Books and Papers

Große-Schwiep, M.; Piechel, J.; Luhmann, T. (2014): Measurement of Rotor Blade Deformations of Wind Energy Converters with Laser Scanners. Journal of Physics: Conference Series, Volume 524, Number 1, 2014, The Science of Making Torque from Wind 2014 (TORQUE 2014), Denmark, 12067-12074(8)
Große-Schwiep, M.; Piechel, J.; Luhmann, T. (2014): Messung der Verformungen von Rotorblättern einer Windenergieanlage mit Laserscannern. In: Luhmann/Müller (Hrsg.): Photogrammetrie, Laserscanning, Optische 3D-Messtechnik – Beiträge der 13. Oldenburger 3D-Tage, Wichmann VDE Verlag, Berlin, 286-297
Nickel, S.; Hertel, A.; Pesch, R.; Schröder, W.; Steinnes, E.; Uggerud, H.T. (2014): Modelling and mapping spatio-temporal trends of heavy metal accumulation in moss and natural surface soil monitored 1990-2010 throughout Norway by multivariate generalized linear models and geostatistics. Atmospheric Environment 99:85-93
Berghaus, A.; Schniederbruns, B.; Luhmann, T.; Piechel, J.; Schwäke, D. (2014): Multispektrale Objekterfassung durch Fusion verschiedener Kamerasysteme - Einsatz von fusionierenden Kamerasystemen zur Wilderkennung bei der Grünfutterernte. Tagungsband VDI-Tagung Land.Technik, Berlin
Meyer, M.; Schröder, W.; Pesch, R.; Steinnes, E.; Uggerud, H.T. (2014): Multivariate association of regional factors with heavy metal concentrations in moss and natural surface soil sampled across Norway between 1990 and 2010. Journal of Soils and Sediments 14(11): 1-15

Presentations

Lenzi, J. ; Leiz, M. ; Ahvo, A. ; Bergström, U. ; Sacre, E. ; Juva, K. ; Virtanen, E. ; Takkolander, A. ; Kotta, J. ; Kaasik, A. ; Fetissov, M. ; Berkström, C. ; Ract, C. ; Pesch, R. : Predicting Marine Species Shifts and Identifying Biodiversity Hotspots under Climate Scenarios. Informal Consultation Session HELCOM Working Group on Biodiversity, Protection and Restoration (WG BioDiv), Oktober 2024
Sieberth, T. : Forensik digital – 3D Tatort-Rekonstruktion. Fachtagung BDVI Landesgruppe Thürigen, September 2024
Luhmann, T. : Fundamentals of camera calibration and image orientation. UAV-Conference, Intergeo 2024, Stuttgart, September 2024
Ghavimi, A. : Digital Mapping the Social Memory for a Sustainable Transformation of Settlements: A Participatory GIS Approach. City Transitions: Society and the Spatial and Temporal Dimensions of Change, September 2024
Sieberth, T. : Photogrammetrie in der Forensik. Schlaues Haus Oldenburg, September 2024 Weblink

Projects

funded by: German Research Foundation
Classical methods of photogrammetric deformation analysis are essentially a two-step process of spatio-temporal image matching (STM) followed by the calculation of deformation parameters. In many close-range applications, further kinematic in... more
funded by: Niedersächsisches Vorab
Transformation and structural change in rural areas mean changes in space and time. Such spatiotemporal data is to be managed and processed by our “Geo-Toolbox”. It uses digital technologies such as databases and geographic information systems &#... more
funded by: Bundesministerium für Bildung und Forschung
The Project – „CoSAIR – Collaborative Spatial Artificial Intelligence in Realtime“ is funded by the Federal Ministry of Education and Research within the program „Research at Universities of Applied Sciences“ in order to create, consolida... more

Bachelor & Master Theses


Erprobung eines neuen Messverfahrens für das Liegenschaftskataster: Schrägmessung mit dem GNSS-Rover Leica GS18 T (2021/1)
supervisors

Prof. Dr.-Ing. Hero Weber

Dipl-Ing. E. Grela

Einsatz von Image Assisted Total Stations (IATS) bei Liegenschaftsvermessungen (2021/1)
supervisors

Prof. Harry Wirth

Thorsten Roelfs, M.Sc.

Evaluation rechnergestützter Möglichkeiten zur automatisierten Modellierung von 3D-Punktwolken (2021/)
supervisors

Prof. Dr.-Ing. Hero Weber

M. Hilpert, M.Sc.

Konzeption und prototypische Entwicklung eines Verfahrens zur Messungsplanung für Autonomous Surface Vehicles (ASV) mit Single Beam Echosounder (SBES) (2021/)
supervisors

Prof. Harry Wirth

Dr. Patrick Westfeld

Optimierung der automatisierten Glasfaserausbauplanung: Positionierung der Verteilstandorte innerhalb von Glasfasernetzen mit Hilfe des Planungstools „gridlux“ (2020/12)