Dynamic SLAM: The Need For Speed

02/20/2020

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The static world assumption is standard in most simultaneous localisation and mapping (SLAM) algorithms. Increased deployment of autonomous systems to unstructured dynamic environments is driving a need to identify moving objects and estimate their velocity in real-time. Most existing SLAM based approaches rely on a database of 3D models of objects or impose significant motion constraints. In this paper, we propose a new feature-based, model-free, object-aware dynamic SLAM algorithm that exploits semantic segmentation to allow estimation of motion of rigid objects in a scene without the need to estimate the object poses or have any prior knowledge of their 3D models. The algorithm generates a map of dynamic and static structure and has the ability to extract velocities of rigid moving objects in the scene. Its performance is demonstrated on simulated, synthetic and real-world datasets.

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Dynamic SLAM: The Need For Speed

VDO-SLAM: A Visual Dynamic Object-aware SLAM System

Simultaneous Localization and Mapping with Dynamic Rigid Objects

DymSLAM:4D Dynamic Scene Reconstruction Based on Geometrical Motion Segmentation

An Orientation Factor for Object-Oriented SLAM

Removing Dynamic Objects for Static Scene Reconstruction using Light Fields

Incremental learning of environment interactive structures from trajectories of individuals

GMC: Grid Based Motion Clustering in Dynamic Environment

Dynamic SLAM: The Need For Speed

Related Research

VDO-SLAM: A Visual Dynamic Object-aware SLAM System

Simultaneous Localization and Mapping with Dynamic Rigid Objects

DymSLAM:4D Dynamic Scene Reconstruction Based on Geometrical Motion Segmentation

An Orientation Factor for Object-Oriented SLAM

Removing Dynamic Objects for Static Scene Reconstruction using Light Fields

Incremental learning of environment interactive structures from trajectories of individuals

GMC: Grid Based Motion Clustering in Dynamic Environment