WAVEWATCH III ^TM-Publications

From CSDMS
References WAVEWATCH III ^TM

Publication(s)YearTypeCited
Tolman, H. L.; 1989. The numerical model WAVEWATCH: a third generation model for the hindcasting of wind waves on tides in shelf seas.. Communications on Hydraulic and Geotechnical Engineering, Delft Univ. of Techn., ISSN 0169-6548, Rep. no. 89-2.
(View/edit entry)		1989Model overview 0
Tolman, Hendrik L.; 1991. A Third-Generation Model for Wind Waves on Slowly Varying, Unsteady, and Inhomogeneous Depths and Currents. Journal of Physical Oceanography, 21, 782–797. 10.1175/1520-0485(1991)0212.0.CO;2
(View/edit entry)		1991Model overview 570
Tolman, H. L.; Accensi, Mickael; et al. 2014. User manual and system documentation of WAVEWATCH III R version 4.18. NOAA / NWS / NCEP / OMB Technical Note 151.
(View/edit entry)		2014



Model overview

1107
Tolman, H. L.; 2009. User manual and system documentation of WAVEWATCH III version 3.14.. NOAA / NWS / NCEP / MMAB Technical Note 276.
(View/edit entry)		2009



Model overview

0
Vousdoukas, Michalis I.; Ferreira, Óscar; Almeida, Luís P.; Pacheco, André; 2012. Toward reliable storm-hazard forecasts: XBeach calibration and its potential application in an operational early-warning system. Ocean Dynamics, 62, 1001–1015. 10.1007/s10236-012-0544-6
(View/edit entry)		2012

Model application

89
The WAVEWATCH III® Development Group (WW3DG) 2019. User manual and system documentation of WAVEWATCH III® version 6.07.. Tech. Note 333, NOAA/NWS/NCEP/MMAB.
(View/edit entry)		2019

Model overview

0
Liu, Qingxiang; Rogers, W. Erick; Babanin, Alexander V.; Young, Ian R.; Romero, Leonel; Zieger, Stefan; Qiao, Fangli; Guan, Changlong; 2019. Observation-Based Source Terms in the Third-Generation Wave Model WAVEWATCH III: Updates and Verification. Journal of Physical Oceanography, 49, 489–517. 10.1175/JPO-D-18-0137.1
(View/edit entry)		2019Model overview 152
Björkqvist, J.-V.; Vähä-Piikkiö, O.; Alari, V.; Kuznetsova, A.; Tuomi, L.; 2019. WAM, SWAN and WAVEWATCH III in the Finnish archipelago – the effect of spectral performance on bulk wave parameters. Journal of Operational Oceanography, , 1–16. 10.1080/1755876X.2019.1633236
(View/edit entry)		2019Model application 7
Aror, Ricky Daniel; Patty, Wilhelmina; Ramdhani, Andri; 2019. Utilization of Wavewatch III Model Output Data for High Wave Analysis. ILMU KELAUTAN: Indonesian Journal of Marine Sciences, 24, 132. 10.14710/ik.ijms.24.3.132-138
(View/edit entry)		2019Model application 0
Kuznetsova, A; Baydakov, G; Sergeev, D; Troitskaya, Yu; 2019. High Resolution Waves and Weather Forecasts Using Adapted Wavewatch III and WRF Models. Journal of Physics: Conference Series, 1163, 012031. 10.1088/1742-6596/1163/1/012031
(View/edit entry)		2019Model application 1
Kuznetsova, Aleksandra; Panfilova, Maria; Titchenko, Yuriy; Baydakov, Georgy; Troitskaya, Yuliya; 2019. Study of waves at different fetches using WAVEWATCH III modeling and precipitation radar data. . Volume .
(View/edit entry)		2019Model application 0
Manawasekara, Chathura; Xia, Yiqing; Amunugama, Mangala; Tanaka, Yoji; Suzuyama, Katsuyuki; 2019. ANALYSIS OF WAVE CHARACTERISTICS IN OSAKA BAY FOR THREE MAJOR TYPHOONS USING WAVEWATCH III. Journal of Japan Society of Civil Engineers, Ser. B3 (Ocean Engineering), 75, I_289–I_294. 10.2208/jscejoe.75.I_289
(View/edit entry)		2019Model application 0
Sheng, Yexin; Shao, Weizeng; Li, Shuiqing; Zhang, Yuming; Yang, Hongwei; Zuo, Juncheng; 2019. Evaluation of Typhoon Waves Simulated by WaveWatch-III Model in Shallow Waters Around Zhoushan Islands. Journal of Ocean University of China, 18, 365–375. 10.1007/s11802-019-3829-2
(View/edit entry)		2019Model application 21
Osinski, Robert Daniel; Radtke, Hagen; 2019. Ensemble hindcasting of wind and wave conditions with WRF and Wavewatch III<sup>®</sup> driven by ERA5. Ocean Science Discussions, , 1–20. 10.5194/os-2019-76
(View/edit entry)		2019Model application 11
Swain, J; Umesh, Pa; Balchand, An; 2019. WAM and WAVEWATCH-III intercomparison studies in the North Indian Ocean using Oceansat-2 Scatterometer winds. Journal of Ocean and Climate: Science, Technology and Impacts, 9, 251601921986656. 10.1177/2516019219866569
(View/edit entry)		2019Model application 8
Markina, M; Gavrikov, A; Gulev, S; 2019. WAVEWATCH III –WRF high-resolution wind wave hindcast in the North Atlantic: wave model configuration and preliminary results for 1979-2000. IOP Conference Series: Earth and Environmental Science, 231, 012035. 10.1088/1755-1315/231/1/012035
(View/edit entry)		2019Model application 0
Qiao, Wenli; Song, Jinbao; He, Hailun; Li, Funing; 2019. Application of different wind field models and wave boundary layer model to typhoon waves numerical simulation in WAVEWATCH III model. Tellus A: Dynamic Meteorology and Oceanography, 71, 1–20. 10.1080/16000870.2019.1657552
(View/edit entry)		2019Model application 15
Khan, Salman; Echevarria, Emilio; Hemer, Mark; 2019. Sentinel-1, WW3 and Buoy Spectral Comparisons in the Southern Ocean. . Volume .
(View/edit entry)		2019Model application 0
Kuznetsova, Aleksandra; Baydakov, Georgy; Sergeev, Daniil; Troitskaya, Yuliya; 2019. Estimation of the air-sea exchange processes parameters under modeled hurricane Irma wind conditions. . Volume .
(View/edit entry)		2019Model application 0
Kuznetsova, A; Baydakov, G; Dosaev, A; Sergeev, D; Troitskaya, Yu; 2019. Wind Waves Modeling Under Hurricane Wind Conditions. Journal of Physics: Conference Series, 1163, 012054. 10.1088/1742-6596/1163/1/012054
(View/edit entry)		2019Model application 4
Wijesundara, Shanka N.; Johnson, Joel T.; 2019. Swell Effects on Near-Coastal Smap L-Band High-Resolution NRCS Data. . Volume .
(View/edit entry)		2019Model application 1
Lopatoukhin, L. I.; Yaitskaya, N. A.; 2019. Data of Wind Field Reanalysis over the Caspian Sea for Calculating the Regime of Wind Waves. Water Resources, 46, 926–933. 10.1134/S0097807819060125
(View/edit entry)		2019Model application 0
Lin, Jinghua; Pei, Aiguo; Wang, Zhifeng; Dong, Sheng; Gong, Yijie; 2019. Statistical Characteristics of Surface Waves in the North of South China Sea. Journal of Coastal Research, 93, 131. 10.2112/SI93-019.1
(View/edit entry)		2019Model application 0
Kuehl, Steven A.; Williams, Joshua; Liu, J. Paul; Harris, Courtney; Aung, Day Wa; Tarpley, Danielle; Goodwyn, Mary; Aye, Yin Yin; 2019. Sediment dispersal and accumulation off the Ayeyarwady delta – Tectonic and oceanographic controls. Marine Geology, 417, 106000. 10.1016/j.margeo.2019.106000
(View/edit entry)		2019Model application 13
Ma, Y; Friedrichs, Carl T.; Harris, Courtney K.; Wright, L. Donelson 2009. Deposition by seasonal wave- and current-supported sediment gravity flows interacting with spatially varying bathymetry: Waiapu shelf, New Zealand. Marine Geology, 275, 199-211. 10.1016/j.margeo.2010.06.001
(View/edit entry)		2009

Source code ref.

24
Westerink, Joannes J.; Joyce, Brian; Grumbine, Robert; Van der Westhuysen, Andre; Feyen, Jesse; Pringle, William J.; Wirasaet, Dam; 2018. COUPLED TIDES, STORM SURGE AND WAVES UNDER VARYING ICE COVERAGES ALONG ALASKA’S BERING AND CHUKCHI COASTS. Coastal Engineering Proceedings, , 69. 10.9753/icce.v36.currents.69
(View/edit entry)		2018Model application 2
Barnard, Patrick L.; van Ormondt, Maarten; Erikson, Li H.; Eshleman, Jodi; Hapke, Cheryl; Ruggiero, Peter; Adams, Peter N.; Foxgrover, Amy C.; 2014. Development of the Coastal Storm Modeling System (CoSMoS) for predicting the impact of storms on high-energy, active-margin coasts. Natural Hazards, 74, 1095–1125. 10.1007/s11069-014-1236-y
(View/edit entry)		2014

Model application

117
Mucerino, L.; Albarella, M.; Carpi, L.; Besio, G.; Benedetti, A.; Corradi, N.; Firpo, M.; Ferrari, M.; 2019. Coastal exposure assessment on Bonassola bay. Ocean & Coastal Management, 167, 20–31. 10.1016/j.ocecoaman.2018.09.015
(View/edit entry)		2019

Model application

22
Sheng, Y. Peter; Zhang, Yanfeng; Paramygin, Vladimir A.; 2010. Simulation of storm surge, wave, and coastal inundation in the Northeastern Gulf of Mexico region during Hurricane Ivan in 2004. Ocean Modelling, 35, 314–331. 10.1016/j.ocemod.2010.09.004
(View/edit entry)		2010

Model application

77
Cheng, T. K.; Hill, D. F.; Beamer, J.; García-Medina, G.; 2015. Climate change impacts on wave and surge processes in a Pacific Northwest (USA) estuary. Journal of Geophysical Research: Oceans, 120, 182–200. 10.1002/2014JC010268
(View/edit entry)		2015

Model application

15
Sheng, Y. Peter.; Paramygin, Vladimir A.; Alymov, Vadim; Davis, Justin R.; 2006. A Real-Time Forecasting System for Hurricane Induced Storm Surge and Coastal Flooding. . Volume .
(View/edit entry)		2006

Model application

22
Sheng, Y. P.; Paramygin, V. A.; 2010. Forecasting Storm Surge, Inundation, and 3D Circulation along the Florida Coast. . Volume .
(View/edit entry)		2010

Model application

10
Moghimi, Saeed; Van der Westhuysen, Andre; Abdolali, Ali; Myers, Edward; Vinogradov, Sergey; Ma, Zaizhong; Liu, Fei; Mehra, Avichal; Kurkowski, Nicole; 2020. Development of an ESMF Based Flexible Coupling Application of ADCIRC and WAVEWATCH III for High Fidelity Coastal Inundation Studies. Journal of Marine Science and Engineering, 8, 308. 10.3390/jmse8050308
(View/edit entry)		2020

Model application

13
Stopa, Justin E.; Filipot, Jean-François; Li, Ning; Cheung, Kwok Fai; Chen, Yi-Leng; Vega, Luis; 2013. Wave energy resources along the Hawaiian Island chain. Renewable Energy, 55, 305–321. 10.1016/j.renene.2012.12.030
(View/edit entry)		2013

Model application

87
Alves, Jose-Henrique G. M.; Chawla, Arun; Tolman, Hendrik L.; Schwab, David; Lang, Gregory; Mann, Greg; 2014. The Operational Implementation of a Great Lakes Wave Forecasting System at NOAA/NCEP*. Weather and Forecasting, 29, 1473–1497. 10.1175/WAF-D-12-00049.1
(View/edit entry)		2014

Model application

36
Moon, Il-Ju; 2005. Impact of a coupled ocean wave–tide–circulation system on coastal modeling. Ocean Modelling, 8, 203–236. 10.1016/j.ocemod.2004.02.001
(View/edit entry)		2005

Model application

100
Aijaz, S.; Ghantous, M.; Babanin, A. V.; Ginis, I.; Thomas, B.; Wake, G.; 2017. Nonbreaking wave-induced mixing in upper ocean during tropical cyclones using coupled hurricane-ocean-wave modeling: WAVE TURBULENCE IN HURRICANE MODELING. Journal of Geophysical Research: Oceans, 122, 3939–3963. 10.1002/2016JC012219
(View/edit entry)		2017

Model application

30
Liu, Lei; Fei, JianFang; Cheng, XiaoPing; Huang, XiaoGang; 2013. Effect of wind-current interaction on ocean response during Typhoon KAEMI (2006). Science China Earth Sciences, 56, 418–433. 10.1007/s11430-012-4548-3
(View/edit entry)		2013

Model application

5
Stein, Luiza Paschoal; Siegle, Eduardo; 2019. SANTOS BEACH MORPHODYNAMICS UNDER HIGH-ENERGY CONDITIONS. Revista Brasileira de Geomorfologia, 20, . 10.20502/rbg.v20i3.1419
(View/edit entry)		2019

Model application

4
Barnard, P.L.; Erikson, L.H.; Foxgrover, A.C.; Limber, P.W.; O'Neill, A.C.; Vitousek, S.; 2018
(View/edit entry)		2018

Model application

0
Wang, Zhifeng; Wu, Kejian; Dong, Sheng; Deng, Zeng’an; Zhang, Xiaoshuang; 2015. Effect of wave-induced Stokes drift on the dynamics of ocean mixed layer. Chinese Journal of Oceanology and Limnology, 33, 233–242. 10.1007/s00343-015-4036-7
(View/edit entry)		2015

Model application

5
Tolman, H.L.; Balasubramaniyan, B.; Burroughs, L.D.; Chalikov, D.V.; Chao, Y.Y.; Chen, H.S.; Gerald, V.M.; 2002. Development and Implementation of Wind-Generated Ocean Surface Wave Modelsat NCEP. Weather and Forecasting, 17, 311–333. <0311:DAIOWG>2.0.CO;2 10.1175/1520-0434(2002)017<0311:DAIOWG>2.0.CO;2
(View/edit entry)		2002

Model application

300
Zheng, Chong-wei; Pan, Jing; Li, Jia-xun; 2013. Assessing the China Sea wind energy and wave energy resources from 1988 to 2009. Ocean Engineering, 65, 39–48. 10.1016/j.oceaneng.2013.03.006
(View/edit entry)		2013Model application 174
Chawla, Arun; Spindler, Deanna M.; Tolman, Hendrik L.; 2013. Validation of a thirty year wave hindcast using the Climate Forecast System Reanalysis winds. Ocean Modelling, 70, 189–206. 10.1016/j.ocemod.2012.07.005
(View/edit entry)		2013Model application 285
Arinaga, Randi A.; Cheung, Kwok Fai; 2012. Atlas of global wave energy from 10 years of reanalysis and hindcast data. Renewable Energy, 39, 49–64. 10.1016/j.renene.2011.06.039
(View/edit entry)		2012Model application 230
Zheng, ChongWei; Zhuang, Hui; Li, Xin; Li, XunQiang; 2012. Wind energy and wave energy resources assessment in the East China Sea and South China Sea. Science China Technological Sciences, 55, 163–173. 10.1007/s11431-011-4646-z
(View/edit entry)		2012Model application 114
Zheng, Chong Wei; Li, Chong Yin; 2015. Variation of the wave energy and significant wave height in the China Sea and adjacent waters. Renewable and Sustainable Energy Reviews, 43, 381–387. 10.1016/j.rser.2014.11.001
(View/edit entry)		2015Model application 121
Silva, Dina; Bento, A. Rute; Martinho, Paulo; Guedes Soares, C.; 2015. High resolution local wave energy modelling in the Iberian Peninsula. Energy, 91, 1099–1112. 10.1016/j.energy.2015.08.067
(View/edit entry)		2015

