Books and Papers
Entwicklung und Validierung eines laserscanner-basierten Messverfahrens zur Erfassung bewegter Rotorblätter
2025
Sächsische Landesbibliothek – Staats- und Universitätsbibliothek Dresden (SLUB)
Field experimental modal analysis of an 88.4 m wind turbine rotor blade
2025
Wind Energy Science Conference
Field measurements of as-built geometry deviations of an 88.4 m wind turbine rotor blade
2025
Wind Energy Science Conference
Presentations
Entwicklung und Validierung eines laserscanner-basierten Messverfahrens zur Erfassung bewegter Rotorblätter
Dezember 2024
Verteidigung der Dissertation
Entwicklung eines berührungslosen und markierungsfreien Messverfahrens zur Erfassung bewegter Rotorblätter von Windkraftanlagen
Mai 2024
Kolloquium Geoinformation
Development of a Fan-Shaped Distance Meter System for Measuring Moving Rotor Blades - Concept, Photogrammetric Orientation and first results
September 2020
XXIVth ISPRS Congress
Entwicklung eines berührungslosen und markierungsfreien Messverfahrens zur Erfassung bewegter Rotorblätter von Windkraftanlagen
Oktober 2018
Doktorandentreffen, Dresden
Entwicklung eines Messverfahrens zur Erfassung bewegter Rotorblätter von Windkraftanlagen
Mai 2017
Doktorandentreffen, Dresden
Projects
Subproject Optical 3D Measurement Technology:
For making of reliable wind turbine runtime extension assessments, a new method is being developed that takes into account the geometry and modal properties of the respective rotor blade. These are determined using optical 3D measure... more
For making of reliable wind turbine runtime extension assessments, a new method is being developed that takes into account the geometry and modal properties of the respective rotor blade. These are determined using optical 3D measure... more
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 influence of wind loads on wind ene...
more
The aim of the PhD project is to develop an innovative approach for detection of the dynamic states of rotor blades during operation without contact and targeting
more