Mathieu Cocheteux,
Julien Moreau,
Franck Davoine
Université de technologie de Compiègne, CNRS
Heudiasyc Laboratory
France
Camera-LiDAR extrinsic calibration is a critical task for multi-sensor fusion in autonomous systems, such as self-driving vehicles and mobile robots. Traditional techniques often require manual intervention or specific environments, making them labour-intensive and error-prone. Existing deep learning-based self-calibration methods focus on small realignments and still rely on initial estimates, limiting their practicality. In this paper, we present PseudoCal, a novel self-calibration method that overcomes these limitations by leveraging the pseudo-LiDAR concept and working directly in the 3D space instead of limiting itself to the camera field of view. In typical autonomous vehicle and robotics contexts and conventions, PseudoCal is able to perform one-shot calibration quasi-independently of initial parameter estimates, addressing extreme cases that remain unsolved by existing approaches.
@inproceedings{Cocheteux_2023_BMVC,
author = {Mathieu Cocheteux and Julien Moreau and Franck Davoine},
title = {PseudoCal: Towards Initialisation-Free Deep Learning-Based Camera-LiDAR Self-Calibration},
booktitle = {34th British Machine Vision Conference 2023, {BMVC} 2023, Aberdeen, UK, November 20-24, 2023},
publisher = {{BMVA}},
year = {2023},
url = {https://papers.bmvc2023.org/0829.pdf}
}