Model application

77
Gonçalves, Marta; Martinho, Paulo; Guedes Soares, C.; 2014. Assessment of wave energy in the Canary Islands. Renewable Energy, 68, 774–784. 10.1016/j.renene.2014.03.017
(View/edit entry)		2014Model application 98
Tolman, Hendrik L.; 2008. A mosaic approach to wind wave modeling. Ocean Modelling, 25, 35–47. 10.1016/j.ocemod.2008.06.005
(View/edit entry)		2008Model application 166
Gonçalves, Marta; Martinho, Paulo; Guedes Soares, C.; 2014. Wave energy conditions in the western French coast. Renewable Energy, 62, 155–163. 10.1016/j.renene.2013.06.028
(View/edit entry)		2014Model application 93
Boudière, Edwige; Maisondieu, Christophe; Ardhuin, Fabrice; Accensi, Mickaël; Pineau-Guillou, Lucia; Lepesqueur, Jérémy; 2013. A suitable metocean hindcast database for the design of Marine energy converters. International Journal of Marine Energy, 3, e40–e52. 10.1016/j.ijome.2013.11.010
(View/edit entry)		2013Model application 105
Stopa, J. E.; Mouche, A.; 2017. Significant wave heights from Sentinel-1 SAR: Validation and applications: EMPIRICAL WAVE PARAMETERS FOR SENTINEL-1. Journal of Geophysical Research: Oceans, 122, 1827–1848. 10.1002/2016JC012364
(View/edit entry)		2017Model application 64
Shao, Weizeng; Sheng, Yexin; Sun, Jian; 2017. Preliminary Assessment of Wind and Wave Retrieval from Chinese Gaofen-3 SAR Imagery. Sensors, 17, 1705. 10.3390/s17081705
(View/edit entry)		2017Model application 51
Gallagher, Sarah; Tiron, Roxana; Whelan, Eoin; Gleeson, Emily; Dias, Frédéric; McGrath, Ray; 2016. The nearshore wind and wave energy potential of Ireland: A high resolution assessment of availability and accessibility. Renewable Energy, 88, 494–516. 10.1016/j.renene.2015.11.010
(View/edit entry)		2016Model application 93
Mentaschi, Lorenzo; Besio, Giovanni; Cassola, Federico; Mazzino, Andrea; 2015. Performance evaluation of Wavewatch III in the Mediterranean Sea. Ocean Modelling, 90, 82–94. 10.1016/j.ocemod.2015.04.003
(View/edit entry)		2015Model application 131
Hemer, M. A.; Griffin, D. A.; 2010. The wave energy resource along Australia’s Southern margin. Journal of Renewable and Sustainable Energy, 2, 043108. 10.1063/1.3464753
(View/edit entry)		2010Model application 68
Khon, V. C.; Mokhov, I. I.; Pogarskiy, F. A.; Babanin, A.; Dethloff, K.; Rinke, A.; Matthes, H.; 2014. Wave heights in the 21 st century Arctic Ocean simulated with a regional climate model: KHON ET AL.. Geophysical Research Letters, 41, 2956–2961. 10.1002/2014GL059847
(View/edit entry)		2014Model application 68
Tolman, Hendrik L; 2003. Treatment of unresolved islands and ice in wind wave models. Ocean Modelling, 5, 219–231. 10.1016/S1463-5003(02)00040-9
(View/edit entry)		2003Model application 174
García-Medina, Gabriel; Özkan-Haller, H. Tuba; Ruggiero, Peter; 2014. Wave resource assessment in Oregon and southwest Washington, USA. Renewable Energy, 64, 203–214. 10.1016/j.renene.2013.11.014
(View/edit entry)		2014Model application 60
Hemer, Mark A.; Katzfey, Jack; Trenham, Claire E.; 2013. Global dynamical projections of surface ocean wave climate for a future high greenhouse gas emission scenario. Ocean Modelling, 70, 221–245. 10.1016/j.ocemod.2012.09.008
(View/edit entry)		2013Model application 117
Stopa, Justin E.; Cheung, Kwok Fai; Tolman, Hendrik L.; Chawla, Arun; 2013. Patterns and cycles in the Climate Forecast System Reanalysis wind and wave data. Ocean Modelling, 70, 207–220. 10.1016/j.ocemod.2012.10.005
(View/edit entry)		2013Model application 115
Webb, A.; Fox-Kemper, B.; 2011. Wave spectral moments and Stokes drift estimation. Ocean Modelling, 40, 273–288. 10.1016/j.ocemod.2011.08.007
(View/edit entry)		2011Model application 103
Guedes Soares, C.; Bento, A. Rute; Gonçalves, Marta; Silva, Dina; Martinho, Paulo; 2014. Numerical evaluation of the wave energy resource along the Atlantic European coast. Computers &amp; Geosciences, 71, 37–49. 10.1016/j.cageo.2014.03.008
(View/edit entry)		2014Model application 76
Willis, M.; 2004. Infrasonic observations of open ocean swells in the Pacific: Deciphering the song of the sea. Geophysical Research Letters, 31, L19303. 10.1029/2004GL020684
(View/edit entry)		2004Model application 58
Mentaschi, L.; Besio, G.; Cassola, F.; Mazzino, A.; 2013. Problems in RMSE-based wave model validations. Ocean Modelling, 72, 53–58. 10.1016/j.ocemod.2013.08.003
(View/edit entry)		2013Model application 130
Li, Qing; Webb, Adrean; Fox-Kemper, Baylor; Craig, Anthony; Danabasoglu, Gokhan; Large, William G.; Vertenstein, Mariana; 2016. Langmuir mixing effects on global climate: WAVEWATCH III in CESM. Ocean Modelling, 103, 145–160. 10.1016/j.ocemod.2015.07.020
(View/edit entry)		2016Model application 88
Tran, N.; Vandemark, D.; Labroue, S.; Feng, H.; Chapron, B.; Tolman, H. L.; Lambin, J.; Picot, N.; 2010. Sea state bias in altimeter sea level estimates determined by combining wave model and satellite data. Journal of Geophysical Research, 115, C03020. 10.1029/2009JC005534
(View/edit entry)		2010Model application 77
Webb, A.; Fox-Kemper, B.; 2015. Impacts of wave spreading and multidirectional waves on estimating Stokes drift. Ocean Modelling, 96, 49–64. 10.1016/j.ocemod.2014.12.007
(View/edit entry)		2015Model application 53
Zieger, Stefan; Babanin, Alexander V.; Erick Rogers, W.; Young, Ian R.; 2015. Observation-based source terms in the third-generation wave model WAVEWATCH. Ocean Modelling, 96, 2–25. 10.1016/j.ocemod.2015.07.014
(View/edit entry)		2015Model application 152
Zheng, Chong Wei; Zhou, Lin; Jia, Ben Kai; Pan, Jing; Li, Xin; 2014. Wave characteristic analysis and wave energy resource evaluation in the China Sea. Journal of Renewable and Sustainable Energy, 6, 043101. 10.1063/1.4885842
(View/edit entry)		2014Model application 27
Anselmi-Molina, Carlos M.; Canals, Miguel; Morell, Julio; Gonzalez, Juan; Capella, Jorge; Mercado, Aurelio; 2012. Development of an Operational Nearshore Wave Forecast System for Puerto Rico and the U.S. Virgin Islands. Journal of Coastal Research, 284, 1049–1056. 10.2112/JCOASTRES-D-11-00132.1
(View/edit entry)		2012Model application 27
Michaud, H.; Marsaleix, P.; Leredde, Y.; Estournel, C.; Bourrin, F.; Lyard, F.; Mayet, C.; Ardhuin, F.; 2012. Three-dimensional modelling of wave-induced current from the surf zone to the inner shelf. Ocean Science, 8, 657–681. 10.5194/os-8-657-2012
(View/edit entry)		2012Model application 69
Morim, Joao; Cartwright, Nick; Etemad-Shahidi, Amir; Strauss, Darrell; Hemer, Mark; 2016. Wave energy resource assessment along the Southeast coast of Australia on the basis of a 31-year hindcast. Applied Energy, 184, 276–297. 10.1016/j.apenergy.2016.09.064
(View/edit entry)		2016Model application 74
Rute Bento, A.; Martinho, Paulo; Guedes Soares, C.; 2015. Numerical modelling of the wave energy in Galway Bay. Renewable Energy, 78, 457–466. 10.1016/j.renene.2015.01.024
(View/edit entry)		2015Model application 47
Abadie, Stéphane; Butel, Rémi; Mauriet, Sylvain; Morichon, Denis; Dupuis, Hélène; 2006. Wave climate and longshore drift on the South Aquitaine coast. Continental Shelf Research, 26, 1924–1939. 10.1016/j.csr.2006.06.005
(View/edit entry)		2006Model application 50
Mirzaei, Ali; Tangang, Fredolin; Juneng, Liew; Mustapha, Muzneena Ahmad; Husain, Mohd Lokman; Akhir, Mohd Fadzil; 2013. Wave climate simulation for southern region of the South China Sea. Ocean Dynamics, 63, 961–977. 10.1007/s10236-013-0640-2
(View/edit entry)		2013Model application 45
Langodan, Sabique; Viswanadhapalli, Yesubabu; Dasari, Hari Prasad; Knio, Omar; Hoteit, Ibrahim; 2016. A high-resolution assessment of wind and wave energy potentials in the Red Sea. Applied Energy, 181, 244–255. 10.1016/j.apenergy.2016.08.076
(View/edit entry)		2016Model application 80
Chawla, Arun; Tolman, Hendrik L.; 2008. Obstruction grids for spectral wave models. Ocean Modelling, 22, 12–25. 10.1016/j.ocemod.2008.01.003
(View/edit entry)		2008Model application 61
Roland, Aron; Ardhuin, Fabrice; 2014. On the developments of spectral wave models: numerics and parameterizations for the coastal ocean. Ocean Dynamics, 64, 833–846. 10.1007/s10236-014-0711-z
(View/edit entry)		2014Model application 106
Chawla, Arun; Tolman, Hendrik L.; Gerald, Vera; Spindler, Deanna; Spindler, Todd; Alves, Jose-Henrique G. M.; Cao, Degui; Hanson, Jeffrey L.; Devaliere, Eve-Marie; 2013. A Multigrid Wave Forecasting Model: A New Paradigm in Operational Wave Forecasting. Weather and Forecasting, 28, 1057–1078. 10.1175/WAF-D-12-00007.1
(View/edit entry)		2013Model application 37
Mosig, Johannes E. M.; Montiel, Fabien; Squire, Vernon A.; 2015. Comparison of viscoelastic‐type models for ocean wave attenuation in ice‐covered seas. Journal of Geophysical Research: Oceans, 120, 6072–6090. 10.1002/2015JC010881
(View/edit entry)		2015Model application 85
Bertin, Xavier; Castelle, Bruno; Chaumillon, Eric; Butel, Rémi; Quique, Robin; 2008. Longshore transport estimation and inter-annual variability at a high-energy dissipative beach: St. Trojan beach, SW Oléron Island, France. Continental Shelf Research, 28, 1316–1332. 10.1016/j.csr.2008.03.005
(View/edit entry)		2008Model application 79
Cheng, Sukun; Rogers, W. Erick; Thomson, Jim; Smith, Madison; Doble, Martin J.; Wadhams, Peter; Kohout, Alison L.; Lund, Björn; Persson, Ola P.G.; Collins, Clarence O.; Ackley, Stephen F.; Montiel, Fabien; Shen, Hayley H.; 2017. Calibrating a Viscoelastic Sea Ice Model for Wave Propagation in the Arctic Fall Marginal Ice Zone: CALIBRATING WAVE-IN-ICE MODEL FOR MIZ. Journal of Geophysical Research: Oceans, 122, 8770–8793. 10.1002/2017JC013275
(View/edit entry)		2017Model application 73
Appendini, Christian M.; Salles, Paulo; Mendoza, E. Tonatiuh; López, José; Torres-Freyermuth, Alec; 2012. Longshore Sediment Transport on the Northern Coast of the Yucatan Peninsula. Journal of Coastal Research, 285, 1404–1417. 10.2112/JCOASTRES-D-11-00162.1
(View/edit entry)		2012Model application 60
Li, Jingkai; Kohout, Alison L.; Doble, Martin J.; Wadhams, Peter; Guan, Changlong; Shen, Hayley H.; 2017. Rollover of Apparent Wave Attenuation in Ice Covered Seas: ROLLOVER OF WAVE ATTENUATION IN ICE. Journal of Geophysical Research: Oceans, 122, 8557–8566. 10.1002/2017JC012978
(View/edit entry)		2017Model application 32
Londhe, S.N.; 2008. Soft computing approach for real-time estimation of missing wave heights. Ocean Engineering, 35, 1080–1089. 10.1016/j.oceaneng.2008.05.003
(View/edit entry)		2008Model application 46
Charles, Elodie; Idier, Déborah; Thiébot, Jérôme; Le Cozannet, Gonéri; Pedreros, Rodrigo; Ardhuin, Fabrice; Planton, Serge; 2012. Present Wave Climate in the Bay of Biscay: Spatiotemporal Variability and Trends from 1958 to 2001. Journal of Climate, 25, 2020–2039. 10.1175/JCLI-D-11-00086.1
(View/edit entry)		2012Model application 70
Fan, Yalin; Lin, Shian-Jiann; Held, Isaac M.; Yu, Zhitao; Tolman, Hendrik L.; 2012. Global Ocean Surface Wave Simulation Using a Coupled Atmosphere–Wave Model. Journal of Climate, 25, 6233–6252. 10.1175/JCLI-D-11-00621.1
(View/edit entry)		2012Model application 93
Sandhya, K.G.; Balakrishnan Nair, T.M.; Bhaskaran, Prasad K.; Sabique, L.; Arun, N.; Jeykumar, K.; 2014. Wave forecasting system for operational use and its validation at coastal Puducherry, east coast of India. Ocean Engineering, 80, 64–72. 10.1016/j.oceaneng.2014.01.009
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Londhe, S. N.; Panchang, Vijay; 2006. One-Day Wave Forecasts Based on Artificial Neural Networks. Journal of Atmospheric and Oceanic Technology, 23, 1593–1603. 10.1175/JTECH1932.1
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Bromirski, Peter D.; Cayan, Daniel R.; Helly, John; Wittmann, Paul; 2013. Wave power variability and trends across the North Pacific: WAVE POWER ACROSS THE NORTH PACIFIC. Journal of Geophysical Research: Oceans, 118, 6329–6348. 10.1002/2013JC009189
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Fan, Yalin; Ginis, Isaac; Hara, Tetsu; Wright, C. Wayne; Walsh, Edward J.; 2009. Numerical Simulations and Observations of Surface Wave Fields under an Extreme Tropical Cyclone. Journal of Physical Oceanography, 39, 2097–2116. 10.1175/2009JPO4224.1
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Ngo, Phillip; Das, Jnaneshwar; Ogle, Jonathan; Thomas, Jesse; Anderson, Will; Smith, Ryan N.; 2014. Predicting the speed of a Wave Glider autonomous surface vehicle from wave model data. . Volume .
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Robertson, Bryson R.D.; Hiles, Clayton E.; Buckham, Bradley J.; 2014. Characterizing the near shore wave energy resource on the west coast of Vancouver Island, Canada. Renewable Energy, 71, 665–678. 10.1016/j.renene.2014.06.006
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Onink, Victor; Wichmann, David; Delandmeter, Philippe; Sebille, Erik; 2019. The Role of Ekman Currents, Geostrophy, and Stokes Drift in the Accumulation of Floating Microplastic. Journal of Geophysical Research: Oceans, 124, 1474–1490. 10.1029/2018JC014547
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Le Pichon, Alexis; Blanc, Elisabeth; Hauchecorne, Alain; Hetzer, Claus H.; Gilbert, Kenneth E.; Waxler, Roger; Talmadge, Carrick L.; 2010. Generation of Microbaroms by Deep-Ocean Hurricanes. In: (eds.)Infrasound Monitoring for Atmospheric Studies.. 249–262.
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Gemmrich, Johannes; Rogers, W. Erick; Thomson, Jim; Lehner, Susanne; 2018. Wave Evolution in Off‐Ice Wind Conditions. Journal of Geophysical Research: Oceans, 123, 5543–5556. 10.1029/2018JC013793
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Shadman, Milad; Estefen, Segen F.; Rodriguez, Claudio A.; Nogueira, Izabel C.M.; 2018. A geometrical optimization method applied to a heaving point absorber wave energy converter. Renewable Energy, 115, 533–546. 10.1016/j.renene.2017.08.055
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Mentaschi, Lorenzo; Besio, Giovanni; Cassola, Federico; Mazzino, Andrea; 2013. Developing and validating a forecast/hindcast system for the Mediterranean Sea. Journal of Coastal Research, 165, 1551–1556. 10.2112/SI65-262.1
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Gal, M.; Reading, A. M.; Ellingsen, S. P.; Gualtieri, L.; Koper, K. D.; Burlacu, R.; Tkalčić, H.; Hemer, M. A.; 2015. The frequency dependence and locations of short-period microseisms generated in the Southern Ocean and West Pacific: LONG-DURATION SEISMIC NOISE ANALYSIS. Journal of Geophysical Research: Solid Earth, 120, 5764–5781. 10.1002/2015JB012210
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Li, Qing; Reichl, Brandon G.; Fox‐Kemper, Baylor; Adcroft, Alistair J.; Belcher, Stephen E.; Danabasoglu, Gokhan; Grant, Alan L. M.; Griffies, Stephen M.; Hallberg, Robert; Hara, Tetsu; Harcourt, Ramsey R.; Kukulka, Tobias; Large, William G.; McWilliams, James C.; Pearson, Brodie; Sullivan, Peter P.; Van Roekel, Luke; Wang, Peng; Zheng, Zhihua; 2019. Comparing Ocean Surface Boundary Vertical Mixing Schemes Including Langmuir Turbulence. Journal of Advances in Modeling Earth Systems, 11, 3545–3592. 10.1029/2019MS001810
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Mirzaei, Ali; Tangang, Fredolin; Juneng, Liew; 2014. Wave energy potential along the east coast of Peninsular Malaysia. Energy, 68, 722–734. 10.1016/j.energy.2014.02.005
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Liu, Qingxiang; Babanin, Alexander; Fan, Yalin; Zieger, Stefan; Guan, Changlong; Moon, Il-Ju; 2017. Numerical simulations of ocean surface waves under hurricane conditions: Assessment of existing model performance. Ocean Modelling, 118, 73–93. 10.1016/j.ocemod.2017.08.005
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Brown, Adam; Thomson, Jim; Ellenson, Ashley; Rollano, Fadia Ticona; Ozkan-Haller, H. Tuba; Haller, Merrick C.; 2019. Kinematics and Statistics of Breaking Waves Observed Using SWIFT Buoys. IEEE Journal of Oceanic Engineering, 44, 1011–1023. 10.1109/JOE.2018.2868335
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Reikard, Gordon; 2013. Integrating wave energy into the power grid: Simulation and forecasting. Ocean Engineering, 73, 168–178. 10.1016/j.oceaneng.2013.08.005
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Mirzaei, Ali; Tangang, Fredolin; Juneng, Liew; 2015. Wave energy potential assessment in the central and southern regions of the South China Sea. Renewable Energy, 80, 454–470. 10.1016/j.renene.2015.02.005
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Perez, Jorge; Menendez, Melisa; Losada, Inigo J.; 2017. GOW2: A global wave hindcast for coastal applications. Coastal Engineering, 124, 1–11. 10.1016/j.coastaleng.2017.03.005
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Kantha, Lakshmi; Wittmann, Paul; Sclavo, Mauro; Carniel, Sandro; 2009. A preliminary estimate of the Stokes dissipation of wave energy in the global ocean: STOKES DISSIPATION OF WAVE ENERGY. Geophysical Research Letters, 36, n/a–n/a. 10.1029/2008GL036193
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Lewis, Huw W.; Castillo Sanchez, Juan Manuel; Graham, Jennifer; Saulter, Andrew; Bornemann, Jorge; Arnold, Alex; Fallmann, Joachim; Harris, Chris; Pearson, David; Ramsdale, Steven; Martínez-de la Torre, Alberto; Bricheno, Lucy; Blyth, Eleanor; Bell, Victoria A.; Davies, Helen; Marthews, Toby R.; O&amp;amp;apos;Neill, Clare; Rumbold, Heather; O&amp;amp;apos;Dea, Enda; Brereton, Ashley; Guihou, Karen; Hines, Adrian; Butenschon, Momme; Dadson, Simon J.; Palmer, Tamzin; Holt, Jason; Reynard, Nick; Best, Martin; Edwards, John; Siddorn, John; 2018. The UKC2 regional coupled environmental prediction system. Geoscientific Model Development, 11, 1–42. 10.5194/gmd-11-1-2018
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Ardhuin, Fabrice; Rawat, Arshad; Aucan, Jerome; 2014. A numerical model for free infragravity waves: Definition and validation at regional and global scales. Ocean Modelling, 77, 20–32. 10.1016/j.ocemod.2014.02.006
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Amrutha, M.M.; Kumar, V. Sanil; Sandhya, K.G.; Nair, T.M. Balakrishnan; Rathod, J.L.; 2016. Wave hindcast studies using SWAN nested in WAVEWATCH III - comparison with measured nearshore buoy data off Karwar, eastern Arabian Sea. Ocean Engineering, 119, 114–124. 10.1016/j.oceaneng.2016.04.032
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Zheng, Chong Wei; Li, Chong Yin; Chen, Xuan; Pan, Jing; 2016. Numerical Forecasting Experiment of the Wave Energy Resource in the China Sea. Advances in Meteorology, 2016, 1–12. 10.1155/2016/5692431
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Bi, Fan; Song, Jinbao; Wu, Kejian; Xu, Yao; 2015. Evaluation of the simulation capability of the Wavewatch III model for Pacific Ocean wave. Acta Oceanologica Sinica, 34, 43–57. 10.1007/s13131-015-0737-1
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Durrant, Tom H.; Greenslade, Diana J.M.; Simmonds, Ian; 2013. The effect of statistical wind corrections on global wave forecasts. Ocean Modelling, 70, 116–131. 10.1016/j.ocemod.2012.10.006
