Print Email Facebook Twitter Field Measurements of Very Oblique Wave Run-up and Overtopping with Laser Scanners Title Field Measurements of Very Oblique Wave Run-up and Overtopping with Laser Scanners Author Oosterlo, P. (TU Delft Hydraulic Structures and Flood Risk) Hofland, B. (TU Delft Hydraulic Structures and Flood Risk) van der Meer, J.W. (TU Delft Hydraulic Structures and Flood Risk; Van der Meer Consulting Bv; IHE Delft Institute for Water Education) Overduin, Maarten (Infram Hydren) Steendam, Gosse Jan (Infram International) Date 2020 Abstract Oosterlo et al. (2019) developed a system using two terrestrial laser scanners, which can measure run-up heights, depths and velocities of waves on a dike in field situations. The system has now been placed next to two overtopping tanks on a dike in the Eems-Dollard estuary in the Netherlands to measure during actual severe winter storms. The goal of the present paper is to further validate this innovative system with data obtained during storm Ciara (10 - 12 February 2020), a severe winter storm with very oblique wave attack. Furthermore, the data gathered during storm Ciara will be compared to the current knowledge on wave overtopping, to possibly gain new insights in the influence of very oblique wave attack on wave overtopping. Subject Laser scannerLIDARField measurementsoblique wave attackwave run-upWave Overtopping To reference this document use: http://resolver.tudelft.nl/uuid:7b2d7670-f06c-4620-9d12-e0f2bcbb4797 DOI https://doi.org/10.9753/icce.v36v.waves.20 Page numbers 1-2 Event ICCE 2020: International Conference on Coastal Engineering (Virtual), 2020-10-06 → 2020-10-09 Part of collection Institutional Repository Document type abstract Rights © 2020 P. Oosterlo, B. Hofland, J.W. van der Meer, Maarten Overduin, Gosse Jan Steendam Files PDF 10271_Article_Text_36524_ ... 201230.pdf 301.81 KB Close viewer /islandora/object/uuid:7b2d7670-f06c-4620-9d12-e0f2bcbb4797/datastream/OBJ/view