Books and Papers

Perda, G.; Morelli, L.; Remondino, F.; Fraser, C.; Luhmann, T. (2024): Analyzing marker-based, handcrafted and learning-based methods for automated 3D measurement and modelling. Optical 3D Metrology Workshop, Brescia
Paulau, P.; Hurka, J.; Middelberg, J.; Koch, S. (2024): Centralised monitoring and control of buildings using open standards. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences , doi: 10.5194/isprs-annals-X-4-W4-2024-169-2024 , Weblink
Sheikholeslami, Mohammad Moein; Kamran, Muhammad; Wichmann, Andreas; Sohn, Gunho (2024): CornerRegNet: Building Segmentation from Overhead Imagery Using Oriented Corners in Deep Networks. Proceedings of the IEEE International Geoscience and Remote Sensing Symposium (IGARSS)
Sieberth, T.; Meindl, Michael; Sagmeiser, Bernhard; Franckenberg, Sabine; Ptacek, Wolfgang (2024): Cost-effective 3D documentation device in forensic medicine. Forensic Science International , doi: https://doi.org/10.1016/j.forsciint.2024.112005
Sheikholeslami, Mohammad Moein; Kamran, Muhammad; Wichmann, Andreas; Sohn, Gunho (2024): Enhancing Polygonal Building Segmentation via Oriented Corners. Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition (CVPR) , doi: https://doi.org/10.48550/arXiv.2407.12256 , Weblink

Presentations

Chizhova, M. : Probabilistic reconstruction of destroyed and incomplete objects from point clouds using Bayesian networks and cellular automata. Michigan Tech University, Houghton, USA, September 2017
Neiß-Theuerkauff, T. : 3D-Visualisierung von Über- und Unterwasserfahrzeugen zur Evaluation von Steuerungsalgorithmen mithilfe einer Game-Engine. Konferenz Go-3D 2017 "Mit 3D Richtung Maritim 4.0", Rostock, September 2017
Luhmann, T. : Messgenauigkeit in der 3D-Bildverarbeitung und Photogrammetrie. Testo, Titisee, September 2017
Luhmann, T. : Dense pointclouds from combined nadir and oblique imagery by object-based semi-global multi-image matching. 56th Photogrammetric Week '17, Stuttgart, September 2017
Knies, J. : Räumliche Integration industrieller Abwärme in zukünftige Wärmeversorgungsoptionen. AGIT 2017 – Symposium und Fachmesse Angewandte Geoinformatik, Salzburg, Österreich, Juli 2017 doi: 10.13140/RG.2.2.14026.98240

Projects

funded by: Niedersächsisches Vorab
The collection of the State Museum Nature and Man Oldenburg includes objects from natural history, archaeology and ethnology. Only a small proportion of the objects has been digitally acquired and made virtually accessible so far. Digitalisation (... more
people
Prof. Dr.-Ing. habil. Dr. h.c. Thomas Luhmann (head) Simon Albers, M.Sc. (10.2022-03.2023) Paul Kalinowski, M.Sc.
funded by: Bundesministerium für Bildung und Forschung
A decarbonized heat supply in urban areas in the future poses a particular challenge. The technical focus on the system coupling of electricity and heat production to increase the share of renewable energies in the heat supply alone will not be suffi... more
people
Prof. Dr. Jürgen Knies (head) (03.2019-12.2019) Prof. Dr. Sascha Koch (head) (03.2020-) Sebastian Erdmann, M.Sc. (10.2020-07.2021) Marvin Schnabel, M.Sc. (01.2022-)
funded by: European Fonds for Regional Development (EFRE)
The aim of the collaborative project is the simultaneous geometric recording of turbulent wind flow fields (fluid behaviors) and deformations of rotor blade surfaces of wind energy systems. This helps to generate new knowledge about the influ... more
people
Prof. Dr.-Ing. habil. Dr. h.c. Thomas Luhmann (head) Sinah Vogel (01.2021-04.2021) Dr. Ing. Thomas Willemsen (10.2018-06.2019) Simon Nietiedt, M.Sc. Annika Katrin Jepping, B.Sc. Martina Göring, M.Sc. Robin Rofallski, M.Sc.

Bachelor & Master Theses


Visualisierung lokaler Sensornetze zu Planungszwecken unter Verwendung der Unreal Engine (2022/2)
supervisors

Prof. Dr. Ingrid Jaquemotte

Dipl-Ing. Benjamin Sattes

Entwicklung eines Werkzeugs zur qualitativen Bewertung der grafischen Qualität des ALKIS-Bestandes bei digitalem Datenabruf für Planungszwecke (2022/2)
Potenzial von ALS Punktwolken mit erhöhter Auflösung und Auswertung zusätzlicher Erfassungsparameter zur Verbesserung von digitalen Geländemodellen in der niedersächsischen Vermessungs- und Katasterverwaltung (2022/2)
Untersuchung zur automatisierten Erstellung eines Gründachpotenzialkatasters aus Laserscandaten und aus 3D-Gebäudemodellen mit ArcGIS Pro (2022/2)