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Wang, Tianlin; Zavorotny, Valery U.; Johnson, Joel; Yi, Yuchan; Ruf, Christopher; 2019. Integration of Cygnss Wind and Wave Observations with the Wavewatch III Numerical Model. . Volume .
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Aboobacker, V.M.; Shanas, P.R.; Alsaafani, M.A.; Albarakati, Alaa M.A.; 2017. Wave energy resource assessment for Red Sea. Renewable Energy, 114, 46–58. 10.1016/j.renene.2016.09.073
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Guo, Zhen; Huang, Yu; Aydin, Adnan; Xue, Mei; 2020. Identifying the Frequency Dependent Interactions between Ocean Waves and the Continental Margin on Seismic Noise Recordings. Journal of Marine Science and Engineering, 8, 134. 10.3390/jmse8020134
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Wang, Yu; Holt, Benjamin; Erick Rogers, W.; Thomson, Jim; Shen, Hayley H.; 2016. Wind and wave influences on sea ice floe size and leads in the Beaufort and Chukchi Seas during the summer-fall transition 2014: WIND, WAVE, SEA ICE MORPHOLOGY. Journal of Geophysical Research: Oceans, 121, 1502–1525. 10.1002/2015JC011349
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Hemer, M.A.; Simmonds, I.; Keay, K.; 2008. A classification of wave generation characteristics during large wave events on the Southern Australian margin. Continental Shelf Research, 28, 634–652. 10.1016/j.csr.2007.12.004
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Ticona Rollano, Fadia; Brown, Adam; Ellenson, Ashley; Özkan-Haller, H. Tuba; Thomson, Jim; Haller, Merrick C.; 2019. Breaking waves in deep water: measurements and modeling of energy dissipation. Ocean Dynamics, 69, 1165–1179. 10.1007/s10236-019-01301-2
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Ponce de León, Sonia; Bettencourt, J.; Van Vledder, G. Ph.; Doohan, P.; Higgins, C.; Guedes Soares, Carlos; Dias, Frederic; 2018. Performance of WAVEWATCH-III and SWAN Models in the North Sea. . Volume .
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Calafat, F.M.; Cipollini, P.; Bouffard, J.; Snaith, H.; Féménias, P.; 2017. Evaluation of new CryoSat-2 products over the ocean. Remote Sensing of Environment, 191, 131–144. 10.1016/j.rse.2017.01.009
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Barruol, Guilhem; Reymond, Dominique; Fontaine, Fabrice R.; Hyvernaud, Olivier; Maurer, Vincent; Maamaatuaiahutapu, Keitapu; 2006. Characterizing swells in the southern Pacific from seismic and infrasonic noise analyses. Geophysical Journal International, 164, 516–542. 10.1111/j.1365-246X.2006.02871.x
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Trembanis, Arthur C.; Friedrichs, Carl T.; Richardson, Michael D.; Traykovski, Peter; Howd, Peter A.; Elmore, Paul A.; Wever, Thomas F.; 2007. Predicting Seabed Burial of Cylinders by Wave-Induced Scour: Application to the Sandy Inner Shelf Off Florida and Massachusetts. IEEE Journal of Oceanic Engineering, 32, 167–183. 10.1109/JOE.2007.890958
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Zhang, Weiqing; Perrie, William; Li, Weibiao; 2006. Impacts of Waves and Sea Spray on Midlatitude Storm Structure and Intensity. Monthly Weather Review, 134, 2418–2442. 10.1175/MWR3191.1
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Alonso, Rodrigo; Solari, Sebastián; Teixeira, Luis; 2015. Wave energy resource assessment in Uruguay. Energy, 93, 683–696. 10.1016/j.energy.2015.08.114
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Li, Shuiqing; Guan, Shoude; Hou, Yijun; Liu, Yahao; Bi, Fan; 2018. Evaluation and adjustment of altimeter measurement and numerical hindcast in wave height trend estimation in China’s coastal seas. International Journal of Applied Earth Observation and Geoinformation, 67, 161–172. 10.1016/j.jag.2018.01.007
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Hsu, Je-Yuan; Lien, Ren-Chieh; D’Asaro, Eric A.; Sanford, Thomas B.; 2018. Estimates of Surface Waves Using Subsurface EM-APEX Floats under Typhoon Fanapi 2010. Journal of Atmospheric and Oceanic Technology, 35, 1053–1075. 10.1175/JTECH-D-17-0121.1
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Ardhuin, Fabrice; Magne, Rudy; 2010. Modélisation des états de mer du globe à la plage : validation de nouveaux paramètres produits par Prévimer. . Volume .
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Zheng, Chongwei; Zhang, Ren; Shi, Weilai; Li, Xin; Chen, Xuan; 2017. Trends in significant wave height and surface wind speed in the China Seas between 1988 and 2011. Journal of Ocean University of China, 16, 717–726. 10.1007/s11802-017-3213-z
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Chu, Peter C.; Qi, Yiquan; Chen, Yuchun; Shi, Ping; Mao, Qingwen; 2004. South China Sea Wind-Wave Characteristics. Part I: Validation of Wavewatch-III Using TOPEX/Poseidon Data. Journal of Atmospheric and Oceanic Technology, 21, 1718–1733. 10.1175/JTECH1661.1
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Kuznetsova, Alexandra; Baydakov, Georgy; Papko, Vladislav; Kandaurov, Alexander; Vdovin, Maxim; Sergeev, Daniil; Troitskaya, Yuliya; 2016. Adjusting of Wind Input Source Term in WAVEWATCH III Model for the Middle-Sized Water Body on the Basis of the Field Experiment. Advances in Meteorology, 2016, 1–13. 10.1155/2016/8539127
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Gallagher, Sarah; Tiron, Roxana; Dias, Frédéric; 2014. A long-term nearshore wave hindcast for Ireland: Atlantic and Irish Sea coasts (1979–2012): Present wave climate and energy resource assessment. Ocean Dynamics, 64, 1163–1180. 10.1007/s10236-014-0728-3
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Hemer, M. A.; McInnes, K. L.; Ranasinghe, R.; 2013. Projections of climate change-driven variations in the offshore wave climate off south eastern Australia: Offshore wave climate projections east of Australia. International Journal of Climatology, 33, 1615–1632. 10.1002/joc.3537
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Markina, Margarita; Gavrikov, Alexander; Gulev, Sergey; Barnier, Bernard; 2018. Developing configuration of WRF model for long-term high-resolution wind wave hindcast over the North Atlantic with WAVEWATCH III. Ocean Dynamics, 68, 1593–1604. 10.1007/s10236-018-1215-z
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Samiksha, S. V.; Vethamony, P.; Aboobacker, V. M.; Rashmi, R.; 2012. Propagation of Atlantic Ocean swells in the north Indian Ocean: a case study. Natural Hazards and Earth System Sciences, 12, 3605–3615. 10.5194/nhess-12-3605-2012
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Timmermans, Ben; Stone, Dáithí; Wehner, Michael; Krishnan, Harinarayan; 2017. Impact of tropical cyclones on modeled extreme wind‐wave climate. Geophysical Research Letters, 44, 1393–1401. 10.1002/2016GL071681
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Jiang, Haoyu; Babanin, Alexander V.; Chen, Ge; 2016. Event-Based Validation of Swell Arrival Time. Journal of Physical Oceanography, 46, 3563–3569. 10.1175/JPO-D-16-0208.1
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Ji, Qiyan; Shao, Weizeng; Sheng, Yexin; Yuan, Xinzhe; 2018. A Promising Method of Typhoon Wave Retrieval from Gaofen-3 Synthetic Aperture Radar Image in VV-Polarization. Sensors, 18, 2064. 10.3390/s18072064
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Reichl, Brandon G.; Hara, Tetsu; Ginis, Isaac; 2014. Sea state dependence of the wind stress over the ocean under hurricane winds: Sea State Dependence of the Wind Stress. Journal of Geophysical Research: Oceans, 119, 30–51. 10.1002/2013JC009289
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Patra, Anindita; Bhaskaran, Prasad K.; 2016. Trends in wind-wave climate over the head Bay of Bengal region: WIND-WAVE CLIMATE FOR HEAD BAY REGION. International Journal of Climatology, 36, 4222–4240. 10.1002/joc.4627
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Shope, James B.; Storlazzi, Curt D.; Erikson, Li H.; Hegermiller, Christie A.; 2016. Changes to extreme wave climates of islands within the Western Tropical Pacific throughout the 21st century under RCP 4.5 and RCP 8.5, with implications for island vulnerability and sustainability. Global and Planetary Change, 141, 25–38. 10.1016/j.gloplacha.2016.03.009
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Feng, Hui; Vandemark, Doug; Quilfen, Yves; Chapron, Bertrand; Beckley, Brian; 2006. Assessment of wind-forcing impact on a global wind-wave model using the TOPEX altimeter. Ocean Engineering, 33, 1431–1461. 10.1016/j.oceaneng.2005.10.015
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Casas-Prat, M.; Wang, X.L.; Swart, N.; 2018. CMIP5-based global wave climate projections including the entire Arctic Ocean. Ocean Modelling, 123, 66–85. 10.1016/j.ocemod.2017.12.003
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Campos, R.M.; Alves, J.H.G.M.; Guedes Soares, C.; Guimaraes, L.G.; Parente, C.E.; 2018. Extreme wind-wave modeling and analysis in the south Atlantic ocean. Ocean Modelling, 124, 75–93. 10.1016/j.ocemod.2018.02.002
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Brumer, Sophia E.; Zappa, Christopher J.; Brooks, Ian M.; Tamura, Hitoshi; Brown, Scott M.; Blomquist, Byron W.; Fairall, Christopher W.; Cifuentes-Lorenzen, Alejandro; 2017. Whitecap Coverage Dependence on Wind and Wave Statistics as Observed during SO GasEx and HiWinGS. Journal of Physical Oceanography, 47, 2211–2235. 10.1175/JPO-D-17-0005.1
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Xu, Yao; Bi, Fan; Song, Jinbao; He, Hailun; 2017. The temporal and spatial variations in the Pacific wind and wave fields for the period 2002–2011. Acta Oceanologica Sinica, 36, 26–36. 10.1007/s13131-017-1039-6
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Li, Ning; Cheung, Kwok Fai; Stopa, Justin E.; Hsiao, Feng; Chen, Yi-Leng; Vega, Luis; Cross, Patrick; 2016. Thirty-four years of Hawaii wave hindcast from downscaling of climate forecast system reanalysis. Ocean Modelling, 100, 78–95. 10.1016/j.ocemod.2016.02.001
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Peres, D.J.; Iuppa, C.; Cavallaro, L.; Cancelliere, A.; Foti, E.; 2015. Significant wave height record extension by neural networks and reanalysis wind data. Ocean Modelling, 94, 128–140. 10.1016/j.ocemod.2015.08.002
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Gallagher, Sarah; Gleeson, Emily; Tiron, Roxana; McGrath, Ray; Dias, Frédéric; 2016. Wave climate projections for Ireland for the end of the 21st century including analysis of EC-Earth winds over the North Atlantic Ocean: 21st CENTURY WAVE CLIMATE PROJECTIONS FOR IRELAND. International Journal of Climatology, 36, 4592–4607. 10.1002/joc.4656
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Bento, A. Rute; Martinho, Paulo; Campos, Ricardo; Guedes Soares, C.; 2011. Modelling Wave Energy Resources in the Irish West Coast. . Volume .
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Waters, Jennifer; Wyatt, Lucy R.; Wolf, Judith; Hines, Adrian; 2013. Data assimilation of partitioned HF radar wave data into Wavewatch III. Ocean Modelling, 72, 17–31. 10.1016/j.ocemod.2013.07.003
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Nose, Takehiko; Webb, Adrean; Waseda, Takuji; Inoue, Jun; Sato, Kazutoshi; 2018. Predictability of storm wave heights in the ice-free Beaufort Sea. Ocean Dynamics, 68, 1383–1402. 10.1007/s10236-018-1194-0
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Bento, A. Rute; Martinho, Paulo; Guedes Soares, C.; 2018. Wave energy assessement for Northern Spain from a 33-year hindcast. Renewable Energy, 127, 322–333. 10.1016/j.renene.2018.04.049
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Shao, Weizeng; Li, Xiaofeng; Sun, Jian; 2015. Ocean Wave Parameters Retrieval from TerraSAR-X Images Validated against Buoy Measurements and Model Results. Remote Sensing, 7, 12815–12828. 10.3390/rs71012815
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Zheng, Chongwei; Pan, Jing; Tan, Yanke; Gao, Zhansheng; Rui, Zhenfeng; Chen, Chaohui; 2015. The seasonal variations in the significant wave height and sea surface wind speed of the China’s seas. Acta Oceanologica Sinica, 34, 58–64. 10.1007/s13131-015-0738-0
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Chu, Peter C.; Cheng, Kuo-Feng; 2008. South China Sea wave characteristics during typhoon Muifa passage in winter 2004. Journal of Oceanography, 64, 1–21. 10.1007/s10872-008-0001-9
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Wang, He; Wang, Jing; Yang, Jingsong; Ren, Lin; Zhu, Jianhua; Yuan, Xinzhe; Xie, Chunhua; 2018. Empirical Algorithm for Significant Wave Height Retrieval from Wave Mode Data Provided by the Chinese Satellite Gaofen-3. Remote Sensing, 10, 363. 10.3390/rs10030363
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Abadie, Stéphane; Butel, Rémi; Dupuis, Hélène; Brière, Christophe; 2005. Paramètres statistiques de la houle au large de la côte sud-aquitaine. Comptes Rendus Geoscience, 337, 769–776. 10.1016/j.crte.2005.03.012
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Bento, A. Rute; Martinho, Paulo; Soares, C. Guedes; 2011. Modelling wave energy resources for UK's southwest coast. . Volume .
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Mortlock, Tr; Goodwin, Id; Turner, Il; 2014. Nearshore SWAN model sensitivities to measured and modelled offshore wave scenarios at an embayed beach compartment, NSW, Australia. Australian Journal of Civil Engineering, 12, . 10.7158/C14-016.2014.12.1
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Wang, Zhifeng; Duan, Chenglin; Dong, Sheng; 2018. Long-term wind and wave energy resource assessment in the South China sea based on 30-year hindcast data. Ocean Engineering, 163, 58–75. 10.1016/j.oceaneng.2018.05.070
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Xu, Fumin; Perrie, Will; Toulany, Bechara; Smith, Peter C.; 2007. Wind-generated waves in Hurricane Juan. Ocean Modelling, 16, 188–205. 10.1016/j.ocemod.2006.09.001
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Zheng, Chongwei; Li, Chongyin; Wu, Hailang; Wang, Min; 2019. Feasibility of Wind Power and Wave Power Generation in the South China Sea. In: (eds.)21st Century Maritime Silk Road: Construction of Remote Islands and Reefs.. 73–89.
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Andréfouët, Serge; Ardhuin, Fabrice; Queffeulou, Pierre; Le Gendre, Romain; 2012. Island shadow effects and the wave climate of the Western Tuamotu Archipelago (French Polynesia) inferred from altimetry and numerical model data. Marine Pollution Bulletin, 65, 415–424. 10.1016/j.marpolbul.2012.05.042
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Tolman, Hendrik L.; Alves, Jose-Henrique G.M.; 2005. Numerical modeling of wind waves generated by tropical cyclones using moving grids. Ocean Modelling, 9, 305–323. 10.1016/j.ocemod.2004.09.003
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Moon, Il-Ju; Kwon, Jae-Il; Lee, Jong-Chan; Shim, Jae-Seol; Kang, Sok Kuh; Oh, Im Sang; Kwon, Seok Jae; 2009. Effect of the surface wind stress parameterization on the storm surge modeling. Ocean Modelling, 29, 115–127. 10.1016/j.ocemod.2009.03.006
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Langodan, Sabique; Cavaleri, Luigi; Viswanadhapalli, Yesubabu; Hoteit, Ibrahim; 2014. The Red Sea: A Natural Laboratory for Wind and Wave Modeling. Journal of Physical Oceanography, 44, 3139–3159. 10.1175/JPO-D-13-0242.1
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Gonçalves, Marta; Martinho, Paulo; Guedes Soares, C.; 2018. A 33-year hindcast on wave energy assessment in the western French coast. Energy, 165, 790–801. 10.1016/j.energy.2018.10.002
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Gal, M.; Reading, A. M.; Ellingsen, S. P.; Koper, K. D.; Burlacu, R.; 2017. Full wavefield decomposition of high-frequency secondary microseisms reveals distinct arrival azimuths for Rayleigh and Love waves: MICROSEISM WAVEFIELD DECOMPOSITION. Journal of Geophysical Research: Solid Earth, 122, 4660–4675. 10.1002/2017JB014141
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Quilfen, Y.; Yurovskaya, M.; Chapron, B.; Ardhuin, F.; 2018. Storm waves focusing and steepening in the Agulhas current: Satellite observations and modeling. Remote Sensing of Environment, 216, 561–571. 10.1016/j.rse.2018.07.020
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Yong, Huang; Baoshu, Yin; Perrie, William; Yijun, Hou; 2008. Responses of summertime extreme wave heights to local climate variations in the East China Sea. Journal of Geophysical Research, 113, C09031. 10.1029/2008JC004732
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Alves, Jose Henrique Gomes de Mattos; Ribeiro, Eric Oliveira; Matheson, Guisela Santiago Grossmann; Lima, José Antonio Moreira; Ribeiro, Carlos Eduardo Parente; 2009. Reconstituição do clima de ondas no sul-sudeste brasileiro entre 1997 e 2005. Revista Brasileira de Geofísica, 27, 427–445. 10.1590/S0102-261X2009000300010
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Jiang, Lifang; Yin, Yi; Cheng, Xuhua; Zhang, Zhixu; 2018. Interannual variability of significant wave height in the northern South China Sea. Aquatic Ecosystem Health &amp; Management, 21, 82–92. 10.1080/14634988.2017.1344455
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Wang, Zhifeng; Li, Shuiqing; Dong, Sheng; Wu, Kejian; Yu, Huaming; Wang, Linyan; Li, Wenbo; 2018. Extreme wave climate variability in South China Sea. International Journal of Applied Earth Observation and Geoinformation, 73, 586–594. 10.1016/j.jag.2018.04.009
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Filipot, J.-F.; Ardhuin, F.; 2012. A unified spectral parameterization for wave breaking: From the deep ocean to the surf zone: A UNIFIED WAVE BREAKING PARAMETERIZATION. Journal of Geophysical Research: Oceans, 117, n/a–n/a. 10.1029/2011JC007784
(View/edit entry)		2012Model application 36
Lund, Björn; Collins, Clarence O.; Tamura, Hitoshi; Graber, Hans C.; 2016. Multi-directional wave spectra from marine X-band radar. Ocean Dynamics, 66, 973–988. 10.1007/s10236-016-0961-z
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Mediavilla, D.G.; Sepúlveda, H.H.; 2016. Nearshore assessment of wave energy resources in central Chile (2009–2010). Renewable Energy, 90, 136–144. 10.1016/j.renene.2015.12.066
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Crosby, Sean C.; O’Reilly, William C.; Guza, Robert T.; 2016. Modeling Long-Period Swell in Southern California: Practical Boundary Conditions from Buoy Observations and Global Wave Model Predictions. Journal of Atmospheric and Oceanic Technology, 33, 1673–1690. 10.1175/JTECH-D-16-0038.1
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Forristall, George Z.; Ewans, Kevin; Olagnon, Michel; Prevosto, Marc; 2013. The West Africa Swell Project (WASP). . Volume .
(View/edit entry)		2013Model application 12
