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@misc{olaFlow,
author={Higuera, P.},
title={olaFlow: {CFD} for waves [{S}oftware].},
year=2017,
doi={10.5281/zenodo.1297013},
url={https://doi.org/10.5281/zenodo.1297013}
}
@report{amir,
author={Amir Parvin},
title={Processes allowing large block displacement under wave action},
year={2020},
}
@article{cox2018extraordinary,
title={Extraordinary boulder transport by storm waves (west of Ireland, winter 2013--2014), and criteria for analysing coastal boulder deposits},
author={Cox, R{\'o}nadh and Jahn, Kalle L and Watkins, Oona G and Cox, Peter},
journal={Earth-Science Reviews},
volume={177},
pages={623--636},
year={2018},
publisher={Elsevier}
}
@article{shah2013coastal,
title={Coastal boulders in Martigues, French Mediterranean: evidence for extreme storm waves during the Little Ice Age},
author={Shah-Hosseini, M and Morhange, C and De Marco, A and Wante, J and Anthony, EJ and Sabatier, F and Mastronuzzi, G and Pignatelli, C and Piscitelli, A},
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volume={57},
number={Suppl 4},
pages={181--199},
year={2013}
}
@conference{abadie,
title={Large concrete block displacement under extreme wave: analysis of the 2/28/2017 event},
author={Amir Parvin and Volker Roeber and Pierre-Antoine Poncet and D. Sous and M. Mengaillou and Stéphane Abadie},
booktitle={Seminaire technique EZPONDA},
year={2019},
}
@phdthesis{poncet2021characterization,
title={Characterization of wave impact loading on structures at full scale: field experiment, statistical analysis and 3D advanced numerical modeling},
author={Poncet, Pierre-Antoine},
year={2021},
school={Pau},
chapter={4},
}
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title={Waves, coastal boulder deposits and the importance of the pre-transport setting},
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year={2003},
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year={2019},
publisher={American Society of Civil Engineers}
}
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number={36v},
pages={27--27},
year={2020}
}
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title={In-situ measurements of wave impact pressure on a composite breakwater: preliminary results},
author={Larroque, Benoit and Arnould, Philippe and Luthon, Franck and Poncet, Pierre-Antoine and Rahali, A and Abadie, St{\'e}phane},
journal={Journal of Coastal Research},
number={85 (10085)},
pages={1086--1090},
year={2018},
publisher={Allen Press}
}
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title={Observations of nearshore infragravity waves: Seaward and shoreward propagating components},
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title={Direct pore-scale modeling of two-phase flow through natural media},
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year={2011}
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title={Three-dimensional interaction of water waves with maritime structures},
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year={2011}
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title={Numerical modelling of armour block sea breakwater with smoothed particle hydrodynamics},
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title={Numerical and experimental modeling of water wave interaction with rubble mound offshore porous breakwaters},
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title={Boulder transport by storms--Extreme-waves in the coastal zone of the Irish west coast},
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}
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title={Block and boulder transport in eastern Samar (Philippines) during Supertyphoon Haiyan},
author={May, SM and Engel, M and Brill, D and Cuadra, C and Lagmay, AMF and Santiago, J and Suarez, JK and Reyes, M and Br{\"u}ckner, H},
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}
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title={Untangling boulder dislodgement in storms and tsunamis: Is it possible with simple theories?},
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title={Boulder dislodgement and transport by solitary waves: Insights from three-dimensional numerical simulations},
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}
@phdthesis{zainali2016high,
title={High-fidelity numerical simulation of shallow water waves},
author={Zainali, Amir},
year={2016},
school={Virginia Tech}
}
@article{nandasena2011reassessment,
title={Reassessment of hydrodynamic equations: Minimum flow velocity to initiate boulder transport by high energy events (storms, tsunamis)},
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journal={Marine Geology},
volume={281},
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year={2011},
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@article{kennedy2016observations,
title={Observations and modeling of coastal boulder transport and loading during Super Typhoon Haiyan},
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title={The role of hydrodynamic impact force in subaerial boulder transport by tsunami—Experimental evidence and revision of boulder transport equation},
author={Lodhi, Hira A and Hasan, Haider and Nandasena, NAK},
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year={2020},
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title={Significance of boulder shape, shoreline configuration and pre-transport setting for the transport of boulders by tsunamis},
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title={Numerical assessment of boulder transport by the 2004 Indian ocean tsunami in Lhok Nga, West Banda Aceh (Sumatra, Indonesia)},
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title={Boulders as a signature of storms on rock coasts},
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volume={283},
number={1},
pages={1-11},
year={2011},
note={Special Issue on Boulders as a signature of storms on rock coasts},
issn={0025-3227},
doi={https://doi.org/10.1016/j.margeo.2011.03.016},
url={https://www.sciencedirect.com/science/article/pii/S002532271100079X},
author={Raphaël Paris and Larissa A. Naylor and Wayne J. Stephenson},
}
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AUTHOR={Biolchi, S. and Furlani, S. and Antonioli, F. and Baldassini, N. and Causon Deguara, J. and Devoto, S. and Di Stefano, A. and Evans, J. and Gambin, T. and Gauci, R. and Mastronuzzi, G. and Monaco, C. and Scicchitano, G.},
TITLE={Boulder accumulations related to extreme wave events on the eastern coast of Malta},
JOURNAL={Natural Hazards and Earth System Sciences},
VOLUME={16},
YEAR={2016},
NUMBER={3},
PAGES={737--756},
URL={https://nhess.copernicus.org/articles/16/737/2016/},
DOI={10.5194/nhess-16-737-2016}
}
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keywords={ISPH, Porous flow, Wave damping, Breakwater},
}
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author={Tian-Jian Hsu and Tsutomu Sakakiyama and Philip L.-F. Liu},
keywords={Composite breakwater, Wave forces, Breaking wave, Turbulence, Pore pressure, Porous media, Numerical modelling},
}
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keywords={numerical wave modelling, ocean engineering, wave forecasting, wave hindcasting, physical oceanography},
}
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author={L. Mentaschi and G. Besio and F. Cassola and A. Mazzino},
keywords={Model validation, RMSE, Scatter index, WAVEWATCH III®, Mediterranean Sea},
}
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year={2011},
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