Researcher
Tim De Troyer
- Keywords:Computer science (incl. applied informatics), Mechanical engineering, Fine arts (incl. archaeology)
- Disciplines:Wind engineering, Aerodynamics, Modelling and simulation, Aeronautical engineering, Fluid mechanics and fluid dynamics, Wind energy, Fluid mechanics, Systems theory, modelling and identification, Signal processing
Affiliations
- Thermodynamics and Fluid Mechanics Group (Research group)
Member
From22 Dec 2016 → Today - Engineering Technology (Department)
Member
From1 Jan 2023 → Today - Engineering Technology (Department)
Member
From8 Apr 2019 → Today - Faculty of Engineering (Faculty)
Member
From22 Jun 2017 → 7 Sep 2017 - Engineering Technology (Department)
Member
From1 Oct 2010 → 20 Oct 2022 - IR Academic Unit (Office)
Member
From1 Oct 2010 → 30 Sep 2013 - Erasmushogeschool Brussel (Research group)
Member
From1 Oct 2004 → 31 Oct 2013 - Erasmushogeschool Brussel (Research group)
Member
From1 Oct 2004 → 30 Sep 2013 - Acoustics & Vibration Research Group (Research group)
Member
From1 Jan 2000 → 8 Jan 2023
Projects
1 - 5 of 5
- eVTOLUTION : EVTOL MULTI-FIDELITY HYBRID DESIGN AND OPTIMIZATION FOR LOW NOISE AND HIGH AERODYNAMIC PERFORMANCEFrom1 Jan 2024 → TodayFunding: HORIZON.2.5 - Climate, Energy and Mobility
- The CO-simulation of UNsTeady aERodynamics (COUNTER) Integrating wind tunnel experiments and numerical simulations to a deeper level: A novel methodology using structured data-driven modelsFrom1 Nov 2022 → TodayFunding: FWO fellowships
- Backup mandate Research Council: The CO-simulation of UNsTeady aERodynamics (COUNTER) Integrating wind tunnel experiments and numerical simulations to a deeper level: A novel methodology using structured data-driven modelsFrom1 Nov 2021 → 31 Oct 2022Funding: BOF - doctoral mandates
- SRP-Groeifinanciering: A system identification framework for multi-fidelity modellingFrom1 Mar 2019 → 29 Feb 2024Funding: BOF - projects
- Prediction of direct and scattered sound field from rotating machineryFrom1 Jan 2014 → 31 Dec 2017Funding: IWT personal funding - strategic basic research grants
Publications
1 - 10 of 83
- Reducing black-box nonlinear state-space models: A real-life case study(2024)
Authors: Péter Zoltán Csurcsia, Jan Rik Decuyper, Balazs Renczes, Mark C. Runacres, Tim De Troyer
- Modelling the unsteady lift of a pitching NACA 0018 aerofoil using state-space neural networks(2024)
Authors: Luca Damiola, Jan Rik Decuyper, Mark C. Runacres, Tim De Troyer
- A Nonparametric Regularization for Spectrum Estimation of Time-Varying Output-Only Measurements(2024)
Authors: Péter Zoltán Csurcsia, Muhammad Ajmal, Tim De Troyer
Pages: 161-176 - Structural Design of a Large-Scale 3D-Printed High-Altitude Propeller: Methodology and Experimental Validation(2023)
Authors: Ahmed Malim, Nikolaos Mourousias, Benoît Marinus, Tim De Troyer
- Unsteady Aerodynamic Lift Force on a Pitching Wing: Experimental Measurement and Data Processing(2023)
Authors: Péter Zoltán Csurcsia, Muhammad Faheem Siddiqui, Mark C. Runacres, Tim De Troyer
Pages: 29-44 - Modeling airfoil dynamic stall using State-Space Neural Networks(2023)
Authors: Luca Damiola, Jan Rik Decuyper, Mark C. Runacres, Tim De Troyer
Pages: 1-10Number of pages: 10 - Influence of free-stream turbulence intensity on static and dynamic stall of a NACA 0018 aerofoil(2023)
Authors: Luca Damiola, Muhammad Faheem Siddiqui, Mark C. Runacres, Tim De Troyer
- Automated operational modal analysis for the monitoring of a wind turbine blade(2023)
Authors: André Tavares, Diôgo Silvestre Drapier, Péter Zoltán Csurcsia, Tim De Troyer, Wim Desmet, Konstantinos Gryllias
Number of pages: 11 - A data-driven nonlinear state-space model of the unsteady lift force on a pitching wing(2022)
Authors: Muhammad Faheem Siddiqui, Tim De Troyer, Jan Rik Decuyper, Péter Zoltán Csurcsia, J. Schoukens, Mark C. Runacres
- Using a broadband multisine excitation signal for the data-driven modeling of the unsteady lift force on a pitching wing(2022)
Authors: Tim De Troyer, Péter Zoltán Csurcsia, Muhammad Faheem Siddiqui, Mark C. Runacres
Number of pages: 10