Yu, Huaming; Li, Jiangyu; Wu, Kejian; Wang, Zhifeng; Yu, Haiqing; Zhang, Shaoqing; Hou, Yijun; Kelly, Ryan M.; 2018. A global high-resolution ocean wave model improved by assimilating the satellite altimeter significant wave height. International Journal of Applied Earth Observation and Geoinformation, 70, 43–50. 10.1016/j.jag.2018.03.012
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Polnikov, V. G.; Innocentini, V.; 2008. Comparative Study of Performance of Wind Wave Model: Wavewatch—Modified By New Source Function. Engineering Applications of Computational Fluid Mechanics, 2, 466–481. 10.1080/19942060.2008.11015245
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Montoya, R.D.; Osorio Arias, A.; Ortiz Royero, J.C.; Ocampo-Torres, F.J.; 2013. A wave parameters and directional spectrum analysis for extreme winds. Ocean Engineering, 67, 100–118. 10.1016/j.oceaneng.2013.04.016
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Popinet, Stéphane; Gorman, Richard M.; Rickard, Graham J.; Tolman, Hendrik L.; 2010. A quadtree-adaptive spectral wave model. Ocean Modelling, 34, 36–49. 10.1016/j.ocemod.2010.04.003
(View/edit entry)		2010Model application 32
Patra, Anindita; Bhaskaran, Prasad K.; 2017. Temporal variability in wind–wave climate and its validation with ESSO-NIOT wave atlas for the head Bay of Bengal. Climate Dynamics, 49, 1271–1288. 10.1007/s00382-016-3385-z
(View/edit entry)		2017Model application 35
Lund, Björn; Zappa, Christopher J.; Graber, Hans C.; Cifuentes-Lorenzen, Alejandro; 2017. Shipboard Wave Measurements in the Southern Ocean. Journal of Atmospheric and Oceanic Technology, 34, 2113–2126. 10.1175/JTECH-D-16-0212.1
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Godoi, Victor A.; Bryan, Karin R.; Gorman, Richard M.; 2016. Regional influence of climate patterns on the wave climate of the southwestern Pacific: The New Zealand region: WAVES AND ATM. CYCLES ON THE SW PACIFIC. Journal of Geophysical Research: Oceans, 121, 4056–4076. 10.1002/2015JC011572
(View/edit entry)		2016Model application 31
Gemmrich, Johannes; Thomson, Jim; Rogers, W. Erick; Pleskachevsky, Andrey; Lehner, Susanne; 2016. Spatial characteristics of ocean surface waves. Ocean Dynamics, 66, 1025–1035. 10.1007/s10236-016-0967-6
(View/edit entry)		2016Model application 19
Stopa, Justin E.; 2018. Wind forcing calibration and wave hindcast comparison using multiple reanalysis and merged satellite wind datasets. Ocean Modelling, 127, 55–69. 10.1016/j.ocemod.2018.04.008
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Crespo, A.J.C.; Gómez-Gesteira, M.; Carracedo, P.; Dalrymple, R.A.; 2008. Hybridation of generation propagation models and SPH model to study severe sea states in Galician Coast. Journal of Marine Systems, 72, 135–144. 10.1016/j.jmarsys.2007.05.018
(View/edit entry)		2008Model application 12
Ahn, Seongho; Haas, Kevin A.; Neary, Vincent S.; 2019. Wave energy resource classification system for US coastal waters. Renewable and Sustainable Energy Reviews, 104, 54–68. 10.1016/j.rser.2019.01.017
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Tolman, Hendrik L.; 2013. A Generalized Multiple Discrete Interaction Approximation for resonant four-wave interactions in wind wave models. Ocean Modelling, 70, 11–24. 10.1016/j.ocemod.2013.02.005
(View/edit entry)		2013Model application 46
Hamylton, S.; 2011. The use of remote sensing and linear wave theory to model local wave energy around Alphonse Atoll, Seychelles. Estuarine, Coastal and Shelf Science, 95, 349–358. 10.1016/j.ecss.2011.08.035
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Brennan, Joseph; Dudley, John M.; Dias, Frédéric; 2018. Extreme Waves in Crossing Sea States. International Journal of Ocean and Coastal Engineering, 1, 1850001. 10.1142/S252980701850001X
(View/edit entry)		2018Model application 10
Chailan, Romain; Bouchette, Frederic; Dumontier, Colin; Hess, Olivier; Laurent, Anne; Lobry, Olivier; Michaud, Heloise; Nicoud, Sophie; Toulemonde, Gwladys; 2012. High Performance Pre-computing: Prototype Application to a Coastal Flooding Decision Tool. . Volume .
(View/edit entry)		2012Model application 6
Allahdadi, M. Nabi; Gunawan, Budi; Lai, Jonathan; He, Ruoying; Neary, Vincent S.; 2019. Development and validation of a regional-scale high-resolution unstructured model for wave energy resource characterization along the US East Coast. Renewable Energy, 136, 500–511. 10.1016/j.renene.2019.01.020
(View/edit entry)		2019Model application 32
Sampson, Charles R.; Wittmann, Paul A.; Serra, Efren A.; Tolman, Hendrik L.; Schauer, Jessica; Marchok, Timothy; 2013. Evaluation of Wave Forecasts Consistent with Tropical Cyclone Warning Center Wind Forecasts. Weather and Forecasting, 28, 287–294. 10.1175/WAF-D-12-00060.1
(View/edit entry)		2013Model application 14
Stefanakos, Christos; 2016. Fuzzy time series forecasting of nonstationary wind and wave data. Ocean Engineering, 121, 1–12. 10.1016/j.oceaneng.2016.05.018
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Zhou, Liang-ming; Wang, Ai-fang; Guo, Pei-fang; 2008. Numerical Simulation of Sea Surface Directional Wave Spectra under Typhoon Wind Forcing. Journal of Hydrodynamics, 20, 776–783. 10.1016/S1001-6058(09)60015-9
(View/edit entry)		2008Model application 27
Fabbro, V.; Biegel, G.; Forster, J.; Poisson, J.-B.; Danklmayer, A.; Bohler, C.; Marcellin, J.-P.; Brehm, T.; Gallus, M.; Castanet, L.; Ulland, A.; Hurtaud, Y.; 2017. Measurements of Sea Clutter at Low Grazing Angle in Mediterranean Coastal Environment. IEEE Transactions on Geoscience and Remote Sensing, 55, 6379–6389. 10.1109/TGRS.2017.2727057
(View/edit entry)		2017Model application 10
Echevarria, E. R.; Hemer, M. A.; Holbrook, N. J.; 2019. Seasonal Variability of the Global Spectral Wind Wave Climate. Journal of Geophysical Research: Oceans, 124, 2924–2939. 10.1029/2018JC014620
(View/edit entry)		2019Model application 18
Zhang, H.Q.; Nie, B.C.; 2016. Modelling windwave driven by typhoon Chan-Hom (201509) in the East China Sea. Theoretical and Applied Mechanics Letters, 6, 297–301. 10.1016/j.taml.2016.11.003
(View/edit entry)		2016Model application 2
Wingeart, K. M.; Herbers, T. H. C.; O'Reilly, W. C.; Wittmann, P. A.; Jensen, R. E.; Tolman, H. L.; 2002. Validation of Operational Global Wave Prediction Models with Spectral Buoy Data. . Volume .
(View/edit entry)		2002Model application 21
Lee, Han Soo; 2015. Evaluation of WAVEWATCH III performance with wind input and dissipation source terms using wave buoy measurements for October 2006 along the east Korean coast in the East Sea. Ocean Engineering, 100, 67–82. 10.1016/j.oceaneng.2015.03.009
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Siadatmousavi, S. Mostafa; Jose, F.; Stone, G.W.; 2012. On the importance of high frequency tail in third generation wave models. Coastal Engineering, 60, 248–260. 10.1016/j.coastaleng.2011.10.007
(View/edit entry)		2012Model application 26
Kuznetsova, A; Baydakov, G; Sergeev, D; Troitskaya, Yu; 2018. Development of a regional model based on adapted WAVEWATCH III and WRF models for the prediction of surface wind waves on the reservoir and wind. Journal of Physics: Conference Series, 955, 012014. 10.1088/1742-6596/955/1/012014
(View/edit entry)		2018Model application 1
Shanas, P.R.; Aboobacker, V.M.; Albarakati, Alaa M.A.; Zubier, Khalid M.; 2017. Climate driven variability of wind-waves in the Red Sea. Ocean Modelling, 119, 105–117. 10.1016/j.ocemod.2017.10.001
(View/edit entry)		2017Model application 32
Shimura, Tomoya; Mori, Nobuhito; Takemi, Tetsuya; Mizuta, Ryo; 2017. Long-term impacts of ocean wave-dependent roughness on global climate systems: W-AGCM. Journal of Geophysical Research: Oceans, 122, 1995–2011. 10.1002/2016JC012621
(View/edit entry)		2017Model application 19
Zheng, Chong-Wei; Wu, Guo-Xiang; Chen, Xuan; Wang, Qing; Gao, Zhan-Sheng; Chen, Yun-Ge; Luo, Xia; 2019. CMIP5-Based Wave Energy Projection: Case Studies of the South China Sea and the East China Sea. IEEE Access, 7, 82753–82763. 10.1109/ACCESS.2019.2924197
(View/edit entry)		2019Model application 20
Reichl, Brandon G.; Ginis, Isaac; Hara, Tetsu; Thomas, Biju; Kukulka, Tobias; Wang, Dong; 2016. Impact of Sea-State-Dependent Langmuir Turbulence on the Ocean Response to a Tropical Cyclone. Monthly Weather Review, 144, 4569–4590. 10.1175/MWR-D-16-0074.1
(View/edit entry)		2016Model application 24
Di Luccio, Diana; Benassai, Guido; Budillon, Giorgio; Mucerino, Luigi; Montella, Raffaele; Pugliese Carratelli, Eugenio; 2018. Wave run-up prediction and observation in a micro-tidal beach. Natural Hazards and Earth System Sciences, 18, 2841–2857. 10.5194/nhess-18-2841-2018
(View/edit entry)		2018Model application 22
Tao, Aifeng; Yan, Jin; Pei, Ye; Zheng, Jinhai; Mori, Nobuhito; 2017. Swells of the East China Sea. Journal of Ocean University of China, 16, 674–682. 10.1007/s11802-017-3406-5
(View/edit entry)		2017Model application 5
Villas Bôas, Ana B.; Gille, Sarah T.; Mazloff, Matthew R.; Cornuelle, Bruce D.; 2017. Characterization of the Deep Water Surface Wave Variability in the California Current Region: CALIFORNIA WAVE VARIABILITY. Journal of Geophysical Research: Oceans, 122, 8753–8769. 10.1002/2017JC013280
(View/edit entry)		2017Model application 8
Chu, Peter C.; Cheng, Kuo-Feng; 2007. Effect of wave boundary layer on sea-to-air dimethylsulfide transfer velocity during typhoon passage. Journal of Marine Systems, 66, 122–129. 10.1016/j.jmarsys.2006.01.013
(View/edit entry)		2007Model application 10
Lu, Li-Feng; Sasa, Kenji; Sasaki, Wataru; Terada, Daisuke; Kano, Toshiyuki; Mizojiri, Takaaki; 2017. Rough wave simulation and validation using onboard ship motion data in the Southern Hemisphere to enhance ship weather routing. Ocean Engineering, 144, 61–77. 10.1016/j.oceaneng.2017.08.037
(View/edit entry)		2017Model application 21
Wang, Jichao; Zhang, Jie; Yang, Jungang; 2014. Numerical simulation and preliminary analysis on ocean waves during Typhoon Nesat in South China Sea and adjacent areas. Chinese Journal of Oceanology and Limnology, 32, 665–680. 10.1007/s00343-014-3042-5
(View/edit entry)		2014Model application 4
Rogers, W. Erick; Wittmann, Paul A.; Wang, David W. C.; Clancy, R. Michael; Hsu, Y. Larry; 2005. Evaluations of Global Wave Prediction at the Fleet Numerical Meteorology and Oceanography Center*. Weather and Forecasting, 20, 745–760. 10.1175/WAF882.1
(View/edit entry)		2005Model application 24
Tang, C. L.; Perrie, W.; Jenkins, A. D.; DeTracey, B. M.; Hu, Y.; Toulany, B.; Smith, P. C.; 2007. Observation and modeling of surface currents on the Grand Banks: A study of the wave effects on surface currents. Journal of Geophysical Research, 112, C10025. 10.1029/2006JC004028
(View/edit entry)		2007Model application 41
Qi, Peng; Cao, Lei; 2015. Establishment and tests of EnOI assimilation module for WAVEWATCH III. Chinese Journal of Oceanology and Limnology, 33, 1295–1308. 10.1007/s00343-015-4282-8
(View/edit entry)		2015Model application 3
Sánchez, Antonio Santos; Rodrigues, Diego Arruda; Fontes, Raony Maia; Martins, Márcio Fernandes; Kalid, Ricardo de Araújo; Torres, Ednildo Andrade; 2018. Wave resource characterization through in-situ measurement followed by artificial neural networks' modeling. Renewable Energy, 115, 1055–1066. 10.1016/j.renene.2017.09.032
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Gramstad, Odin; Babanin, Alexander; 2016. The generalized kinetic equation as a model for the nonlinear transfer in third-generation wave models. Ocean Dynamics, 66, 509–526. 10.1007/s10236-016-0940-4
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Pastor, Jeremiah; Liu, Yucheng; 2016. Wave Climate Resource Analysis Based on a Revised Gamma Spectrum for Wave Energy Conversion Technology. Sustainability, 8, 1321. 10.3390/su8121321
(View/edit entry)		2016Model application 27
Pan, Shun-qi; Fan, Yang-ming; Chen, Jia-ming; Kao, Chia-chuen; 2016. Optimization of multi-model ensemble forecasting of typhoon waves. Water Science and Engineering, 9, 52–57. 10.1016/j.wse.2016.02.001
(View/edit entry)		2016Model application 6
Liu, Qingxiang; Rogers, W. Erick; Babanin, Alexander; Li, Jiangkai; Guan, Changlong; 2020. Spectral Modeling of Ice-Induced Wave Decay. Journal of Physical Oceanography, 50, 1583–1604. 10.1175/JPO-D-19-0187.1
(View/edit entry)		2020Model application 25
Tracy, Barbara; Spindler, Deanna; 2008. Wave Information Studies (WIS) Pacific Regional Hindcast. . Volume .
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Shanas, P.R.; Aboobacker, V.M.; Alaa, M.A. Albarakati; Khalid, M. Zubier; 2017. Superimposed wind-waves in the Red Sea. Ocean Engineering, 138, 9–22. 10.1016/j.oceaneng.2017.04.020
(View/edit entry)		2017Model application 17
Langodan, Sabique; Cavaleri, Luigi; Pomaro, Angela; Vishwanadhapalli, Yesubabu; Bertotti, Luciana; Hoteit, Ibrahim; 2017. The climatology of the Red Sea - part 2: the waves: THE WAVE CLIMATOLOGY OF THE RED SEA. International Journal of Climatology, 37, 4518–4528. 10.1002/joc.5101
(View/edit entry)		2017Model application 26
Kuznetsova, A. M.; Baidakov, G. A.; Papko, V. V.; Kandaurov, A. A.; Vdovin, M. I.; Sergeev, D. A.; Troitskaya, Yu. I.; 2016. Field Experiments and Numerical Modeling of Wind Speed and Surface Waves in Medium-size Inland Reservoirs. Russian Meteorology and Hydrology, 41, 136–145. 10.3103/S1068373916020084
(View/edit entry)		2016Model application 2
Zheng, Kaiwen; Sun, Jian; Guan, Changlong; Shao, Weizeng; 2016. Analysis of the Global Swell and Wind Sea Energy Distribution Using WAVEWATCH III. Advances in Meteorology, 2016, 1–9. 10.1155/2016/8419580
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Leckler, Fabien; Ardhuin, Fabrice; Filipot, Jean-François; Mironov, Alexey; 2013. Dissipation source terms and whitecap statistics. Ocean Modelling, 70, 62–74. 10.1016/j.ocemod.2013.03.007
(View/edit entry)		2013Model application 38
Gleeson, Emily; Gallagher, Sarah; Clancy, Colm; Dias, Frédéric; 2017. NAO and extreme ocean states in the Northeast Atlantic Ocean. Advances in Science and Research, 14, 23–33. 10.5194/asr-14-23-2017
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Gallagher, Sarah; Tiron, Roxana; Dias, Frederic; 2013. A Detailed Investigation of the Nearshore Wave Climate and the Nearshore Wave Energy Resource on the West Coast of Ireland. . Volume .
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Lin, Yuchun; Oey, Lie-Yauw; Orfila, Alejandro; 2019. Two ‘faces’ of ENSO-induced surface waves during the tropical cyclone season. Progress in Oceanography, 175, 40–54. 10.1016/j.pocean.2019.03.004
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Markina, M. Yu.; Gavrikov, A. V.; 2016. Wave climate variability in the North Atlantic in recent decades in the winter period using numerical modeling. Oceanology, 56, 320–325. 10.1134/S0001437016030140
(View/edit entry)		2016Model application 5
Abessolo Ondoa, Grégoire; Bonou, Frédéric; Tomety, Folly; du Penhoat, Yves; Perret, Clément; Degbe, Cossi; Almar, Rafael; 2017. Beach Response to Wave Forcing from Event to Inter-Annual Time Scales at Grand Popo, Benin (Gulf of Guinea). Water, 9, 447. 10.3390/w9060447
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Silva, Filipe Galiforni; de Oliveira Sousa, Paulo Henrique Gomes; Siegle, Eduardo; 2016. Longshore transport gradients and erosion processes along the Ilha Comprida (Brazil) beach system. Ocean Dynamics, 66, 853–865. 10.1007/s10236-016-0956-9
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Barbariol, Francesco; Alves, Jose-Henrique G. M.; Benetazzo, Alvise; Bergamasco, Filippo; Bertotti, Luciana; Carniel, Sandro; Cavaleri, Luigi; Y. Chao, Yung; Chawla, Arun; Ricchi, Antonio; Sclavo, Mauro; Tolman, Hendrik; 2017. Numerical modeling of space-time wave extremes using WAVEWATCH III. Ocean Dynamics, 67, 535–549. 10.1007/s10236-016-1025-0
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Ribal, Agustinus; Zieger, Stefan; 2016. Wave energy resource assessment based on satellite observations around Indonesia. . Volume .
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Contento, Giorgio; Lupieri, Guido; Venturi, Marco; Ciuffardi, Tiziana; 2011. A medium-resolution wave hindcast study over the Central and Western Mediterranean Sea. Journal of Marine Science and Technology, 16, 181–201. 10.1007/s00773-011-0122-5
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Korres, G.; Papadopoulos, A.; Katsafados, P.; Ballas, D.; Perivoliotis, L.; Nittis, K.; 2011. A 2-year intercomparison of the WAM-Cycle4 and the WAVEWATCH-III wave models implemented within the Mediterranean Sea. Mediterranean Marine Science, 12, 129. 10.12681/mms.57
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Li, Jingkai; Ma, Yunrui; Liu, Qingxiang; Zhang, Wenqing; Guan, Changlong; 2019. Growth of wave height with retreating ice cover in the Arctic. Cold Regions Science and Technology, 164, 102790. 10.1016/j.coldregions.2019.102790
(View/edit entry)		2019Model application 19
Bhowmick, Suchandra Aich; Modi, Ruchi; Sandhya, K. G.; Seemanth, M.; Balakrishnan Nair, T. M.; Kumar, Raj; Sharma, Rashmi; 2015. Analysis of SARAL/AltiKa Wind and Wave over Indian Ocean and its Real-time Application in Wave Forecasting System at ISRO. Marine Geodesy, 38, 396–408. 10.1080/01490419.2015.1006380
(View/edit entry)		2015Model application 14
Gramstad, Odin; Babanin, Alexander; 2014. Implementing New Nonlinear Term in Third Generation Wave Models. . Volume .
(View/edit entry)		2014Model application 6
Gonçalves, Marta; Martinho, Paulo; Guedes Soares, C.; 2020. Wave energy assessment based on a 33-year hindcast for the Canary Islands. Renewable Energy, 152, 259–269. 10.1016/j.renene.2020.01.011
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Moon, Il-Ju; Ginis, Isaac; Hara, Tetsu; 2008. Impact of the Reduced Drag Coefficient on Ocean Wave Modeling under Hurricane Conditions. Monthly Weather Review, 136, 1217–1223. 10.1175/2007MWR2131.1
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Ellenson, Ashley; Özkan-Haller, H. Tuba; 2018. Predicting Large Ocean Wave Events Characterized by Bimodal Energy Spectra in the Presence of a Low-Level Southerly Wind Feature. Weather and Forecasting, 33, 479–499. 10.1175/WAF-D-17-0035.1
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Parker, K.; Hill, D.F.; 2017. Evaluation of bias correction methods for wave modeling output. Ocean Modelling, 110, 52–65. 10.1016/j.ocemod.2016.12.008
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Rogers, W. Erick; Dykes, James; Wittmann, Paul; 2014. US Navy Global and Regional Wave Modeling. Oceanography, 27, 56–67. 10.5670/oceanog.2014.68
(View/edit entry)		2014Model application 10
Fan, Yalin; Rogers, W. Erick; 2016. Drag coefficient comparisons between observed and model simulated directional wave spectra under hurricane conditions. Ocean Modelling, 102, 1–13. 10.1016/j.ocemod.2016.04.004
(View/edit entry)		2016Model application 24
