Ir. Alexandra Van Wesemael

I have always been fascinated by the discrepancy between the biological necessities of water, its calming nature and yet its absolute destructive power. Throughout my education at the faculty of Bioscience engineering, Ghent University, my interest in water sciences has only grown. Therefore, I chose to do a master thesis at the Laboratory of Hydrology and Water Management. My master thesis encompassed the use of different calibration algorithms to calibrate a hydrologic rainfall-runoff model for the Bellebeek catchment in Belgium. For that, I studied different MCMC algorithms with the DREAM algorithm as the main focus. Currently, I'm working at the Laboratory as a researcher on the subject of SAR imaging with respect to hydrologic as well as hydraulic studies. This encompasses the use of a data assimilation framework in order to study the impact of assimilating both remotely sensed and in situ measurements on flood inundation predictions

 

Research topics: hydraulic modelling, flood inundation, SAR imaging, data assimilation

CONTACT

Address: Coupure Links 653 - Room A2.010

               9000 Ghent, Belgium

Phone: +32 9 264 61 40

E-mail: Alexandra.VanWesemael@UGent.be

TRAJECTORY

  • 2015 – Present: Doctoral research scientist – Laboratory of Hydrology and Water Management, Ghent University
  • 2010 – 2015: MSc. in Applied Biological Sciences – Land and Water Management, Ghent University

ONGOING PROJECTS

  • BOF (Bijzonder Onderzoeksfonds) - Improving the accuracy of flood inundation forecasts through remote sensing and in situ measurements (2015-2019)
  • BelSAR (ESA): Deployment of an L-Band SAR system to perform bistatic and interferometric SAR measurements (2016-2017)

PUBLICATIONS

  1. Gobeyn, S., Van Wesemael, A., Neal, J., Lievens, H., Van Eerdenbrugh, K., De Vleeschouwer, N., Vernieuwe, H., Schumann, G.J.-P., Di Baldassarre, G., De Baets, B., Bates, P.D., Verhoest, N.E.C. Impact of the timing of a SAR image acquisition on the calibration of a flood inundation model, Advances in Water Resources, 2017.