Binocular camera-based visual localization with optimized keypoint selection and multi-epipolar constraints

Binocular camera-based visual localization with optimized keypoint selection and multi-epipolar constraints

In recent years, visual localization has gained significant attention as a key technology for indoor navigation due to its outstanding accuracy and low deployment costs. However, it still encounters two primary challenges: the requirement for multiple database images to match the query image and the...

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Bibliographic Details
Main Authors: Guanyuan Feng, Yu Liu, Weili Shi, Yu Miao
Format: Article
Language:English
Published: Elsevier 2024-12-01
Series:Journal of King Saud University: Computer and Information Sciences
Subjects:
Binocular camera
Visual localization
Epipolar constraints
Keypoint selection
Delaunay triangulation
Online Access:http://www.sciencedirect.com/science/article/pii/S1319157824003173
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Summary:In recent years, visual localization has gained significant attention as a key technology for indoor navigation due to its outstanding accuracy and low deployment costs. However, it still encounters two primary challenges: the requirement for multiple database images to match the query image and the potential degradation of localization precision resulting from the keypoints clustering and mismatches. In this research, a novel visual localization framework based on a binocular camera is proposed to estimate the absolute positions of the query camera. The framework integrates three core methods: the multi-epipolar constraints-based localization (MELoc) method, the Optimal keypoint selection (OKS) method, and a robust measurement method. MELoc constructs multiple geometric constraints to enable absolute position estimation with only a single database image, while OKS and the robust measurement method further enhance localization accuracy by refining the precision of these geometric constraints. Experimental results demonstrate that the proposed system consistently outperforms existing visual localization systems across various scene scales, database sampling intervals, and lighting conditions
ISSN:1319-1578

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