Wang, Jichao; Zhang, Jie; Yang, Jungang; Bao, Wendi; Wu, Guoli; Ren, Qifeng; 2017. An evaluation of input/dissipation terms in WAVEWATCH III using in situ and satellite significant wave height data in the South China Sea. Acta Oceanologica Sinica, 36, 20–25. 10.1007/s13131-017-1038-7
(View/edit entry)		2017Model application 10
Browne, M.; Strauss, D.; Castelle, B.; Blumenstein, M.; Tomlinson, R.; Lane, C.; 2006. Empirical Estimation of Nearshore Waves From a Global Deep-Water Wave Model. IEEE Geoscience and Remote Sensing Letters, 3, 462–466. 10.1109/LGRS.2006.876225
(View/edit entry)		2006Model application 12
Fan, Yalin; Ginis, Isaac; Hara, Tetsu; 2010. Momentum Flux Budget across the Air–Sea Interface under Uniform and Tropical Cyclone Winds. Journal of Physical Oceanography, 40, 2221–2242. 10.1175/2010JPO4299.1
(View/edit entry)		2010Model application 30
Antonini, Alessandro; Archetti, Renata; Lamberti, Alberto; 2017. Wave simulation for the design of an innovative quay wall: the case of Vlorë Harbour. Natural Hazards and Earth System Sciences, 17, 127–142. 10.5194/nhess-17-127-2017
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Haces-Fernandez, Francisco; Li, Hua; Ramirez, David; 2018. Wave energy characterization and assessment in the U.S. Gulf of Mexico, East and West Coasts with Energy Event concept. Renewable Energy, 123, 312–322. 10.1016/j.renene.2018.02.047
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Davis, Justin; Sheremet, Alex; Tian, Miao; Saxena, Saurabh; 2014. A Numerical Implementation of a Nonlinear Mild Slope Model for Shoaling Directional Waves. Journal of Marine Science and Engineering, 2, 140–158. 10.3390/jmse2010140
(View/edit entry)		2014Model application 10
Devaliere, Eve-Marie; Hanson, Jeffrey L.; Luettich, Rick; 2009. Spatial Tracking of Numerical Wave Model Output Using a Spiral Search Algorithm. . Volume 2.
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Li, Jian-Guo; Saulter, Andrew; 2014. Unified global and regional wave model on a multi-resolution grid. Ocean Dynamics, 64, 1657–1670. 10.1007/s10236-014-0774-x
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Businger, Steven; Yildiz, Selen; Robinson, Thomas E.; 2015. The Impact of Hurricane Force Wind Fields on the North Pacific Ocean Environment. Weather and Forecasting, 30, 742–753. 10.1175/WAF-D-14-00107.1
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Li, Jian-Guo; 2016. Ocean surface waves in an ice-free Arctic Ocean. Ocean Dynamics, 66, 989–1004. 10.1007/s10236-016-0964-9
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Dias, Frédéric; Brennan, Joseph; Ponce de León, Sonia; Clancy, Colm; Dudley, John; 2015. Local Analysis of Wave Fields Produced From Hindcasted Rogue Wave Sea States. . Volume .
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Wang, Zhifeng; Zhou, Liangming; Dong, Sheng; Wu, Lunyu; Li, Zhanbin; Mou, Lin; 2014. Wind wave characteristics and engineering environment of the South China Sea. Journal of Ocean University of China, 13, 893–900. 10.1007/s11802-014-2331-0
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Ponce de León, Sonia; Bettencourt, João H.; Dias, Frederic; 2017. Comparison of numerical hindcasted severe waves with Doppler radar measurements in the North Sea. Ocean Dynamics, 67, 103–115. 10.1007/s10236-016-1014-3
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Tolman, Hendrik L; 2002. Distributed-memory concepts in the wave model WAVEWATCH III. Parallel Computing, 28, 35–52. 10.1016/S0167-8191(01)00130-2
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Campos, Ricardo M.; Guedes Soares, C.; 2016. Estimating Extreme Waves in Brazil Using Regional Frequency Analysis. . Volume .
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Ahn, Seongho; Haas, Kevin A.; Neary, Vincent S.; 2020. Wave energy resource characterization and assessment for coastal waters of the United States. Applied Energy, 267, 114922. 10.1016/j.apenergy.2020.114922
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Vaughan, G.L.; Squire, V.A.; 2011. Wave induced fracture probabilities for arctic sea-ice. Cold Regions Science and Technology, 67, 31–36. 10.1016/j.coldregions.2011.02.003
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Karev, Vladimir; Klimov, Dmitry; Pokazeev, Konstantin; Baydakov, G. A.; Kuznetsova, A. M.; Papko, V. V.; Kandaurov, A. A.; Vdovin, M. I.; Sergeev, D. A.; Troitskaya, Yu. I.; 2018. Field Investigation and Numerical Simulation of Wind-Wave Interaction at the Middle-Sized Inland Reservoirs. In: (eds.)Physical and Mathematical Modeling of Earth and Environment Processes.. 112–124.
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Re, Carlo; Manno, Giorgio; Ciraolo, Giuseppe; Besio, Giovanni; 2019. Wave Energy Assessment around the Aegadian Islands (Sicily). Energies, 12, 333. 10.3390/en12030333
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Aguirre, Catalina; Rutllant, José A.; Falvey, Mark; 2017. Wind waves climatology of the Southeast Pacific Ocean. International Journal of Climatology, 37, 4288–4301. 10.1002/joc.5084
(View/edit entry)		2017Model application 12
Otero, L. J.; Ortiz-Royero, J. C.; Ruiz-Merchan, J. K.; Higgins, A. E.; Henriquez, S. A.; 2016. Storms or cold fronts: what is really responsible for the extreme waves regime in the Colombian Caribbean coastal region?. Natural Hazards and Earth System Sciences, 16, 391–401. 10.5194/nhess-16-391-2016
(View/edit entry)		2016Model application 25
Mingkui, Li; Yijun, Hou; Baoshu, Yin; Jinbao, Song; Wei, Zhao; 2006. Numerical simulation of scatterometer assimilated wind and ocean wave in eastern China seas and adjacent waters. Chinese Journal of Oceanology and Limnology, 24, 42–47. 10.1007/BF02842773
(View/edit entry)		2006Model application 5
Kalantzi, Georgia D.; Gommenginger, Christine; Srokosz, Meric; 2009. Assessing the Performance of the Dissipation Parameterizations in WAVEWATCH III Using Collocated Altimetry Data. Journal of Physical Oceanography, 39, 2800–2819. 10.1175/2009JPO4182.1
(View/edit entry)		2009Model application 17
Mentaschi, Lorenzo; Kakoulaki, Georgia; Vousdoukas, Michalis; Voukouvalas, Evangelos; Feyen, Luc; Besio, Giovanni; 2018. Parameterizing unresolved obstacles with source terms in wave modeling: A real-world application. Ocean Modelling, 126, 77–84. 10.1016/j.ocemod.2018.04.003
(View/edit entry)		2018Model application 6
Ortiz, Juan Carlos; Salcedo, Bladimir; Otero, Luis Jesús; 2014. Investigating the Collapse of the Puerto Colombia Pier (Colombian Caribbean Coast) in March 2009: Methodology for the Reconstruction of Extreme Events and the Evaluation of their Impact on the Coastal Infrastructure. Journal of Coastal Research, 294, 291–300. 10.2112/JCOASTRES-D-12-00062.1
(View/edit entry)		2014Model application 18
Gallagher, Sarah; Gleeson, Emily; Tiron, Roxana; McGrath, Ray; Dias, Frédéric; 2016. Twenty-first century wave climate projections for Ireland and surface winds in the North Atlantic Ocean. Advances in Science and Research, 13, 75–80. 10.5194/asr-13-75-2016
(View/edit entry)		2016Model application 18
Lee, W. S.; Sheen, D.-H.; Yun, S.; Seo, K.-W.; 2011. The Origin of Double-Frequency Microseism and Its Seasonal Variability at King Sejong Station, Antarctica. Bulletin of the Seismological Society of America, 101, 1446–1451. 10.1785/0120100143
(View/edit entry)		2011Model application 9
Padilla-Hernández, R.; Perrie, W.; Toulany, B.; Smith, P. C.; 2007. Modeling of Two Northwest Atlantic Storms with Third-Generation Wave Models. Weather and Forecasting, 22, 1229–1242. 10.1175/2007WAF2005104.1
(View/edit entry)		2007Model application 29
Zheng, Kaiwen; Osinowo, Adekunle Ayodotun; Sun, Jian; Hu, Wei; 2018. Long-Term Characterization of Sea Conditions in the East China Sea Using Significant Wave Height and Wind Speed. Journal of Ocean University of China, 17, 733–743. 10.1007/s11802-018-3484-z
(View/edit entry)		2018Model application 12
Seemanth, M.; Bhowmick, Suchandra Aich; Kumar, Raj; Sharma, Rashmi; 2016. Sensitivity analysis of dissipation parameterizations in a third-generation spectral wave model, WAVEWATCH III for Indian Ocean. Ocean Engineering, 124, 252–273. 10.1016/j.oceaneng.2016.07.023
(View/edit entry)		2016Model application 25
Renosh, Pannimpullath; Jourdin, Frédéric; Charantonis, Anastase; Yala, Khalil; Rivier, Aurélie; Badran, Fouad; Thiria, Sylvie; Guillou, Nicolas; Leckler, Fabien; Gohin, Francis; Garlan, Thierry; 2017. Construction of Multi-Year Time-Series Profiles of Suspended Particulate Inorganic Matter Concentrations Using Machine Learning Approach. Remote Sensing, 9, 1320. 10.3390/rs9121320
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van Vledder, Gerbrant Ph.; C. Hulst, Sander Th.; McConochie, Jason D.; 2016. Source term balance in a severe storm in the Southern North Sea. Ocean Dynamics, 66, 1681–1697. 10.1007/s10236-016-0998-z
(View/edit entry)		2016Model application 22
Kazeminezhad, Mohammad Hossein; Siadatmousavi, Seyed Mostafa; 2017. Performance evaluation of WAVEWATCH III model in the Persian Gulf using different wind resources. Ocean Dynamics, 67, 839–855. 10.1007/s10236-017-1063-2
(View/edit entry)		2017Model application 18
Klumb-Oliveira, Leonardo Azevedo; Pereira, Nair Emmanuela Da Silveira; Leão, Rafael Rocha; 2015. MORFODINÂMICA MULTITEMPORAL EM PRAIA REFLETIVA NO LITORAL CENTRO-NORTE DO RJ, EM RESPOSTA AO CLIMA DE ONDAS REGIONAL. Revista Brasileira de Geomorfologia, 16, . 10.20502/rbg.v16i1.599
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, ; 2013. Ensemble wave forecasting over typhoon period. . Volume .
(View/edit entry)		2013Model application 2
Puscasu, Ruslan M.; 2014. Integration of Artificial Neural Networks into Operational Ocean Wave Prediction Models for Fast and Accurate Emulation of Exact Nonlinear Interactions. Procedia Computer Science, 29, 1156–1170. 10.1016/j.procs.2014.05.104
(View/edit entry)		2014Model application 10
Zhou, Liangming; Li, Zhanbin; Mou, Lin; Wang, Aifang; 2014. Numerical simulation of wave field in the South China Sea using WAVEWATCH III. Chinese Journal of Oceanology and Limnology, 32, 656–664. 10.1007/s00343-014-3155-x
(View/edit entry)		2014Model application 12
Mulligan, Ryan P.; Perrie, Will; Toulany, Bash; Smith, Peter C.; Hay, Alex E.; Bowen, Anthony J.; 2011. Performance of Nowcast and Forecast Wave Models for Lunenburg Bay, Nova Scotia. Atmosphere-Ocean, 49, 1–7. 10.1080/07055900.2011.558468
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Lobo, Matheus Santos; Santos, Bárbara Savina Silva; Lavenère-Wanderley, Ana Amelia De Oliveira; 2017. Análise Estatística Anual e Mensal das Ondas Atuantes na Costa de Ilhéus (Bahia) Baseada na Reanálise de Série Temporal de 31 Anos do Modelo de Ondas WAVEWATCH III. Geography Department University of Sao Paulo, , 67. 10.11606/rdg.v0ispe.132752
(View/edit entry)		2017Model application 0
Lewis, Huw W.; Castillo Sanchez, Juan Manuel; Arnold, Alex; Fallmann, Joachim; Saulter, Andrew; Graham, Jennifer; Bush, Mike; Siddorn, John; Palmer, Tamzin; Lock, Adrian; Edwards, John; Bricheno, Lucy; Martínez-de la Torre, Alberto; Clark, James; 2019. The UKC3 regional coupled environmental prediction system. Geoscientific Model Development, 12, 2357–2400. 10.5194/gmd-12-2357-2019
(View/edit entry)		2019Model application 60
Ponce de León, Sonia; Bettencourt, João H.; Brennan, Joseph; Dias, Frederic; 2015. Evolution of the Extreme Wave Region in the North Atlantic Using a 23 Year Hindcast. . Volume .
(View/edit entry)		2015Model application 4
Janjić, Jelena; Gallagher, Sarah; Dias, Frédéric; 2018. Case study of the winter 2013/2014 extreme wave events off the west coast of Ireland. Advances in Science and Research, 15, 145–157. 10.5194/asr-15-145-2018
(View/edit entry)		2018Model application 7
Palmeira, Ana Cristina Pinto de Almeida; Camargo, Ricardo de; Palmeira, Ronaldo Maia de Jesus; 2012. Efeito do detalhamento dos ventos na modelagem de agitação marítima no oeste do Atlântico Sul. Revista Brasileira de Meteorologia, 27, 117–125. 10.1590/S0102-77862012000100012
(View/edit entry)		2012Model application 2
Herman, Agnieszka; Wojtysiak, Kacper; Moskalik, Mateusz; 2019. Wind wave variability in Hornsund fjord, west Spitsbergen. Estuarine, Coastal and Shelf Science, 217, 96–109. 10.1016/j.ecss.2018.11.001
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Lee, Beng-Chun; Fan, Yang-Ming; Chuang, Laurence Zsu-Hsin; Kao, Chia Chuen; 2009. Parametric Sensitivity Analysis of the WAVEWATCH III Model. Terrestrial, Atmospheric and Oceanic Sciences, 20, 425. 10.3319/TAO.2008.04.25.01(Oc)
(View/edit entry)		2009Model application 8
Ortiz-Royero, Juan Carlos; Mercado-Irizarry, Aurelio; 2008. An Intercomparison of Swan and Wavewatch III Models with Data from NDBC-NOAA Buoys at Oceanic Scales. Coastal Engineering Journal, 50, 47–73. 10.1142/S0578563408001739
(View/edit entry)		2008Model application 19
Shao, Weizeng; Sheng, Yexin; Li, Huan; Shi, Jian; Ji, Qiyan; Tan, Wei; Zuo, Juncheng; 2018. Analysis of Wave Distribution Simulated by WAVEWATCH-III Model in Typhoons Passing Beibu Gulf, China. Atmosphere, 9, 265. 10.3390/atmos9070265
(View/edit entry)		2018Model application 23
Campos, Ricardo M.; Parente, Carlos Eduardo; de Camargo, Ricardo; 2012. Extreme Wave Analysis in Campos Basin (Rio de Janeiro - Brazil) Associated With Extra-Tropical Cyclones and Anticyclones. . Volume .
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Crosby, Sean C.; Cornuelle, Bruce D.; O’Reilly, William C.; Guza, Robert T.; 2017. Assimilating Global Wave Model Predictions and Deep-Water Wave Observations in Nearshore Swell Predictions. Journal of Atmospheric and Oceanic Technology, 34, 1823–1836. 10.1175/JTECH-D-17-0003.1
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Wittmann, P.A.; 2001. Implementation of WAVEWATCH III at Fleet Numerical Meteorology and Oceanography Center. . Volume 3.
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Ding, Yingying; Zuo, Juncheng; Shao, Weizeng; Shi, Jian; Yuan, Xinzhe; Sun, Jian; Hu, Jiachen; Li, Xiaofeng; 2019. Wave parameters retrieval for dual-polarization C-band synthetic aperture radar using a theoretical-based algorithm under cyclonic conditions. Acta Oceanologica Sinica, 38, 21–31. 10.1007/s13131-019-1438-y
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Jouon, Aymeric; Lefebvre, Jean Pierre; Douillet, Pascal; Ouillon, Sylvain; Schmied, Loys; 2009. Wind wave measurements and modelling in a fetch-limited semi-enclosed lagoon. Coastal Engineering, 56, 599–608. 10.1016/j.coastaleng.2008.12.005
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Chalikov, Dmitry V.; 2016. Modeling of Extreme Waves. In: (eds.)Numerical Modeling of Sea Waves.. 107–136.
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Clancy, C.; Belissen, V.; Tiron, R.; Gallagher, S.; Dias, F.; 2015. Spatial Variability of Extreme Sea States on the Irish West Coast. . Volume .
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Park, Sangwook; Lee, Da-Un; Seo, Jang-Won; 2009. Operational Wind Wave Prediction System at KMA. Marine Geodesy, 32, 133–150. 10.1080/01490410902869243
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Samiksha, S.V.; Vethamony, P.; Rogers, W.Erick; Pednekar, P.S.; Babu, M.T.; Dineshkumar, P.K.; 2017. Wave energy dissipation due to mudbanks formed off southwest coast of India. Estuarine, Coastal and Shelf Science, 196, 387–398. 10.1016/j.ecss.2017.07.018
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Romeu, Marco A.R.; Fontoura, José A.S.; Melo, Eloi; 2015. Typical Scenarios of Wave Regimes off Rio Grande do Sul, Southern Brazil. Journal of Coastal Research, 31, 61. 10.2112/JCOASTRES-D-12-00085.1
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Benassai, G.; Ascione, I.; 2006. Implementation and Validation of Wave Watch III Model Offshore the Coastlines of Southern Italy. . Volume .
(View/edit entry)		2006Model application 16
Xixi, Zhao; Yijun, Hou; Mingkui, Li; Peng, Qi; 2006. Analysis on monthly-averaged distribution of sea surface wind and wave over the seas southeast of Asia using ERS-2 scatterometer data. Chinese Journal of Oceanology and Limnology, 24, 97–102. 10.1007/BF02842782
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Gleeson, Emily; Clancy, Colm; Zubiate, Laura; Janjić, Jelena; Gallagher, Sarah; Dias, Frédéric; 2019. Teleconnections and Extreme Ocean States in the Northeast Atlantic Ocean. Advances in Science and Research, 16, 11–29. 10.5194/asr-16-11-2019
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Shukla, Ravi P; Kinter, James L.; Shin, Chul-Su; 2018. Sub-seasonal prediction of significant wave heights over the Western Pacific and Indian Oceans, part II: The impact of ENSO and MJO. Ocean Modelling, 123, 1–15. 10.1016/j.ocemod.2018.01.002
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Mittendorf, Kim; Kohlmeier, Martin; Zielke, Werner; 2005. A HIND-CAST DATA BASE FOR THE DESIGN OF OFFSHORE WIND ENERGY STRUCTURES IN THE GERMAN BIGHT. . Volume .
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Yang, Zhaoqing; Copping, Andrea; Gleizon, Philippe; Campuzano, Francisco; Carracedo, Pablo; Martinez, André; Goggins, Jamie; Atan, Reduan; Nash, Stephen; 2017. Wave Energy Resources Along the European Atlantic Coast. In: (eds.)Marine Renewable Energy.. 37–69.
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Bento, A. Rute; Gonçalves, Marta; Campos, Ricardo; Guedes Soares, C.; 2016. Comparison Between Two Forecast Systems Implemented With WAM and WaveWatch 3 for the North Atlantic. . Volume .
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Wang, He; Zhu, Jianhua; Yang, Jingsong; 2014. Error Analysis on ESA’s Envisat ASAR Wave Mode Significant Wave Height Retrievals Using Triple Collocation Model. Remote Sensing, 6, 12217–12233. 10.3390/rs61212217
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Innocentini, Valdir; Caetano, Ernesto; Carvalho, Jonas Takeo; 2014. A Procedure for Operational Use of Wave Hindcasts to Identify Landfall of Heavy Swell. Weather and Forecasting, 29, 349–365. 10.1175/WAF-D-13-00077.1
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Tolman, H.L.; Neu, W.L.; Bender, L.C.; 1998. Comments on “The Goddard Coastal Wave Model. Part II: Kinematics”. Journal of Physical Oceanography, 28, 1305-1308. <1305:COTGCW>2.0.CO;2 10.1175/1520-0485(1998)028<1305:COTGCW>2.0.CO;2
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J, Swain; Pa, Umesh; An, Balchand; Kumar, B Prasad; 2017. Wave Hindcasting Using WAM and WAVEWATCH III: A Comparison Study Utilizing Oceansat-2 (OSCAT) Winds. Journal of Oceanography and Marine Research, 5, . 10.4172/2572-3103.1000166
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Ellenson, Ashley; Pei, Yuanli; Wilson, Gregory; Özkan-Haller, H. Tuba; Fern, Xiaoli; 2020. An application of a machine learning algorithm to determine and describe error patterns within wave model output. Coastal Engineering, 157, 103595. 10.1016/j.coastaleng.2019.103595
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Kim, Kyeong Ok; Yamashita, Takao; 2008. Storm surge simulation using wind-wave-surge coupling model. Journal of Oceanography, 64, 621–630. 10.1007/s10872-008-0052-y
