Practical Deep Feature-Based Visual-Inertial Odometry

Charles Hamesse; Michiel Vlaminck; Hiep Luong; Rob Haelterman

doi:10.5220/0012320200003654

Practical Deep Feature-Based Visual-Inertial Odometry

Charles Hamesse, Michiel Vlaminck, Hiep Luong, Rob Haelterman

University of Ghent

Résultats de recherche: Chapitre dans un livre, un rapport, des actes de conférences › Contribution à une conférence › Revue par des pairs

Résumé

We present a hybrid visual-inertial odometry system that relies on a state-of-the-art deep feature matching front-end and a traditional visual-inertial optimization back-end. More precisely, we develop a fully-fledged feature tracker based on the recent SuperPoint and LightGlue neural networks, that can be plugged directly to the estimation back-end of VINS-Mono. By default, this feature tracker returns extremely abundant matches. To bound the computational complexity of the back-end optimization, limiting the number of used matches is desirable. Therefore, we explore various methods to filter the matches while maintaining a high visual-inertial odometry performance. We run extensive tests on the EuRoC machine hall and Vicon room datasets, showing that our system achieves state-of-the-art odometry performance according relative pose errors.

langue originale	Anglais
titre	Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods
rédacteurs en chef	Modesto Castrillon-Santana, Maria De Marsico, Ana Fred
Editeur	Science and Technology Publications, Lda
Pages	240-247
Nombre de pages	8
ISBN (imprimé)	9789897586842
Les DOIs	https://doi.org/10.5220/0012320200003654
état	Publié - 2024
Evénement	13th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2024 - Rome, Italie Durée: 24 févr. 2024 → 26 févr. 2024

Série de publications

Nom	International Conference on Pattern Recognition Applications and Methods
Volume	1
ISSN (Electronique)	2184-4313

Une conférence

Une conférence	13th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2024
Pays/Territoire	Italie
La ville	Rome
période	24/02/24 → 26/02/24

Accès au document

10.5220/0012320200003654

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Hamesse, C., Vlaminck, M., Luong, H., & Haelterman, R. (2024). Practical Deep Feature-Based Visual-Inertial Odometry. Dans M. Castrillon-Santana, M. De Marsico, & A. Fred (eds.), Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods (p. 240-247). (International Conference on Pattern Recognition Applications and Methods; Vol 1). Science and Technology Publications, Lda. https://doi.org/10.5220/0012320200003654

Hamesse, Charles ; Vlaminck, Michiel ; Luong, Hiep et al. / Practical Deep Feature-Based Visual-Inertial Odometry. Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods. Editeur / Modesto Castrillon-Santana ; Maria De Marsico ; Ana Fred. Science and Technology Publications, Lda, 2024. p. 240-247 (International Conference on Pattern Recognition Applications and Methods).

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title = "Practical Deep Feature-Based Visual-Inertial Odometry",

abstract = "We present a hybrid visual-inertial odometry system that relies on a state-of-the-art deep feature matching front-end and a traditional visual-inertial optimization back-end. More precisely, we develop a fully-fledged feature tracker based on the recent SuperPoint and LightGlue neural networks, that can be plugged directly to the estimation back-end of VINS-Mono. By default, this feature tracker returns extremely abundant matches. To bound the computational complexity of the back-end optimization, limiting the number of used matches is desirable. Therefore, we explore various methods to filter the matches while maintaining a high visual-inertial odometry performance. We run extensive tests on the EuRoC machine hall and Vicon room datasets, showing that our system achieves state-of-the-art odometry performance according relative pose errors.",

keywords = "Deep Features, Visual Features, Visual-Inertial Odometry",

author = "Charles Hamesse and Michiel Vlaminck and Hiep Luong and Rob Haelterman",

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Hamesse, C, Vlaminck, M, Luong, H & Haelterman, R 2024, Practical Deep Feature-Based Visual-Inertial Odometry. Dans M Castrillon-Santana, M De Marsico & A Fred (eds), Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods. International Conference on Pattern Recognition Applications and Methods, VOL. 1, Science and Technology Publications, Lda, p. 240-247, 13th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2024, Rome, Italie, 24/02/24. https://doi.org/10.5220/0012320200003654

Practical Deep Feature-Based Visual-Inertial Odometry. / Hamesse, Charles; Vlaminck, Michiel; Luong, Hiep et al.
Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods. Ed. / Modesto Castrillon-Santana; Maria De Marsico; Ana Fred. Science and Technology Publications, Lda, 2024. p. 240-247 (International Conference on Pattern Recognition Applications and Methods; Vol 1).

Résultats de recherche: Chapitre dans un livre, un rapport, des actes de conférences › Contribution à une conférence › Revue par des pairs

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N2 - We present a hybrid visual-inertial odometry system that relies on a state-of-the-art deep feature matching front-end and a traditional visual-inertial optimization back-end. More precisely, we develop a fully-fledged feature tracker based on the recent SuperPoint and LightGlue neural networks, that can be plugged directly to the estimation back-end of VINS-Mono. By default, this feature tracker returns extremely abundant matches. To bound the computational complexity of the back-end optimization, limiting the number of used matches is desirable. Therefore, we explore various methods to filter the matches while maintaining a high visual-inertial odometry performance. We run extensive tests on the EuRoC machine hall and Vicon room datasets, showing that our system achieves state-of-the-art odometry performance according relative pose errors.

AB - We present a hybrid visual-inertial odometry system that relies on a state-of-the-art deep feature matching front-end and a traditional visual-inertial optimization back-end. More precisely, we develop a fully-fledged feature tracker based on the recent SuperPoint and LightGlue neural networks, that can be plugged directly to the estimation back-end of VINS-Mono. By default, this feature tracker returns extremely abundant matches. To bound the computational complexity of the back-end optimization, limiting the number of used matches is desirable. Therefore, we explore various methods to filter the matches while maintaining a high visual-inertial odometry performance. We run extensive tests on the EuRoC machine hall and Vicon room datasets, showing that our system achieves state-of-the-art odometry performance according relative pose errors.

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Hamesse C, Vlaminck M, Luong H, Haelterman R. Practical Deep Feature-Based Visual-Inertial Odometry. Dans Castrillon-Santana M, De Marsico M, Fred A, rédacteurs en chef, Proceedings of the 13th International Conference on Pattern Recognition Applications and Methods. Science and Technology Publications, Lda. 2024. p. 240-247. (International Conference on Pattern Recognition Applications and Methods). doi: 10.5220/0012320200003654

Practical Deep Feature-Based Visual-Inertial Odometry

Résumé

Série de publications

Une conférence

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Autres fichiers et liens

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