Tomohiro Suzuki
Tomohiro Suzuki
Flanders Hydraulics Research
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Applicability of Smoothed Particle Hydrodynamics for estimation of sea wave impact on coastal structures
C Altomare, AJC Crespo, JM Domínguez, M Gómez-Gesteira, T Suzuki, ...
Coastal Engineering 96, 1-12, 2015
Wave dissipation by vegetation with layer schematization in SWAN
T Suzuki, M Zijlema, B Burger, MC Meijer, S Narayan
Coastal Engineering 59 (1), 64-71, 2012
Nature-based flood protection: The efficiency of vegetated foreshores for reducing wave loads on coastal dikes
V Vuik, SN Jonkman, BW Borsje, T Suzuki
Coastal engineering 116, 42-56, 2016
Long-crested wave generation and absorption for SPH-based DualSPHysics model
C Altomare, JM Domínguez, AJC Crespo, J González-Cao, T Suzuki, ...
Coastal Engineering 127, 37-54, 2017
Laboratory study on wave dissipation by vegetation in combined current–wave flow
Z Hu, T Suzuki, T Zitman, W Uittewaal, M Stive
Coastal Engineering 88, 131-142, 2014
Efficient and robust wave overtopping estimation for impermeable coastal structures in shallow foreshores using SWASH
T Suzuki, C Altomare, W Veale, T Verwaest, K Trouw, P Troch, M Zijlema
Coastal Engineering 122, 108-123, 2017
Wave overtopping of sea dikes with very shallow foreshores
C Altomare, T Suzuki, X Chen, T Verwaest, A Kortenhaus
Coastal Engineering 116, 236-257, 2016
Forces on a vertical wall on a dike crest due to overtopping flow
X Chen, B Hofland, C Altomare, T Suzuki, W Uijttewaal
Coastal Engineering 95, 94-104, 2015
Hybridization of the wave propagation model SWASH and the meshfree particle method SPH for real coastal applications
C Altomare, JM Domínguez, AJC Crespo, T Suzuki, I Caceres, ...
Coastal Engineering Journal 57 (4), 1550024-1-1550024-34, 2015
Non-hydrostatic modeling of drag, inertia and porous effects in wave propagation over dense vegetation fields
T Suzuki, Z Hu, K Kumada, LK Phan, M Zijlema
Coastal Engineering 149, 49-64, 2019
Improved relaxation zone method in SPH-based model for coastal engineering applications
C Altomare, B Tagliafierro, JM Dominguez, T Suzuki, G Viccione
Applied Ocean Research 81, 15-33, 2018
Deriving vegetation drag coefficients in combined wave-current flows by calibration and direct measurement methods
H Chen, Y Ni, Y Li, F Liu, S Ou, M Su, Y Peng, Z Hu, W Uijttewaal, ...
Advances in water resources 122, 217-227, 2018
On the effectiveness of mangroves in attenuating cyclone induced waves
S Narayan, T Suzuki, MJF Stive, HJ Verhagen, WNJ Ursem, ...
Proceedings of the 32th International Conference on Coastal Engineering …, 2010
The applicability of SWASH model for wave transformation and wave overtopping: A case study for the Flemish coast
T Suzuki, T Verwaest, W Hassan, W Veale, J Reyns, K Trouw, P Troch, ...
Proc. 5th Int. Conf. Advanced Computational Methods Engineering (ACOMEN 2011 …, 2011
Wave dissipation over vegetation fields
T Suzuki
Numerical simulations of surf zone wave dynamics using Smoothed Particle Hydrodynamics
RJ Lowe, ML Buckley, C Altomare, DP Rijnsdorp, Y Yao, T Suzuki, ...
Ocean Modelling 144, 101481, 2019
Numerical modeling of vegetation-induced dissipation using an extended mild-slope equation
H Cao, W Feng, Z Hu, T Suzuki, MJF Stive
Ocean Engineering 110, 258-269, 2015
Comparison of numerical models for wave overtopping and impact on a sea wall
D Vanneste, C Altomare, T Suzuki, P Troch, T Verwaest
Coast. Eng. Proc 1 (5), 2014
Modelling the impacts of mangrove vegetation structure on wave dissipation in Ben Tre Province, Vietnam, under different climate change scenarios
NTK Cuc, T Suzuki, ED de Ruyter van Steveninck, H Hai
Journal of Coastal Research 31 (2), 340-347, 2015
Benchmarking of numerical models for wave overtopping at dikes with shallow mildly sloping foreshores: Accuracy versus speed
CH Lashley, B Zanuttigh, JD Bricker, J Van der Meer, C Altomare, ...
Environmental Modelling & Software 130, 104740, 2020
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