LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization (bibtex)
by L. von Stumberg, P. Wenzel, N. Yang and D. Cremers
Reference:
LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization (L. von Stumberg, P. Wenzel, N. Yang and D. Cremers), In International Conference on 3D Vision (3DV), 2020. ([arXiv][project page][video][supplementary][poster])
Bibtex Entry:
@inproceedings{lm-reloc-2020,
 author = {L. von Stumberg and P. Wenzel and N. Yang and D. Cremers},
 title = {LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization},
 booktitle = {International Conference on 3D Vision (3DV)},
 year = {2020},
 keywords = {lm-reloc, slam, structure-from-motion, direct method, mapping, vslam, deep learning},
}
Powered by bibtexbrowser
LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization (bibtex)
LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization (bibtex)
by L. von Stumberg, P. Wenzel, N. Yang and D. Cremers
Reference:
LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization (L. von Stumberg, P. Wenzel, N. Yang and D. Cremers), In International Conference on 3D Vision (3DV), 2020. ([arXiv][project page][video][supplementary][poster])
Bibtex Entry:
@inproceedings{lm-reloc-2020,
 author = {L. von Stumberg and P. Wenzel and N. Yang and D. Cremers},
 title = {LM-Reloc: Levenberg-Marquardt Based Direct Visual Relocalization},
 booktitle = {International Conference on 3D Vision (3DV)},
 year = {2020},
 keywords = {lm-reloc, slam, structure-from-motion, direct method, mapping, vslam, deep learning},
}
Powered by bibtexbrowser
members:stumberg

Table of Contents

Lukas von Stumberg

PhD Student

Technical University of Munich

School of Computation, Information and Technology
Informatics 9
Boltzmannstrasse 3
85748 Garching
Germany

Fax: +49-89-289-17757
Office: 
Mail: stumberg@in.tum.de

Find me on Google Scholar Linkedin

Research Interests

My research interests are visual and visual-inertial SLAM, robotics, and 3D reconstruction. I like to apply both traditional methods and deep learning.

Selected Projects

GN-Net: The Gauss-Newton Loss for Multi-Weather Relocalization

Using our novel Gauss-Newton loss we improve the robustness of direct methods against strong illumination changes and bad initializations. This allows us to accurately relocalize between different weathers. Project Page



VI-DSO: Direct Sparse Visual-Inertial Odometry using Dynamic Marginalization

In my Master thesis on direct visual-inertial odometry we demonstrate state-of-the-art performance on the EuRoC dataset. Project Page



From Monocular SLAM to Autonomous Drone Exploration

In my Bachelor thesis I have used LSD-SLAM to explore an unknown environment with an autonomous drone.