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Osinowo, Adekunle; Lin, Xiaopei; Zhao, Dongliang; Wang, Zhifeng; 2016. Long-Term Variability of Extreme Significant Wave Height in the South China Sea. Advances in Meteorology, 2016, 1–21. 10.1155/2016/2419353
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Wang, Lvqing; Liang, Bingchen; Li, Huajun; 2017. A new non-parametric correction model and its applications to hindcasting wave data. Ocean Engineering, 132, 11–24. 10.1016/j.oceaneng.2017.01.010
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Pingree-Shippee, Katherine A.; Shippee, Norman J.; Atkinson, David E.; 2016. Overview of Bering and Chukchi Sea Wave States for Four Severe Storms following Common Synoptic Tracks. Journal of Atmospheric and Oceanic Technology, 33, 283–302. 10.1175/JTECH-D-15-0153.1
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Zou, Tao; Kaminski, Miroslaw Lech; 2016. Applicability of WaveWatch-III wave model to fatigue assessment of offshore floating structures. Ocean Dynamics, 66, 1099–1108. 10.1007/s10236-016-0977-4
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Veitch, Jennifer; Rautenbach, Christo; Hermes, Juliet; Reason, Chris; 2019. The Cape Point wave record, extreme events and the role of large-scale modes of climate variability. Journal of Marine Systems, 198, 103185. 10.1016/j.jmarsys.2019.103185
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Pereira, Nair Emmanuela da Silveira; Klumb-Oliveira, Leonardo Azevedo; 2015. Analysis of the influence of ENSO phenomena on wave climate on the central coastal zone of Rio de Janeiro (Brazil). Revista de Gestão Costeira Integrada, 15, 353–370. 10.5894/rgci570
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Abdolali, Ali; Roland, Aron; van der Westhuysen, Andre; Meixner, Jessica; Chawla, Arun; Hesser, Tyler J.; Smith, Jane M.; Sikiric, Mathieu Dutour; 2020. Large-scale hurricane modeling using domain decomposition parallelization and implicit scheme implemented in WAVEWATCH III wave model. Coastal Engineering, 157, 103656. 10.1016/j.coastaleng.2020.103656
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Qi, Peng; Cao, Lei; 2016. The Assimilation of Jason-2 Significant Wave Height Data in the North Indian Ocean Using the Ensemble Optimal Interpolation. IEEE Transactions on Geoscience and Remote Sensing, 54, 287–297. 10.1109/TGRS.2015.2456035
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Heo, Ki-Young; Ha, Taemin; Park, Kwang-Soon; 2017. The effects of a typhoon-induced oceanic cold wake on typhoon intensity and typhoon-induced ocean waves. Journal of Hydro-environment Research, 14, 61–75. 10.1016/j.jher.2016.06.002
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Shelton, Ben; Nesbitt, Keith; 2017. Evaluating WaveWatch: an ambient display of web traffic. . Volume .
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Beyá, José; Álvarez, Marco; Gallardo, Ariel; Hidalgo, Héctor; Winckler, Patricio; 2017. Generation and validation of the Chilean Wave Atlas database. Ocean Modelling, 116, 16–32. 10.1016/j.ocemod.2017.06.004
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Sartini, Ludovica; Mentaschi, Lorenzo; Besio, Giovanni; 2015. Evaluating third generation wave spectral models performances in coastal areas. An application to Eastern Liguria. . Volume .
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Carracedo García†, P.; Balseiro†, C.F.; Penabad, E.; Gómez†, B.; Pérez-Muñuzuri†, V.; 2005. One year validation of wave forecasting at Galician coast. Journal of Atmospheric &amp; Ocean Science, 10, 407–419. 10.1080/17417530601127746
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Brovchenko, I.; Kuschan, A.; Maderich, V.; Shliakhtun, M.; Yuschenko, S.; Zheleznyak, M.; 2003. The modelling system for simulation of the oil spills in the Black Sea. In: (eds.)Elsevier Oceanography Series.. 586–591.
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Chalikov, Dmitry; Bulgakov, Kirill; 2017. Estimation of wave height probability based on the statistics of significant wave height. Journal of Ocean Engineering and Marine Energy, 3, 417–423. 10.1007/s40722-017-0093-7
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Sauvage, César; Lebeaupin Brossier, Cindy; Bouin, Marie-Noëlle; Ducrocq, Véronique; 2020. Characterization of the air&amp;amp;#8211;sea exchange mechanisms during a Mediterranean heavy precipitation event using realistic sea state modelling. Atmospheric Chemistry and Physics, 20, 1675–1699. 10.5194/acp-20-1675-2020
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Liu, Dongang; Tsarau, Andrei; Guan, Changlong; Shen, Hayley H.; 2020. Comparison of ice and wind-wave modules in WAVEWATCH III® in the Barents Sea. Cold Regions Science and Technology, 172, 103008. 10.1016/j.coldregions.2020.103008
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Gorman, Richard M.; Oliver, Hilary J.; 2018. Automated model optimisation using the Cylc workflow engine (Cyclops v1.0). Geoscientific Model Development, 11, 2153–2173. 10.5194/gmd-11-2153-2018
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Zhao, Wei; Guan, Shoude; Hong, Xin; Li, Peiliang; Tian, Jiwei; 2011. Examination of wind-wave interaction source term in WAVEWATCH III with tropical cyclone wind forcing. Acta Oceanologica Sinica, 30, 1–13. 10.1007/s13131-011-0128-1
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Fan, Yalin; Hwang, Paul; 2017. Kinetic energy flux budget across air-sea interface. Ocean Modelling, 120, 27–40. 10.1016/j.ocemod.2017.10.010
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Toualy, E; Aman, A; Koffi, P; Marin, F; Wango, Te; 2015. Ocean swell variability along the northern coast of the Gulf of Guinea. African Journal of Marine Science, 37, 353–361. 10.2989/1814232X.2015.1074940
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Veeramony, Jay; Blain, Cheryl Ann; Campbell, Tim; Martin, Paul; Edwards, Kacey; 2018. Momentum exchanges in coupled ocean-wave modeling system. . Volume .
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Cui, Hong; He, Hai-Lun; Liu, Xiao-Hui; Li, Yi; 2012. Effect of oceanic current on typhoon-wave modeling in the East China Sea. Chinese Physics B, 21, 109201. 10.1088/1674-1056/21/10/109201
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Chen, Chen; Sasa, Kenji; Mizojiri, Takaaki; 2020. Identification of early warning criteria for rough sea ship navigation using high-resolution numerical wave simulation and shipboard measurements. .
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Vysotskyy, M.; Williams, R.G.; Vasquez, R.; Acar, R.; Stripling, S.; 2005. Estimation of Surface Wave Parameters from Image Processing of Video Data. . Volume .
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Deng, Zengan; Xie, Lian; Yu, Ting; Shi, Suixiang; Jin, Jiye; Wu, Kejian; 2013. Numerical Study of the Effects of Wave-Induced Forcing on Dynamics in Ocean Mixed Layer. Advances in Meteorology, 2013, 1–10. 10.1155/2013/365818
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Ribeiro, Eric Oliveira; Andrioni, Marcelo; Martins, Renato Parkinson; Grossmann Matheson, Guisela; Alves, Jose´ Henrique; Nunes, Luis Manoel Paiva; 2009. Climatologically Modeled Wave Field Analyses in the Western South Atlantic. . Volume .
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Yang, Shaobo; Fan, Linlin; Duan, Shanhua; Zheng, Chongwei; Li, Xingfei; Li, Hongyu; Xu, Jianjun; 2020. Long-term assessment of wave energy in the China Sea using 30-year hindcast data. Energy Exploration &amp; Exploitation, 38, 37–56. 10.1177/0144598719878777
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Sun, Ze; Zhang, Haicheng; Xu, Daolin; Liu, Xiaolong; Ding, Jun; 2020. Assessment of wave power in the South China Sea based on 26-year high-resolution hindcast data. Energy, 197, 117218. 10.1016/j.energy.2020.117218
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Ostritz, Frederico Francisco; Carvalho, Nelson Violante de; Cruz, Leonardo Maturo Marques da; 2012. Estimativas de um modelo de geração e propagação de ondas empregando campos de vento com diferentes resoluções espaciais e temporais. Revista Brasileira de Meteorologia, 27, 315–328. 10.1590/S0102-77862012000300006
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Zhou, Liangming; Wang, Aifang; Guo, Peifang; Wang, Zhifeng; 2008. Effect of surface waves on air–sea momentum flux in high wind conditions for typhoons in the South China Sea. Progress in Natural Science, 18, 1107–1113. 10.1016/j.pnsc.2008.03.010
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Lim, Chai Heng; Lettmann, Karsten; Wolff, Jörg-Olaf; 2013. Numerical study on wave dynamics and wave-induced bed erosion characteristics in Potter Cove, Antarctica. Ocean Dynamics, 63, 1151–1174. 10.1007/s10236-013-0651-z
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Jiang, Xingjie; Guan, Changlong; Wang, Daolong; 2019. Rogue waves during Typhoon Trami in the East China Sea. Journal of Oceanology and Limnology, 37, 1817–1836. 10.1007/s00343-019-8256-0
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Syvitski, J.P.M.; Arango, H.G.; Harris, C.K.; Meiburg, E.H.; Jenkins, C.J.; Hutton, E.W.H.; Auad, G.; Xing, F.; 2016. Keynote Speech - Modeling of Sediment Transport in the Gulf of Mexico due to the Influence of Hurricanes. . Volume .
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Dora, G. Udhaba; Kumar, V. Sanil; 2018. Hindcast of breaking waves and its impact at an island sheltered coast, Karwar. Ocean Dynamics, 68, 1–16. 10.1007/s10236-017-1112-x
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Kim, Tae Rim; Lee, Jae Hyuk; 2018. Comparison of High Wave Hindcasts during Typhoon Bolaven (1215) using SWAN and WAVEWATCH III Model. Journal of Coastal Research, 85, 1096–1100. 10.2112/SI85-220.1
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Polnikov, V. G.; 2010. Numerical Modelling of Wind-Waves -Problems and Results. The International Journal of Ocean and Climate Systems, 1, 113–121. 10.1260/1759-3131.1.3-4.113
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Sangalugeme, Chuki; Luhunga, Philbert; Kijazi, Agness; Kabelwa, Hamza; 2018. Validation of Operational WAVEWATCH III Wave Model Against Satellite Altimetry Data Over South West Indian Ocean Off-Coast of Tanzania. Applied Physics Research, 10, 55. 10.5539/apr.v10n4p55
(View/edit entry)		2018Model application 6
Bennis, Anne-Claire; Ardhuin, Fabrice; Odaka, Tina; 2010. Modélisation couplée vagues-courant : développements avec MARS3D et WAVEWATCH III. . Volume .
(View/edit entry)		2010Model application 1
Arockiaraj, S.; Kankara, R. S.; Udhaba Dora, G.; Sathish, S.; 2018. Estimation of seasonal morpho-sedimentary changes at headland bound and exposed beaches along south Maharashtra, west coast of India. Environmental Earth Sciences, 77, 604. 10.1007/s12665-018-7790-y
(View/edit entry)		2018Model application 4
Carvalho, Breylla Campos; Dalbosco, Anna Luiza Pacheco; Guerra, Josefa Varela; 2020. Shoreline position change and the relationship to annual and interannual meteo-oceanographic conditions in Southeastern Brazil. Estuarine, Coastal and Shelf Science, 235, 106582. 10.1016/j.ecss.2020.106582
(View/edit entry)		2020Model application 12
Forte, M. F.; Hanson, J. L.; Hagerman, G.; 2012. North Atlantic wind and wave climate: Observed extremes, hindcast performance, and extratropical recurrence intervals. . Volume .
(View/edit entry)		2012Model application 7
Shukla, Ravi P.; Kinter, James L.; 2016. Subseasonal Prediction of Significant Wave Heights over the Western Pacific and Indian Ocean Region. Weather and Forecasting, 31, 1733–1751. 10.1175/WAF-D-16-0078.1
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Wang, Weili; Forget, Philippe; Guan, Changlong; 2014. Inversion of swell frequency from a 1-year HF radar dataset collected in Brittany (France). Ocean Dynamics, 64, 1447–1456. 10.1007/s10236-014-0759-9
(View/edit entry)		2014Model application 6
Sasaki, Wataru; Iizuka, Satoshi; Dairaku, Koji; 2012. Capability of Regional Climate Models in Simulating Coastal Winds and Waves around Japan. Journal of the Meteorological Society of Japan. Ser. II, 90, 603–615. 10.2151/jmsj.2012-502
(View/edit entry)		2012Model application 1
Poisson, Jean-Baptiste; Forster, Jorg; Bohler, Christian Onno; Gallus, Michael; Ulland, Andreas; Biegel, Gregor; Brehm, Thorsten; Danklmayer, Andreas; Hurtaud, Yvonick; 2016. Analysis of radar sea clutter data acquired during the MARLENE measurement campaign. . Volume .
(View/edit entry)		2016Model application 1
Mahiru Rizal, Ardian; Sari Ningsih, Nining; Sofian, Ibnu; Hanifah, Farrah; Hilmi, Irfan; 2019. Preliminary study of wave energy resource assessment and its seasonal variation along the southern coasts of Java, Bali, and Nusa Tenggara waters. Journal of Renewable and Sustainable Energy, 11, 014502. 10.1063/1.5034161
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Lecacheux, Sophie; Bonnardot, François; Rousseau, Marie; Paris, François; Pedreros, Rodrigo; Lerma, Alexandre Nicolae; Quetelard, Hubert; Barbary, David; 2018. Probabilistic Forecast of Coastal Waves for Flood Warning Applications at Reunion Island (Indian Ocean). Journal of Coastal Research, 85, 776–780. 10.2112/SI85-156.1
(View/edit entry)		2018Model application 5
Lin, Yu Hsien; Fang, Ming Chung; 2015. The Analysis of Optimized Ship Routings in the North Pacific by Considering Different Routing Strategies. . Volume .
(View/edit entry)		2015Model application 1
Chen, Xuanyu; Ginis, Isaac; Hara, Tetsu; 2018. Sensitivity of Offshore Tropical Cyclone Wave Simulations to Spatial Resolution in Wave Models. Journal of Marine Science and Engineering, 6, 116. 10.3390/jmse6040116
(View/edit entry)		2018Model application 8
Loureiro, Carlos; Cooper, Andrew; 2019. Temporal variability in winter wave conditions and storminess in the northwest of Ireland. Irish Geography, 51, 155–170. 10.2014/igj.v51i2.1369
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Lewis, Bárbara Silva; Nogueira, Izabel Christina Martins; Carvalho, Nelson Violante de; Menezes, Wallace Figueiredo de; 2017. IMPACTOS ASSOCIADOS À RESOLUÇÃO DOS MODELOS ATMOSFÉRICOS EM MODELOS DE PROGNÓSTICOS DE ONDAS. Boletim de Ciências Geodésicas, 23, 539–555. 10.1590/s1982-21702017000400036
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Pineau-Guillou, Lucia; Lathuiliere, Cyril; Magne, Rudy; Louazel, Stéphanie; Corman, David; Perherin, Céline; 2012. Sea levels analysis and surge modelling during storm Xynthia. European Journal of Environmental and Civil Engineering, 16, 943–952. 10.1080/19648189.2012.676424
(View/edit entry)		2012Model application 13
Deng, Zengan; Zhao, Dongliang; Wu, Kejian; Yu, Ting; Shi, Jian; 2008. Impacts of wave and current on drag coefficient and wind stress over the tropical and northern Pacific. Journal of Ocean University of China, 7, 373–378. 10.1007/s11802-008-0373-x
(View/edit entry)		2008Model application 4
Hegermiller, C.; Erikson, L.; Barnard, P.; 2016. Nearshore waves in southern California: hindcast, and modeled historical and 21st-century projected time series. , , https://www.sciencebase.gov/catalog/item/57b12627e4b0fc09fab0ce4f. 10.5066/F7N29V2V
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Oliveira, Bruna A.; Sobral, Fernando; Fetter, Antonio; Mendez, Fernando J.; 2019. A high-resolution wave hindcast off Santa Catarina (Brazil) for identifying wave climate variability. Regional Studies in Marine Science, 32, 100834. 10.1016/j.rsma.2019.100834
(View/edit entry)		2019Model application 5
Neary, Vincent S.; Ahn, Seongho; Seng, Bibiana E.; Allahdadi, Mohammad Nabi; Wang, Taiping; Yang, Zhaoqing; He, Ruoying; 2020. Characterization of Extreme Wave Conditions for Wave Energy Converter Design and Project Risk Assessment. Journal of Marine Science and Engineering, 8, 289. 10.3390/jmse8040289
(View/edit entry)		2020Model application 18
郑, 崇伟; 2014. Meticulous Simulation of Seasonal Characteristics of the China Sea Wave Period. Advances in Marine Sciences, 1, 44–49. 10.12677/AMS.2014.12007
(View/edit entry)		2014Model application 3
Gillibrand, P A; Lane, E M; Walters, R A; Gorman, R M; 2011. Forecasting extreme sea level events and coastal inundation from tides, surge and wave setup. Australian Journal of Civil Engineering, 9, 99–112. 10.1080/14488353.2011.11463961
(View/edit entry)		2011Model application 3
Wang, He; Wang, Jing; Zhu, Jianhua; Chen, Chuntao; Huang, Xiaoqi; Zhai, Wanlin; 2018. Calibration and Validation of Hy-2A Derived Significant Wave Height Using Triple Collocation. . Volume .
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Jury, Mark R.; 2019. Meteorological controls on big waves south of Africa. Regional Studies in Marine Science, 27, 100538. 10.1016/j.rsma.2019.100538
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Umesh, P.A.; Swain, J.; Balchand, A.N.; 2018. Inter-comparison of WAM and WAVEWATCH-III in the North Indian Ocean using ERA-40 and QuikSCAT/NCEP blended winds. Ocean Engineering, 164, 298–321. 10.1016/j.oceaneng.2018.06.053
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Benassai, G.; Ascione, I.; 2006. Implementation of WWIII wave model for the study of risk inundation on the coastlines of Campania, Italy. . Volume 1.
(View/edit entry)		2006Model application 8
Bennis, Anne-Claire; Ardhuin, Fabrice; Odaka, Tina; Dumas, Franck; 2013. Un nouveau modèle couplé vagues-courant 3D : développement et validation. Revue Paralia, 6, 8.1–8.12. 10.5150/revue-paralia.2013.008
(View/edit entry)		2013Model application 1
Hu, Yuyi; Shao, Weizeng; Shi, Jian; Sun, Jian; Ji, Qiyan; Cai, Lina; 2020. Analysis of the typhoon wave distribution simulated in WAVEWATCH- III model in the context of Kuroshio and wind-induced current. Journal of Oceanology and Limnology, , . 10.1007/s00343-019-9133-6
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García-Medina, Gabriel; 2012. NEARSHORE WAVE PREDICTIONS ALONG THE OREGON AND SOUTHWEST WASHINGTON COAST. Coastal Engineering Proceedings, 1, 52. 10.9753/icce.v33.waves.52
(View/edit entry)		2012Model application 2
Matos, Maria De Fatima Alves de; Scudelari, Ada Cristina; Amaro, Venerando Eustáquio; Fortes, Conceição Juana Espinosa Morais; 2017. INTEGRAÇÃO DE MODELAGEM NUMÉRICA (SWAN) E DADOS DE CAMPO NA DETERMINAÇÃO DO CLIMA DE ONDAS NO LITORAL SETENTRIONAL DO RIO GRANDE DO NORTE. Revista Brasileira de Geomorfologia, 18, . 10.20502/rbg.v18i2.1153
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Yang, Sinil; Oh, Jaiho; 2018. Long-Term Changes in the Extreme Significant Wave Heights on the Western North Pacific: Impacts of Tropical Cyclone Activity and ENSO. Asia-Pacific Journal of Atmospheric Sciences, 54, 103–109. 10.1007/s13143-017-0063-y
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Wang, Jing; Wang, He; Shao, Weizeng; Zhu, Jianhua; Yuan, Xinzhe; 2018. Significant Wave Height Retrieval from Gaofen-3 Wave Mode Images. . Volume .
