wave prediction

Wave-by-wave prediction in narrowly spread seas using fixed- and drifting-point wave records: Validation using physical measurements
T. Hlophe, H. Wolgamot, P. H. Taylor, A. Kurniawan, J. Orszaghova, S. Draper
Project
Wave-by-wave prediction in weakly nonlinear and narrowly spread seas using fixed-point surface-elevation time histories
Thobani Hlophe, Hugh Wolgamot, Paul H. Taylor, Adi Kurniawan, Jana Orszaghova, Scott Draper
Project DOI
Wave-by-wave prediction in weakly nonlinear and narrowly spread seas using fixed-point surface-elevation time histories
Fast unidirectional wave-by-wave prediction of weakly nonlinear wave fields: Validation using physical measurements
Thobani Hlophe, Hugh Wolgamot, Adi Kurniawan, Paul H. Taylor, Jana Orszaghova, Scott Draper
Project
Fast wave-by-wave prediction of weakly nonlinear unidirectional wave fields
Thobani Hlophe, Hugh Wolgamot, Adi Kurniawan, Paul H. Taylor, Jana Orszaghova, Scott Draper
Cite Project DOI
Fast deterministic wave-by-wave prediction of real ocean waves
It is well-known that the power production of a wave energy converter can be significantly increased if we can tune it to respond optimally to each incoming wave. This project aims to develop fast wave-by-wave prediction tools to accurately predict weakly nonlinear waves in unidirectional and multidirectional seas. Applications range from wave energy control to offshore operations and recreational activities.
Video
Fast deterministic wave-by-wave prediction of real ocean waves