1,030 research outputs found
Incremental Visual-Inertial 3D Mesh Generation with Structural Regularities
Visual-Inertial Odometry (VIO) algorithms typically rely on a point cloud
representation of the scene that does not model the topology of the
environment. A 3D mesh instead offers a richer, yet lightweight, model.
Nevertheless, building a 3D mesh out of the sparse and noisy 3D landmarks
triangulated by a VIO algorithm often results in a mesh that does not fit the
real scene. In order to regularize the mesh, previous approaches decouple state
estimation from the 3D mesh regularization step, and either limit the 3D mesh
to the current frame or let the mesh grow indefinitely. We propose instead to
tightly couple mesh regularization and state estimation by detecting and
enforcing structural regularities in a novel factor-graph formulation. We also
propose to incrementally build the mesh by restricting its extent to the
time-horizon of the VIO optimization; the resulting 3D mesh covers a larger
portion of the scene than a per-frame approach while its memory usage and
computational complexity remain bounded. We show that our approach successfully
regularizes the mesh, while improving localization accuracy, when structural
regularities are present, and remains operational in scenes without
regularities.Comment: 7 pages, 5 figures, ICRA accepte
Multi-Session, Localization-oriented and Lightweight LiDAR Mapping Using Semantic Lines and Planes
In this paper, we present a centralized framework for multi-session LiDAR
mapping in urban environments, by utilizing lightweight line and plane map
representations instead of widely used point clouds. The proposed framework
achieves consistent mapping in a coarse-to-fine manner. Global place
recognition is achieved by associating lines and planes on the Grassmannian
manifold, followed by an outlier rejection-aided pose graph optimization for
map merging. Then a novel bundle adjustment is also designed to improve the
local consistency of lines and planes. In the experimental section, both public
and self-collected datasets are used to demonstrate efficiency and
effectiveness. Extensive results validate that our LiDAR mapping framework
could merge multi-session maps globally, optimize maps incrementally, and is
applicable for lightweight robot localization.Comment: Accepted by IROS202
Vision-based localization methods under GPS-denied conditions
This paper reviews vision-based localization methods in GPS-denied
environments and classifies the mainstream methods into Relative Vision
Localization (RVL) and Absolute Vision Localization (AVL). For RVL, we discuss
the broad application of optical flow in feature extraction-based Visual
Odometry (VO) solutions and introduce advanced optical flow estimation methods.
For AVL, we review recent advances in Visual Simultaneous Localization and
Mapping (VSLAM) techniques, from optimization-based methods to Extended Kalman
Filter (EKF) based methods. We also introduce the application of offline map
registration and lane vision detection schemes to achieve Absolute Visual
Localization. This paper compares the performance and applications of
mainstream methods for visual localization and provides suggestions for future
studies.Comment: 32 pages, 15 figure
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