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Bento, Ana Rute; Salvação, Nádia; Guedes Soares, Carlos; 2018. Validation of a wave forecast system for Galway Bay. Journal of Operational Oceanography, 11, 112–124. 10.1080/1755876X.2018.1470454
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Umesh, P.A.; Behera, Manasa R.; 2020. Performance evaluation of input-dissipation parameterizations in WAVEWATCH III and comparison of wave hindcast with nested WAVEWATCH III-SWAN in the Indian Seas. Ocean Engineering, 202, 106959. 10.1016/j.oceaneng.2020.106959
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Liu, Xi-ying; Liao, Guang-hong; Cao, Hai-jin; Lu, Chen-chen; 2019. Simulated Ocean Wave Damping by Summer Sea Ice Cover in the Arctic. DEStech Transactions on Environment, Energy and Earth Sciences, , . 10.12783/dteees/gmee2018/27488
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Smith, Jane McKee; Hesser, Tyler; Roland, Aron; Bryant, Mary; 2018. VALIDATION OF UNSTRUCTURED WAVEWATCH III FOR NEARSHORE WAVES. Coastal Engineering Proceedings, , 55. 10.9753/icce.v36.waves.55
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Graham, N.E.; 2003. Variability in the wave climate of the North Pacific: links to interannual and interdecadal variability. . Volume 2.
(View/edit entry)		2003Model application 7
Kubota, Hiroki; Tsujio, Daiki; Mori, Nobuhito; 2018. ACCURACY OF COASTAL WAVE HINDCAST DEPENDS ON SPATIAL RESOLUTION BY WAVEWATCH III-SWAN COUPLING MODEL. Journal of Japan Society of Civil Engineers, Ser. B3 (Ocean Engineering), 74, I_617–I_622. 10.2208/jscejoe.74.I_617
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Wang, Weili; Forget, Philippe; Guan, Changlong; 2016. Inversion and assessment of swell waveheights from HF radar spectra in the Iroise Sea. Ocean Dynamics, 66, 527–538. 10.1007/s10236-016-0941-3
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Pan, Xi Shan; Li, Rui Jie; Li, Yang; Li, Chun Hui; Zhang, Wei Yi; 2012. Wind-Wave Numerical Prediction Model in East China Sea. Advanced Materials Research, 542, 1366–1370. 10.4028/www.scientific.net/AMR.542-543.1366
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Pelli, D; Cappietti, L; Oumeraci, H; 2016. Assessing the wave energy potential in the Mediterranean Sea using WAVEWATCH III. . Volume .
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Feng, H.; Vandemark, D.; Chapron, B.; Beckley, B.; 2004. Use of a global wave model to correct altimeter sea level estimates. . Volume 4.
(View/edit entry)		2004Model application 1
Xu, Fumin; Cheng, Zelin; Xia, Mingyan; 2020. Surface wave field under binary typhoons Sarika and Haima (2016) in South China Sea. Estuarine, Coastal and Shelf Science, 241, 106802. 10.1016/j.ecss.2020.106802
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Osinowo, Adekunle Ayodotun; Balogun, Ifeoluwa Adebowale; Eresanya, Emmanuel Olaoluwa; 2018. Assessment of wave energy resource in the mid-Atlantic based on 37-year numerical hindcast data. Modeling Earth Systems and Environment, 4, 935–959. 10.1007/s40808-018-0484-3
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Hilmi, I; Ningsih, N S; Sofian, I; Hanifah, F; Rizal, A M; 2018. The study of MJO impact on wave height and wind speed in Indonesian Seas. IOP Conference Series: Earth and Environmental Science, 162, 012004. 10.1088/1755-1315/162/1/012004
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Reynolds, Jennifer; Clarizia, Maria Paola; Santi, Emanuele; 2020. Wind Speed Estimation From CYGNSS Using Artificial Neural Networks. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 13, 708–716. 10.1109/JSTARS.2020.2968156
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Shao, W.Z.; Hu, Y.Y.; Zheng, G.; Cai, L.N.; Yuan, X.Z.; Zou, J.C.; 2020. Sea state parameters retrieval from cross-polarization Gaofen-3 SAR data. Advances in Space Research, 65, 1025–1034. 10.1016/j.asr.2019.10.034
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Rahim, Nurul A. idah Abd; Juneng, Liew; Tangang, Fredolin T.; 2013. Wind-wave simulation in South China Sea: Preliminary results of model evaluation using different wind forcing. . Volume .
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Chu, Peter C.; Bostater, Jr., Charles R.; Santoleri, Rosalia; Qi, Yiquan; Chen, Yuchun; Shi, Ping; Mao, Qingwen; 2004. Validation of Wavewatch-III using TOPEX/Poseidon data. . Volume .
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Kirezci, Cagil; Babanin, Alexander V.; 2018. COUPLING SPECTRAL AND PHASE-RESOLVING WAVE MODEL FOR FORECASTING OF EXTREME WAVES IN WIND SEAS. Coastal Engineering Proceedings, , 20–20. 10.9753/icce.v36.waves.20
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Ribal, Agustinus; Thamrin, Sri Astuti; 2019. A 10-year wave energy resource assessment and trends of Indonesia based on satellite observations. Acta Oceanologica Sinica, 38, 86–93. 10.1007/s13131-019-1400-z
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Boutin, Guillaume; Williams, Timothy; Rampal, Pierre; Olason, Einar; Lique, Camille; 2020. Wave–sea-ice interactions in a brittle rheological framework. .
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Trung Viet, Nguyen; Xiping, Dou; Thanh Tung, Tran; Vo, Ngoc Duong; Binh, N. Q.; Nguyen, Cong Phong; Gourbesvill, Philippe; 2020. An Aproach for Hurricane Wave Modelling in Vietnam Central Region. In: (eds.)APAC 2019.. 601–608.
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Li, Jiangyu; Zhang, Shaoqing; 2020. Mitigation of model bias influences on wave data assimilation with multiple assimilation systems using WaveWatch III v5.16 and SWAN v41.20. Geoscientific Model Development, 13, 1035–1054. 10.5194/gmd-13-1035-2020
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Reikard, Gordon; 2017. Wave energy forecasting. In: (eds.)Renewable Energy Forecasting.. 199–217.
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Zhu, Zhi Xia; Zhou, Ke; 2012. Simulation and Analysis of Ocean Wave in the Northwest Pacific Ocean. Applied Mechanics and Materials, 212, 430–435. 10.4028/www.scientific.net/AMM.212-213.430
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Dixit, Pradnya; Londhe, Shreenivas; Shah, Shalaka; 2015. Behavioural Characteristics of Multilevel Decomposition Systems of Neuro-Wavelet in Wave Forecasting. Procedia Engineering, 116, 406–413. 10.1016/j.proeng.2015.08.302
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Allan, Shawn; Bryan, David; Pouliot, Benoit; 2014. High-resolution numerical weather prediction (NWP) with data assimilation over Placentia Bay, Newfoundland. . Volume .
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Ponce de León, Sonia; Osborne, Alfred R.; 2020. Role of Nonlinear Four-Wave Interactions Source Term on the Spectral Shape. Journal of Marine Science and Engineering, 8, 251. 10.3390/jmse8040251
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McSweeney, S. L.; 2020. Temporal and spatial variability of the open coast wave climate of Victoria, Australia. Marine and Freshwater Research, 71, 394. 10.1071/MF18489
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Fs, Sharifi; 2017. A Comparison between the Results of Hormuz Strait Wave Simulations Using WAVEWATCH-III and Satellite Altimetry Observations. Oceanography &amp; Fisheries Open access Journal, 1, . 10.19080/OFOAJ.2017.01.555572
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Ruiz, Renata Sampaio da Rocha; Maita, Rosio Del Pilar Camayo; Velho, Haroldo Fraga de Campos; Freitas, Saulo; Innocentini, Valdir; 2016. ACOPLAMENTO BRAMS-WW3 PARA PREVISÃO DE ONDAS OCEÂNICAS. Ciência e Natura, 38, 401. 10.5902/2179460X20283
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Charles, Elodie; Idier, Déborah; Pedreros, Rodrigo; Le Cozannet, Gonéri; Ardhuin, Fabrice; Mallet, Cyril; Planton, Serge; 2010. Vagues sur la côte aquitaine : régionalisation dynamique de 1958 à 2002. . Volume .
(View/edit entry)		2010Model application 1
Jaffrés, Jasmine B. D.; Heron, Malcolm L.; Middleditch, Andrew; Steinberg, Craig R.; Durrant, Tom H.; 2010. Waves in the Southern Great Barrier Reef. . Volume .
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Kuznetsova, A. M.; Dosaev, A. S.; Baydakov, G. A.; Sergeev, D. A.; Troitskaya, Yu. I.; 2020. Adaptation of the Parameterization of the Nonlinear Energy Transfer for Short Fetch Conditions in the WAVEWATCH III Wave Prediction Model. Izvestiya, Atmospheric and Oceanic Physics, 56, 191–199. 10.1134/S0001433820020073
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Pasquet, Audrey; Michaud, Héloïse; Aouf, Lotfi; Baraille, Rémy; Bru, Caroline; Correard, Stéphanie; Gouillon, Flavien; Jourdan, Didier; Morvan, Guillaume; Ohl, Patrick; Paradis, Denis; 2014. Implémentation d'un nouveau modèle opérationnel de prévision des vagues et surcotes marines. . Volume .
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Wang, Lvqing; Zhang, Zhaozi; Liang, Bingchen; Lee, Dongyoung; Luo, Shaoyang; 2020. An Efficient Method for Simulating Typhoon Waves Based on a Modified Holland Vortex Model. Journal of Marine Science and Engineering, 8, 177. 10.3390/jmse8030177
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Fabozzi, D.; Bergquist, J.; Winship, J.; Hansen, D.; 2005. Project ENDEAVOR: Distributed Modeling for Advanced Marine Vehicle Performance Analysis. . Volume .
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Mezentseva, L. I.; Evdokimova, L. I.; Vrazhkin, A. N.; 2019. Trends in Hazardous Phenomena over the Far Eastern Seas Caused by Tropical Cyclones. Russian Meteorology and Hydrology, 44, 837–843. 10.3103/S1068373919120069
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Myslenkov, S. A.; Stoliarova, E. V.; Markina, M. Yu.; Kiseleva, S. V.; Arkhipkin, V. S.; Gorlov, A. A.; Umnov, P. M.; 2017. SEASONAL AND INTERANNUAL VARIABILITY OF THE WAVE ENERGY FLOW IN THE BARENTS SEA. Alternative Energy and Ecology (ISJAEE), , 36–48. 10.15518/isjaee.2017.19-21.036-048
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Suzuki, Yoshimitsu; Takayama, Tomotsuka; Yoshinaga, Yasusuke; Okada, Kozo; Kubota, Kazuhiko; Utsunomiya, Yoshihiro; Matsufuji, Eriko; Kimizuka, Masafumi; 2016. WAVE REPRODUCTION PROPERTIES OF WAM AND WAVEWATCH III. Journal of Japan Society of Civil Engineers, Ser. B3 (Ocean Engineering), 72, I_265–I_270. 10.2208/jscejoe.72.I_265
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Leredde, Yann; Begny, Kamil; Michaud, Héloïse; Jacob, Céline; Schvartz, Thibault; Thorin, Sébastien; Marsaleix, Patrick; 2016. L’atténuation des vagues par les herbiers de Posidonies, un service écosystémique contre l’érosion côtière. . Volume .
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Shelton, Ben; Nesbitt, Keith; 2017. WaveWatch – An Ambient Display of Web Traffic Data. Application and Theory of Computer Technology, 2, 11–26. 10.22496/atct20161230121
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Yan, Yixin; Gao, Jiayun; Tong, Chaofeng; 2006. Wind Waves in East China Sea. . Volume .
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Osinowo, Aa; Okogbue, Ec; Eresanya, Eo; Akande, Os; 2018. Extreme significant wave height climate in the Gulf of Guinea. African Journal of Marine Science, 40, 407–421. 10.2989/1814232X.2018.1542343
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Nayak, Sashikant; Sandeepan, B.S; Panchang, Vijay; 2016. Effect of High Resolution Winds on Wind-Wave Simulations in Arabian Gulf. . Volume .
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Morais, Marcos Vinícius Bueno de; Pessoa, Alex Sandro Aguiar; Saad, Sandra Isay; Xavier, Luiz Felipe; Ramos, Camila Gomes Martins; Lobo, Bianca; Palma, Gilca; 2015. Análise do desempenho computacional de modelos numéricos de previsão do tempo e de ondas na arquitetura EC2 Amazon Cloud. . Volume .
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Majumder, Swarnali; Balakrishnan Nair, T. M.; Sandhya, K. G.; Remya, P. G.; Sirisha, P.; 2018. Modification of a linear regression-based multi-model super-ensemble technique and its application in forecasting of wave height during extreme weather conditions. Journal of Operational Oceanography, 11, 1–10. 10.1080/1755876X.2018.1438341
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Ha-Minh, Cuong; Dao, Dong Van; Benboudjema, Farid; Derrible, Sybil; Huynh, Dat Vu Khoa; Tang, Anh Minh; Vo, Ngoc Duong; Nguyen, Quang Binh; Nguyen, Cong Phong; 2020. Typhoon Wave Modelling for Viet Nam Central Region. In: (eds.)CIGOS 2019, Innovation for Sustainable Infrastructure.. 1087–1092.
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Кузнецова, А. М.; Досаев, А. С.; Байдаков, Г. А.; Сергеев, Д. А.; Троицкая, Ю. И.; 2020. Адаптация параметризации нелинейного переноса энергии для случая коротких разгонов в модели прогноза волнения WAVEWATCH III. Известия Российской академии наук. Физика атмосферы и океана, 56, 224–233. 10.31857/S0002351520020078
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Григорьева, В. Г.; Гулев, С. К.; Шармар, В. Д.; 2020. Верификация глобальной спектральной волновой модели WAVEWATCH III по данным попутных судовых наблюдений. Океанология, 60, 14–26. 10.31857/S003015742001013X
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Gao, Zhan-sheng; Qian, Yu-hao; Sui, Yu-wei; Chen, Xuan; Zhang, Da; 2018. Wave energy analysis based on simulation wave data in the China Sea. IOP Conference Series: Earth and Environmental Science, 153, 062041. 10.1088/1755-1315/153/6/062041
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دزواره رسنانی, رضا; محمدی, پریسا; حاجی تبار, محمد; 2019. تعیین مشخصه های امواج ناشی از باد به کمک مدل عددی WaveWatch-III‌ و مقایسه نتایج آن با مدل Mike21-SW. مجله علوم و فنون دریایی, 18, 53–65. 10.22113/jmst.2019.142502.2186
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Supriyadi, Eko; 2019. PEMANFAATAN SATELIT ALTIMETRI UNTUK VERIFIKASI TINGGI GELOMBANG SIGNIFIKAN OCEAN FORECAST SYSTEM (OFS) – MODEL BMKG. Jurnal Meteorologi dan Geofisika, 19, 93. 10.31172/jmg.v19i2.586
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Rais, Achmad Fahruddin; 2019. Pengaruh ElNino pada Gelombang Signifikan di Perairan Indonesia. Jurnal Fisika dan Aplikasinya, 15, 45. 10.12962/j24604682.v15i2.4317
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Habibie, Muhammad Najib; Fitria, Welly; 2019. KAJIAN INDEKS VARIABILITAS TINGGI GELOMBANG SIGNIFIKAN DI INDONESIA. Jurnal Segara, 14, . 10.15578/segara.v14i3.6650
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Michaud, Héloïse; Morio, Olivier; Gensac, Erwan; Osinski, Robert; Dalphinet, Alice; Casitas, Sophie; Pasquet, Audrey; 2018. Mud and sand effects on wave propagation over the French Guiana coasts. . Volume .
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Alonso, Rodrigo; Santoro, Pablo; Solari, Sebastián; 2018. NEW WAVE HINDCAST FOR THE RIO DE LA PLATA ESTUARY. Coastal Engineering Proceedings, , 7. 10.9753/icce.v36.papers.7
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Habibie, Muhammad Najib; Hanggoro, Wido; Permana, Donaldi Sukma; Kurniawan, Roni; 2018. EVALUASI MODEL WAVEWATCH-III MENGGUNAKAN DATA SATELIT ALTIMETRI DAN OBSERVASI. Jurnal Meteorologi dan Geofisika, 17, . 10.31172/jmg.v17i3.322
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Mao, Ke-feng; Chen, Xi; Li, Yan; Xiao, Zhong-le; 2009. Comparative Study on Different Schemes for Treatment with Multi-Islands and Complex Coastlines in Wave Numerical Computation. . Volume .
(View/edit entry)		2009Model application 0
J, Swain; Pa, Umesh; 2018. Prediction of Uncertainty Using the Third Generation Wave Model WAVEWATCH III Driven By ERA-40 and Blended Winds in the North Indian Ocean. Journal of Oceanography and Marine Research, 6, . 10.4172/2572-3103.1000173
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Triasdian, Beyrra; Indartono, Yuli Setyo; Ningsih, Nining Sari; 2018. Energy capture potential of existing wave energy converters for Indonesian sea. . Volume .
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Wang, H; Shi, C Y; Zhu, J H; Huang, X Q; Chen, C T; 2014. Validation of significant wave height product from Envisat ASAR using triple collocation. IOP Conference Series: Earth and Environmental Science, 17, 012279. 10.1088/1755-1315/17/1/012279
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You, Sung Hyup; 2011. Numerical modeling of the effects of current and sea level variation on wave height and propagation. KSCE Journal of Civil Engineering, 15, 1481–1488. 10.1007/s12205-011-1105-0
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0
Kurniawan, Roni; Ramdhani, Andri; Sakya, Andi Eka; Pratama, Bayu Edo; 2017. HIGH WAVE AND COASTAL INUNDATION IN SOUTH OF JAVA AND WEST OF SUMATERA (CASE STUDIES ON 7-10 JUNE 2016). Jurnal Meteorologi dan Geofisika, 17, . 10.31172/jmg.v17i2.442
(View/edit entry)		2017Model application 2
Badiei, P.; Siadat Mousavi, M.; 2010. The Third Generation Spectral Wave Model, WAVEWATACH-III, Enhanced for use in Nearshore Regions. Civil Engineering Infrastructures Journal, 44, . 10.22059/ceij.2010.51098
(View/edit entry)		2010Model application 3
陈, 璇; 2016. A Brief Instruction to the Latest Version WAVEWATCH Ocean Wave Model and a Case. Advances in Marine Sciences, 3, 11–18. 10.12677/AMS.2016.32003
(View/edit entry)		2016Model application 0
Istihanah, Dini; Kristianto, Aries; 2016. SIMULASI TINGGI GELOMBANG DI TELUK BONE MENGGUNAKAN MODEL GELOMBANG WAVEWATCH-III (Studi Kasus Tenggelamnya KM Marina Baru 2B Tanggal 19 Desember 2015). Jurnal Meteorologi Klimatologi dan Geofisika, 3, 1–8. 10.36754/jmkg.v3i3.10
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王, 力群; 2015. The Wave Numeric Simulation of 0920 Super Typhoon Lupit. Advances in Marine Sciences, 2, 94–101. 10.12677/AMS.2015.24012
(View/edit entry)		2015Model application 0
Ruiz Sarrázola, David Alejandro; Escobar Sierra, Carlos Alejandro; Uribe Suárez, Diego Alejandro; 2015. Forzamientos marinos en fronteras abiertas de modelos costeros de pequeña escala, Cartagena. Boletín Científico CIOH, , 53–68. 10.26640/01200542.33.53_68
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Zhao, Yanling; Yang, Yuzhen; You, Xiaobao; Liu, Tianjun; 2012. Wind-Wave Characteristics in the Bohai Sea, the Yellow Sea and the East China Sea: A Numerical Study of Cold Wave Event. . Volume .
(View/edit entry)		2012Model application 1
高, 占胜; 2014. Statistics of the China Sea Big Wave Frequency Based on Grads. Advances in Marine Sciences, 1, 50–54. 10.12677/AMS.2014.12008
(View/edit entry)		2014Model application 0
Habibie, Muhammad Najib; Permana, Donaldi Sukma; Suratno, Suratno; 2013. SIMULASI GELOMBANG EKSTRIM AKIBAT SWELL DI INDONESIA MENGGUNAKAN MODEL WAVEWATCH-III. Jurnal Meteorologi dan Geofisika, 14, . 10.31172/jmg.v14i2.159
(View/edit entry)		2013Model application 2
GALABOV, V.; KORTCHEVA, A.; DIMITROVA, M.; 2017. TOWARDS A SYSTEM FOR SEA STATE FORECASTS IN THE BULGARIAN COASTAL ZONE: THE CASE OF THE STORM OF 07-08 FEBRUARY 2012. . Volume 3.
(View/edit entry)		2017

