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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{parvin2020,
author={Amir Parvin},
title={Processes allowing large block displacement under wave action},
year={2020},
}
@article{cox2018,
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{shah2013,
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},
journal={Zeitschrift f{\"u}r Geomorphologie},
volume={57},
number={Suppl 4},
pages={181--199},
year={2013}
}
@article{nott1997,
title={Extremely high-energy wave deposits inside the Great Barrier Reef, Australia: determining the cause—tsunami or tropical cyclone},
author={Nott, Jonathan},
journal={Marine Geology},
volume={141},
number={1-4},
pages={193--207},
year={1997},
publisher={Elsevier}
}
@article{nott2003,
title={Waves, coastal boulder deposits and the importance of the pre-transport setting},
author={Nott, Jonathan},
journal={Earth and Planetary Science Letters},
volume={210},
number={1-2},
pages={269--276},
year={2003},
publisher={Elsevier}
}
@article{nandasena2011,
title={Reassessment of hydrodynamic equations: Minimum flow velocity to initiate boulder transport by high energy events (storms, tsunamis)},
author={Nandasena, NAK and Paris, Rapha{\"e}l and Tanaka, Norio},
journal={Marine Geology},
volume={281},
number={1-4},
pages={70--84},
year={2011},
publisher={Elsevier}
}
@article{weiss2015,
title={Untangling boulder dislodgement in storms and tsunamis: Is it possible with simple theories?},
author={Weiss, R and Diplas, P},
journal={Geochemistry, Geophysics, Geosystems},
volume={16},
number={3},
pages={890--898},
year={2015},
publisher={Wiley Online Library}
}
@article{zijlema2011,
title={SWASH: An operational public domain code for simulating wave fields and rapidly varied flows in coastal waters},
author={Zijlema, Marcel and Stelling, Guus and Smit, Pieter},
journal={Coastal Engineering},
volume={58},
number={10},
pages={992--1012},
year={2011},
publisher={Elsevier}
}
@article{higuera2015,
title={Application of computational fluid dynamics to wave action on structures},
author={Higuera, P},
journal={PhD. Universidade de Cantabria},
year={2015}
}
@phdthesis{poncet2021,
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={Université de Pau et des Pays de l'Adour},
chapter={4},
}
@article{torrence1998,
title={A practical guide to wavelet analysis},
author={Torrence, Christopher and Compo, Gilbert P},
journal={Bulletin of the American Meteorological society},
volume={79},
number={1},
pages={61--78},
year={1998},
publisher={American Meteorological Society}
}
@article{dysthe2008,
title={Oceanic rogue waves},
author={Dysthe, Kristian and Krogstad, Harald E and M{\"u}ller, Peter},
journal={Annu. Rev. Fluid Mech.},
volume={40},
pages={287--310},
year={2008},
publisher={Annual Reviews}
}