性能,并同时构建具有多个语义类别的静态语义地图,以增强对环境的理解。
SD-SLAM: A semantic SLAM approach for dynamic scenes based on LiDAR point clouds
Point cloud maps generated via LiDAR sensors using extensive remotely sensed data are commonly used by autonomous vehicles and robots for localization and navigation. However, dynamic objects contained in point cloud maps not only downgrade localization accuracy and navigation performance but also jeopardize the map quality. In response to this challenge, we propose in this paper a novel semantic SLAM approach for dynamic scenes based on LiDAR point clouds, referred to as SD-SLAM hereafter. The main contributions of this work are in three aspects: 1) introducing a semantic SLAM framework dedicatedly for dynamic scenes based on LiDAR point clouds, 2) employing semantics and Kalman filtering to effectively differentiate between dynamic and semi-static landmarks, and 3) making full use of semi-static and pure static landmarks with semantic information in the SD-SLAM process to improve localization and mapping performance. To evaluate the proposed SD-SLAM, tests were conducted using the widely adopted KITTI odometry dataset. Results demonstrate that the proposed SD-SLAM effectively mitigates the adverse effects of dynamic objects on SLAM, improving vehicle localization and mapping performance in dynamic scenes, and simultaneously constructing a static semantic map with multiple semantic classes for enhanced environment understanding.
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