ERASOR2: Instance-Aware Robust 3D Mapping of the Static World in Dynamic Scenes

Robotics: Science and Systems XIX Pub Date : 2023-07-10 DOI:10.15607/RSS.2023.XIX.067

Hyungtae Lim, Lucas Nunes, Benedikt Mersch, Xieyunali Chen, J. Behley, H. Myung, C. Stachniss

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引用次数: 2

Abstract

—A map of the environment is an essential component for robotic navigation. In the majority of cases, a map of the static part of the world is the basis for localization, planning, and navigation. However, dynamic objects that are presented in the scenes during mapping leave undesirable traces in the map, which can impede mobile robots from achieving successful robotic navigation. To remove the artifacts caused by dynamic objects in the map, we propose a novel instance-aware map building method. Our approach rejects dynamic points at an instance-level while preserving most static points by exploiting instance segmentation estimates. Furthermore, we propose effective ways to consider the erroneous estimates of instance segmentation, enabling our proposed method to be robust even under imprecise instance segmentation. As demonstrated in our experimental evaluation, our approach shows substantial performance increases in terms of both, the preservation of static points and rejection of dynamic points. Our code is available at https://github.com/url-kaist/ERASOR2 .

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ERASOR2:动态场景中静态世界的实例感知鲁棒3D映射

环境地图是机器人导航的重要组成部分。在大多数情况下，世界静态部分的地图是定位、规划和导航的基础。然而，在绘制过程中，场景中呈现的动态物体会在地图上留下不希望看到的痕迹，这可能会阻碍移动机器人实现成功的机器人导航。为了消除地图中动态对象造成的伪影，提出了一种新的基于实例的地图构建方法。我们的方法在实例级拒绝动态点，同时通过利用实例分割估计保留大多数静态点。此外，我们提出了有效的方法来考虑实例分割的错误估计，使我们提出的方法即使在不精确的实例分割下也具有鲁棒性。正如我们的实验评估所证明的那样，我们的方法在静态点的保存和动态点的拒绝两方面都显示出实质性的性能提高。我们的代码可在https://github.com/url-kaist/ERASOR2上获得。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Robotics: Science and Systems XIX

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