Both sides previous revision
Previous revision
Next revision
|
Previous revision
Next revision
Both sides next revision
|
members:demmeln [2017/11/08 19:01] Nikolaus Demmel |
members:demmeln [2020/06/22 21:54] Nikolaus Demmel |
<member/> | <member/> |
| |
=== Teaching === | |
| ===== Publications ===== |
| |
| [[https://scholar.google.de/citations?user=DRvrpB0AAAAJ|Google Scholar Profile]] |
| |
| <bibtex> |
| <author>demmel</author> |
| </bibtex> |
| |
| ==== Research ==== |
| |
| Check out the projects I'm involved in: |
| |
| * [[data:datasets:rolling-shutter-dataset|Rolling Shutter Dataset]] |
| * [[research:vslam:basalt|Basalt: Visual-Inertial Mapping with Non-Linear Factor Recovery |
| ]] |
| * [[data:datasets:visual-inertial-dataset|TUMVI Dataset for Visual Inertial Odometry]] |
| * [[research:vslam:ldso|LDSO - Direct Sparse Odometry with Loop Closure]] |
| * [[research:vslam:double-sphere|Double Sphere Camera Model]] |
| * [[research:vslam:photometric-calibration|Photometric Calibration]] |
| |
==== Bachelor Theses / Master Theses / IDP / Guided Research ==== | ==== Bachelor Theses / Master Theses / IDP / Guided Research ==== |
| |
If you are interested in doing a Bachelor Thesis, Master Thesis, [[http://www.in.tum.de/en/current-students/masters-programs/informatics/interdisciplinary-project.html|Interdisciplinary Project (IDP)]] or [[https://www.in.tum.de/en/current-students/masters-programs/informatics/guided-research.html|Guided Research]] in the field of **SLAM**, **Visual Odometry**, **3D Reconstruction**, or **Sensor fusion**, please feel free to contact me or drop by my office. Depending on the research project, a background in C++ and Computer Vision is usually required. | If you are interested in doing a Bachelor Thesis, Master Thesis, [[http://www.in.tum.de/en/current-students/masters-programs/informatics/interdisciplinary-project.html|Interdisciplinary Project (IDP)]] or [[https://www.in.tum.de/en/current-students/masters-programs/informatics/guided-research.html|Guided Research]] in the field of **SLAM**, **Visual Odometry**, **3D Reconstruction**, or **Sensor fusion**, feel free to contact me via email. Please include your recent transcript and a brief CV, so I know a bit about your background and courses taken. Depending on the research project, some experience with C++ and Computer Vision is usually required. |
| |
==== Courses ==== | ==== Courses ==== |
| * WS20: Practical course [[teaching:ws2020:visnav_ws2020|Vision Based Navigation]] together with [[members:schubdav]]. |
| * SS20: Practical course [[teaching:ss2020:visnav_ss2020|Vision Based Navigation]] together with [[members:usenko]] and [[members:schubdav]]. |
| * WS19: Practical course [[teaching:ws2019:visnav_ws2019|Vision Based Navigation]] together with [[members:usenko]]. |
| * SS19: Practical course [[teaching:ss2019:visnav_ss2019|Vision Based Navigation]] together with [[members:usenko]]. |
| * WS18/19: Practical course [[teaching:ws2018:visnav_ws2018|Vision Based Navigation]] together with [[members:usenko]]. |
| * SS18: Tutorial for [[teaching:ss2018:mvg2018|Computer Vision II: Multiple View Geometry]] together with [[members:eisenber]]. Lecturer: [[members:cremers]]. |
| * WS17/18: Tutorial for [[teaching:ws2017:vmcv2017|Computer Vision I: Variational Methods]] together with [[members:sommerc]]. Lecturer: [[members:queau]]. |
| |
* WS17: Tutorial for [[teaching:ws2017:vmcv2017|Computer Vision I: Variational Methods]] together with [[members:sommerc]]. Lecturer: [[members:queau]]. | ==== Student Projects ==== |
| |
[[members:demmeln:teaching|Full list of teaching activities]] | Previously completed student projects include: |
| |
| * Co-supervision (with [[members:usenko]]): Tim Stricker, "Efficient Techniques for Accurate Visual Place Recognition", Master Thesis, June 2020. {{ :members:demmeln:stricker2020ma.pdf |thesis}} |
| * Supervision: Simon Klenk, "Photometric Bundle Adjustment for Globally Consistent Mapping", Master Thesis, June 2020. {{ :members:demmeln:klenk2020ma.pdf |thesis}} {{ :members:demmeln:klenk2020ma_slides.pdf |slides}} |
| * Co-supervision (with [[members:usenko]]): Pak Hong Chui, "Visual-Inertial Simultaneous Localization and Mapping with Multiple Cameras", Master Thesis, April 2020. {{ :members:demmeln:chui2020ma.pdf |thesis}} {{ :members:demmeln:chui2020ma_slides.pdf |slides}} |
| * Co-supervision (with [[members:laudee]]): [[members:hofherrf]], "Joint Optimization of Pose And Depth Using a Prox-Linear Approach", Master Thesis, December 2019. {{ :members:demmeln:hofherr2019ma.pdf |thesis}} {{ :members:demmeln:hofherr2019ma_slides.pdf |slides}} |
| * Co-supervision (with Jens Harnisch, Infineon Technologies AG): Abdul Hannan Khan, "Face Recognition with a 3D Camera On an Embedded Processor", Master Thesis, November 2019. {{ :members:demmeln:khan2019ma.pdf |thesis}} {{ :members:demmeln:khan2019ma_slides.pdf |slides}} |
| * Supervision (with [[https://www.ht.mw.tum.de/en/staff/tim-mehling-msc/|Tim Mehling]]): [[https://www.3dunderstanding.org/team.html|Pablo Rodríguez Palafox]], "Local Tracking and Mapping for Direct Visual SLAM", Master Thesis, October 2019. {{ :members:demmeln:palafox2019ma.pdf |thesis}} {{ :members:demmeln:palafox2019ma_slides.pdf |slides}} |
| * Co-supervision (with [[https://www.magazino.eu|Dr. Ulrich Klank, Magazino GmbH]]): Kanstantsin Tkachuk, "3D Scene Reconstruction for 2D Object Recognition", Bachelor Thesis, September 2019. {{ :members:demmeln:tkachuk2019ba.pdf |thesis}} {{ :members:demmeln:tkachuk2019ba_slides.pdf |slides}} |
| * Co-supervision (with [[members:stueckle]]): Anton Troynikov, "Photometric Odometry for Dynamic Objects", Master Thesis, April 2019. {{ :members:demmeln:troynikov2019msc.pdf |thesis}} {{ :members:demmeln:troynikov2019msc_slides.pdf |slides}} [[http://troynikov.io/dynamic-photometric-odometry/|Blog]] |
| * Supervision: Maurice Hermwille, "Vignette Calibration for Fisheye Lenses", Master Thesis, September 2018. {{ :members:demmeln:hermwille2018msc.pdf |thesis}} {{ :members:demmeln:hermwille2018msc_slides.pdf |slides}} |
| * Co-Supervision (with [[members:wuta]], [[members:laudee]]): Zhongnan Qu, "Efficient Optimization for Robust Bundle Adjustment", Master Thesis, March 2018. {{ :members:demmeln:qu2018msc.pdf |thesis}} {{ :members:demmeln:qu2018msc_slides.pdf |slides}} |
| |