Article Title,Year,Volume,Issue,Page Range,Author
The influence of air and scale on wave impact pressures,2001,42,4,291-312,Hewson
Description of loading conditions due to violent wave impacts on a vertical structure with an overhanging horizontal cantilever slab,2012,60,1,201-226,Kisacik
Evaluation of wave impact loads on caisson breakwaters based on joint probability of impact maxima and rise times,2011,58,1,9-27,Cuomo
Rip current review,2006,53,2-3,191-208,MacMahan
Surfzone currents,1983,7,4,331-355,Basco
A simplified model of rip currents systems around discontinuous submerged barriers,2004,51,4,323-335,Bellotti
Quantification of changes in current intensities induced by wave overtopping around low-crested structures,2008,55,2,113-124,Stive
Morphodynamic modelling of rip channel growth,2002,45,3-4,199-221,Damgaard
A note on the three-dimensional shear stress distribution in a surf zone,1993,20,1-2,157-171,Deigaard
A morphological stability analysis for a long straight barred coast,1999,36,3,171-195,Deigaard
Quasi-three-dimensional modelling of the morphology of longshore bars,2007,54,3,197-215,Drønen
An experimental study of rip channel flow,2002,45,3-4,223-238,Deigaard
Rhythmic surf zone bars and morphodynamic self-organization,2008,55,7-8,622-641,Garnier
Wave set-up wave run-up and beach water table: Interaction between surf zone hydraulics and groundwater hydraulics,1992,17,1-2,93-144,Gourlay
Vertical and horizontal structure in cross-shore flows: An example of undertow and wave set-up on a barred beach,1990,14,6,543-580,Greenwood
Wave transformation in the nearshore zone: A review,1993,21,1-3,5-39,Hamm
On the spacing between observed rip currents,1992,17,3-4,211-225,Huntley
Beach recreation planning using video-derived coastal state indicators,2007,54,6-7,507-521,Davidson
Application modelling and validation of surfzone drifters,2004,51,5-6,455-471,Johnson
Boussinesq modelling of transient rip currents,2006,53,5-6,419-439,Johnson
Modelling of waves and currents around submerged breakwaters,2005,52,10-11,949-969,Johnson
A numerical experiment on nearshore circulation in standing edge waves,1983,7,3,271-284,Kaneko
An unsteady wave driver for narrowbanded waves: modeling nearshore circulation driven by wave groups,2003,48,4,257-275,Kennedy
Modification of edge waves by barred-beach topography,1981,5,,35-49,Kirby
Implementation and modification of a three-dimensional radiation stress formulation for surf zone and rip-current applications,2011,58,12,1097-1117,Kumar
A one-dimensional model for undertow and longshore current on a barred beach,2000,40,1,39-58,Kuriyama
Hydrodynamic and morphodynamic response of isolated and multiple low crested structures: Experiments and simulations,2006,53,4,363-379,Lamberti
Magnitude and cross-shore distribution of bed return flow measured on natural beaches,1995,25,3-4,165-190,Masselink
Longshore circulation around a conical island,1977,1,,31-42,Mei
Wave height setup and currents around a detached breakwater submitted to regular or random wave forcing,1997,31,1-4,77-96,Hamm
Observations of wave pump efficiency,2008,55,1,69-72,Nielsen
The Relative Trough Froude Number for initiation of wave breaking: Theory experiments and numerical model confirmation,2006,53,8,675-690,Okamoto
Megacusps on rip channel bathymetry: Observations and modeling,2011,58,9,890-907,MacMahan
Quadtree grid numerical model of nearshore wave-current interaction,2001,42,3,219-239,Park
The effect of bathymetric filtering on nearshore process model results,2009,56,4,484-493,Plant
Wave-induced currents in the vicinity of a seawall,1997,30,1-2,23-52,Rakha
Morphodynamics of intermediate beaches: a video imaging and numerical modelling study,2004,51,7,629-655,Ranasinghe
Modelling infragravity motions on a rip-channel beach,2006,53,2-3,209-222,Thornton
A curvilinear version of a quasi-3D nearshore circulation model,2003,49,1-2,99-124,Kirby
Hydrodynamics of a headland-bay beach--Nearshore current circulation,2010,57,2,160-175,Silva
Surf zone dynamics simulated by a Boussinesq type model. III. Wave-induced horizontal nearshore circulations,1998,33,2-3,155-176,Sørensen
A nearshore profile model of wave and tidal current interaction,1989,13,3,219-245,Southgate
Modelling waves and currents at the LSTF and other laboratory facilities,2003,50,1-2,19-45,Svendsen
Nourishing the shoreface: observations and hindcasting of the Egmond case The Netherlands,2004,51,8-9,813-837,van Duin
Wave disturbance behind low-crested structures: Diffraction and overtopping effects,2009,56,11-12,1173-1185,Cáceres
Vertical variation in radiation stress and wave-induced current,2004,51,4,309-321,Xia
Wave overtopping and piling-up at permeable low crested structures,2008,55,6,484-498,Lamberti
Impacts on a storm wall caused by non-breaking waves overtopping a smooth dike slope,2017,120,,93-111,Romano
Wave overtopping at berm breakwaters: review and sensitivity analysis of prediction models,2017,120,,1-21,Etemad-Shahidi
The current generated by deep water regular waves,2017,121,,103-106,Bratland
Regional-scale probabilistic shoreline evolution modelling for flood-risk assessment,2017,121,,129-144,Stripling
Comparison of inundation depth and momentum flux based fragilities for probabilistic tsunami damage assessment and uncertainty analysis,2017,122,,10-26,Barbosa
Impulse waves in reservoirs generated by landslides into shallow water,2017,123,,52-61,Wang
On the transfer of momentum from a granular landslide to a water wave,2017,125,,16-22,Mulligan
Regional frequency analysis of extreme waves in a coastal area,2017,126,,81-95,Lucas
Improved treatment of non-stationary conditions and uncertainties in probabilistic models of storm wave climate,2017,127,,1-19,Davies
Hydraulic stability of rock armors in breaking wave conditions,2017,127,,55-67,Herrera
Tsunami inundation variability from stochastic rupture scenarios: application to multiple inversions of the 2011 Tohoku Japan earthquake,2017,127,,88-105,Goda
Tsunami taxonomy and detection from recent Mediterranean tide gauge data,2017,127,,145-169,Archetti
Experimental investigation of turbulent wave boundary layers under irregular coastal waves,2017,128,,22-36,Yuan
An experimentally validated approach for evaluating tsunami inundation forces on rectangular buildings,2017,128,,44-57,Rossetto
Experimental modeling of horizontal and vertical wave forces on an elevated coastal structure,2017,128,,58-74,van de Lindt
Extreme wave groups in a wave flume: controlled generation and breaking onset,2017,128,,75-83,Simons
Wavenumber-frequency analysis of landslide-generated tsunamis at a conical island. Part II: EOF and modal analysis,2017,128,,84-91,Bellotti
Stability of scour protection due to earthquake-induced liquefaction: centrifuge modelling,2017,129,,50-58,Escribano
A simplified physically-based model for coastal dike and barrier breaching by overtopping flow and waves,2017,130,,1-13,Li
Wave overtopping at berm breakwaters: experimental study and development of prediction formula,2017,130,,85-102,Etemad-Shahidi
Wave overtopping flow striking a human body on the crest of an impermeable sloped seawall. Part I: Physical modeling,2021,167,,e103891,Chen
Storm surge and evacuation in urban areas during the peak of a storm,2016,108,,1-9,Esteban