Automatic registration of UAV-borne sequent images and LiDAR data

Automatic registration of UAV-borne sequent images and LiDAR data

Use of direct geo-referencing data leads to registration failure between sequent images and LiDAR data captured by mini-UAV platforms because of low-cost sensors. This paper therefore proposes a novel automatic registration method for sequent images and LiDAR data captured by mini-UAVs. First, the p...

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Bibliographic Details
Published in:ISPRS journal of photogrammetry and remote sensing Vol. 101; pp. 262 - 274
Main Authors: Yang, Bisheng, Chen, Chi
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2015
Subjects:
LiDAR data
Linear features
Multi-view stereo
Registration
Sequent images
Unmanned aerial vehicles mapping
LiDAR data
Multi-view stereo
Unmanned aerial vehicles mapping
Linear features
Sequent images
Registration
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Description
Summary:Use of direct geo-referencing data leads to registration failure between sequent images and LiDAR data captured by mini-UAV platforms because of low-cost sensors. This paper therefore proposes a novel automatic registration method for sequent images and LiDAR data captured by mini-UAVs. First, the proposed method extracts building outlines from LiDAR data and images and estimates the exterior orientation parameters (EoPs) of the images with building objects in the LiDAR data coordinate framework based on corresponding corner points derived indirectly by using linear features. Second, the EoPs of the sequent images in the image coordinate framework are recovered using a structure from motion (SfM) technique, and the transformation matrices between the LiDAR coordinate and image coordinate frameworks are calculated using corresponding EoPs, resulting in a coarse registration between the images and the LiDAR data. Finally, 3D points are generated from sequent images by multi-view stereo (MVS) algorithms. Then the EoPs of the sequent images are further refined by registering the LiDAR data and the 3D points using an iterative closest-point (ICP) algorithm with the initial results from coarse registration, resulting in a fine registration between sequent images and LiDAR data. Experiments were performed to check the validity and effectiveness of the proposed method. The results show that the proposed method achieves high-precision robust co-registration of sequent images and LiDAR data captured by mini-UAVs.
ISSN:0924-2716
1872-8235
DOI:10.1016/j.isprsjprs.2014.12.025