Dreier, NormanNormanDreierFröhle, PeterPeterFröhle2019-11-202019-11-202017-12-01Journal of Ocean University of China 6 (16): 991-997 (2017-12-01)http://hdl.handle.net/11420/3826The knowledge of the wave-induced hydrodynamic loads on coastal dikes including their temporal and spatial resolution on the dike in combination with actual water levels is of crucial importance of any risk-based early warning system. As a basis for the assessment of the wave-induced hydrodynamic loads, an operational wave now- and forecast system is set up that consists of i) available field measurements from the federal and local authorities and ii) data from numerical simulation of waves in the German Bight using the SWAN wave model. In this study, results of the hindcast of deep water wave conditions during the winter storm on 5–6 December, 2013 (German name ‘Xaver’) are shown and compared with available measurements. Moreover field measurements of wave run-up from the local authorities at a sea dike on the German North Sea Island of Pellworm are presented and compared against calculated wave run-up using the EurOtop (2016) approach.en1672-5182Journal of Ocean University of China20176991997Cosmo-ModelEurOtopGerman Bighthydrodynamic loadsNorth SeaSWANwave forecastwave run-upOperational wave now- and forecast in the German Bight as a basis for the assessment of wave-induced hydrodynamic loads on coastal dikesJournal Article10.1007/s11802-017-3382-9Other