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8
Haggag, Mohammed; 2007
(View/edit entry)		2007Model application 1
Moon, I.-J.; Hara, T.; Ginis, I.; Belcher, S.E.; Tolman, H.L.; 2004. Effect of Surface Waves on Air–Sea Momentum Exchange. Part I: Effect of Mature and Growing Seas. Journal of the Atmospheric Sciences, 61, 2321–2333. <2321:EOSWOA>2.0.CO;2 10.1175/1520-0469(2004)061<2321:EOSWOA>2.0.CO;2
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Model application

93
Ponce de León, Sonia; Bettencourt, J.; Van Vledder, G. Ph.; Doohan, P.; Higgins, C.; Guedes Soares, Carlos; Dias, Frederic; 2018. Performance of WAVEWATCH-III and SWAN Models in the North Sea. . Volume .
(View/edit entry)		2018

Model application

8
Kim, Tae Rim; Lee, Jae Hyuk; 2018. Comparison of High Wave Hindcasts during Typhoon Bolaven (1215) using SWAN and WAVEWATCH III Model. Journal of Coastal Research, 85, 1096–1100. 10.2112/SI85-220.1
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Model application

6
Umesh, P.A.; Behera, Manasa R.; 2020. Performance evaluation of input-dissipation parameterizations in WAVEWATCH III and comparison of wave hindcast with nested WAVEWATCH III-SWAN in the Indian Seas. Ocean Engineering, 202, 106959. 10.1016/j.oceaneng.2020.106959
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13
Bai, Peng; Wang, Jia; Chu, Philip; Hawley, Nathan; Fujisaki-Manome, Ayumi; Kessler, James; Lofgren, Brent M.; Beletsky, Dmitry; Anderson, Eric J.; Li, Yaru; 2020. Modeling the ice-attenuated waves in the Great Lakes. Ocean Dynamics, 70, 991–1003. 10.1007/s10236-020-01379-z
(View/edit entry)		2020Model application 9
Schirmann, Matthew L.; Collette, Matthew D.; Gose, James W.; 2020. Significance of wave data source selection for vessel response prediction and fatigue damage estimation. Ocean Engineering, 216, 107610. 10.1016/j.oceaneng.2020.107610
(View/edit entry)		2020Model application 4
Duong, Trang Minh; Ranasinghe, Roshanka; Thatcher, Marcus; Mahanama, Sarith; Wang, Zheng Bing; Dissanayake, Pushpa Kumara; Hemer, Mark; Luijendijk, Arjen; Bamunawala, Janaka; Roelvink, Dano; Walstra, Dirkjan; 2018. Assessing climate change impacts on the stability of small tidal inlets: Part 2 - Data rich environments. Marine Geology, 395, 65–81. 10.1016/j.margeo.2017.09.007
(View/edit entry)		2018Model application 24
Sutherland, Peter; Brozena, John; Rogers, W. Erick; Doble, Martin; Wadhams, Peter; 2018. Airborne Remote Sensing of Wave Propagation in the Marginal Ice Zone. Journal of Geophysical Research: Oceans, 123, 4132–4152. 10.1029/2018JC013785
(View/edit entry)		2018Model application 18
Ribal, Agustinus; Babanin, Alexander V.; Zieger, Stefan; Liu, Qingxiang; 2020. A high-resolution wave energy resource assessment of Indonesia. Renewable Energy, 160, 1349–1363. 10.1016/j.renene.2020.06.017
(View/edit entry)		2020Model application 15
Echevarria, E. R.; Hemer, M. A.; Holbrook, N. J.; Marshall, A. G.; 2020. Influence of the Pacific‐South American Modes on the Global Spectral Wind‐Wave Climate. Journal of Geophysical Research: Oceans, 125, . 10.1029/2020JC016354
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Markina, M. Y.; Studholme, J. H. P.; Gulev, S. K.; 2019. Ocean Wind Wave Climate Responses to Wintertime North Atlantic Atmospheric Transient Eddies and Low-Frequency Flow. Journal of Climate, 32, 5619–5638. 10.1175/JCLI-D-18-0595.1
(View/edit entry)		2019Model application 4
Neal, Robert; Dankers, Rutger; Saulter, Andrew; Lane, Andrew; Millard, Jonathan; Robbins, Gavin; Price, David; 2018. Use of probabilistic medium- to long-range weather-pattern forecasts for identifying periods with an increased likelihood of coastal flooding around the UK. Meteorological Applications, 25, 534–547. 10.1002/met.1719
(View/edit entry)		2018Model application 24
Chen, Chen; Sasa, Kenji; Ohsawa, Teruo; Kashiwagi, Masashi; Prpić-Oršić, Jasna; Mizojiri, Takaaki; 2020. Comparative assessment of NCEP and ECMWF global datasets and numerical approaches on rough sea ship navigation based on numerical simulation and shipboard measurements. Applied Ocean Research, 101, 102219. 10.1016/j.apor.2020.102219
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Lin, Shangfei; Sheng, Jinyu; Xing, Jiuxing; 2020. Performance Evaluation of Parameterizations for Wind Input and Wave Dissipation in the Spectral Wave Model for the Northwest Atlantic Ocean. Atmosphere-Ocean, 58, 258–286. 10.1080/07055900.2020.1790336
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Lin, Shangfei; Sheng, Jinyu; 2020. Revisiting dependences of the drag coefficient at the sea surface on wind speed and sea state. Continental Shelf Research, 207, 104188. 10.1016/j.csr.2020.104188
(View/edit entry)		2020Model application 5
Shi, Ruizi; Xu, Fanghua; Liu, Li; Fan, Zheng; Yu, Hao; Li, Xiang; Zhang, Yunfei; 2020. The Effects of Ocean Surface Waves on Global Forecast in CFS Modeling System v2.0. .
(View/edit entry)		2020Model application 1
Liu, Shukui; Loh, Meici; Leow, Weichi; Chen, Haoliang; Shang, Baoguo; Papanikolaou, Apostolos; 2020. Rational processing of monitored ship voyage data for improved operation. Applied Ocean Research, 104, 102363. 10.1016/j.apor.2020.102363
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Shi, Jian; Hu, Jiachen; Shao, Weizeng; Wang, Xiaoqing; Yuan, Xinzhe; Zhao, Liangbo; Li, Xiaofeng; 2019. The impact of rain to observed signal from Chinese Gaofen-3 synthetic aperture radar in typhoons. Acta Oceanologica Sinica, 38, 121–133. 10.1007/s13131-019-1502-7
(View/edit entry)		2019Model application 8
Li, Ning; Cheung, Kwok Fai; Cross, Patrick; 2020. Numerical wave modeling for operational and survival analyses of wave energy converters at the US Navy Wave Energy Test Site in Hawaii. Renewable Energy, 161, 240–256. 10.1016/j.renene.2020.06.089
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Ribeiro, P.J.C.; Henriques, J.C.C.; Campuzano, F.J.; Gato, L.M.C.; Falcão, A.F.O.; 2020. A new directional wave spectra characterization for offshore renewable energy applications. Energy, 213, 118828. 10.1016/j.energy.2020.118828
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Yang, Shaobo; Zhuang, Jucheng; Xi, Lintong; Deng, Zegui; Zhan, Chao; Zheng, Chongwei; Li, Xingfei; Li, Hongyu; 2020. Long-Term Variation of the Wave Power Density in the South China Sea Over the Past 28 Years. IEEE Access, 8, 128498–128508. 10.1109/ACCESS.2020.2982853
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Ahn, Seongho; Neary, Vincent S.; 2020. Non-stationary historical trends in wave energy climate for coastal waters of the United States. Ocean Engineering, 216, 108044. 10.1016/j.oceaneng.2020.108044
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Huang, Ching-Jer; Chang, Yu-Cheng; Tai, Shih-Chieh; Lin, Chun-Yuan; Lin, Yen-Pin; Fan, Yang-Ming; Chiu, Chi-Min; Wu, Li-Chung; 2020. Operational monitoring and forecasting of wave run-up on seawalls. Coastal Engineering, 161, 103750. 10.1016/j.coastaleng.2020.103750
(View/edit entry)		2020Model application 4
Fernández, Leandro; Calvino, Clement; Dias, Frederic; 2020. Sensitivity analysis of dissipation parameterizations in the WAVEWATCH III spectral wave model using the ST6 source term packages for Ireland Coast.. .
(View/edit entry)		2020Model application 1
Ahn, Seongho; Haas, Kevin A.; Neary, Vincent S.; 2020. Dominant Wave Energy Systems and Conditional Wave Resource Characterization for Coastal Waters of the United States. Energies, 13, 3041. 10.3390/en13123041
(View/edit entry)		2020Model application 16
Brumer, Sophia E.; Garnier, Valérie; Redelsperger, Jean-Luc; Bouin, Marie-Noelle; Ardhuin, Fabrice; Accensi, Mickael; 2020. Impacts of surface gravity waves on a tidal front: A coupled model perspective. Ocean Modelling, 154, 101677. 10.1016/j.ocemod.2020.101677
(View/edit entry)		2020Model application 3
Benetazzo, Alvise; Barbariol, Francesco; Pezzutto, Paolo; Staneva, Joanna; Behrens, Arno; Davison, Silvio; Bergamasco, Filippo; Sclavo, Mauro; Cavaleri, Luigi; 2021. Towards a unified framework for extreme sea waves from spectral models: rationale and applications. Ocean Engineering, 219, 108263. 10.1016/j.oceaneng.2020.108263
(View/edit entry)		2021Model application 12
Ruju, Andrea; Filipot, Jean-Francois; Bentamy, Abderrahim; Leckler, Fabien; 2020. Spectral wave modelling of the extreme 2013/2014 winter storms in the North-East Atlantic. Ocean Engineering, 216, 108012. 10.1016/j.oceaneng.2020.108012
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Viana, Rafael D.; Lorenzzetti, João A.; Carvalho, Jonas T.; Nunziata, Ferdinando; 2020. Estimating Energy Dissipation Rate from Breaking Waves Using Polarimetric SAR Images. Sensors, 20, 6540. 10.3390/s20226540
(View/edit entry)		2020Model application 4
Hu, Yuyi; Shao, Weizeng; Wei, Yongliang; Zuo, Juncheng; 2020. Analysis of Typhoon-Induced Waves along Typhoon Tracks in the Western North Pacific Ocean, 1998–2017. Journal of Marine Science and Engineering, 8, 521. 10.3390/jmse8070521
(View/edit entry)		2020Model application 11
Rizal, A. M.; Ningsih, N. S.; 2020. Ocean wave energy potential along the west coast of the Sumatra island, Indonesia. Journal of Ocean Engineering and Marine Energy, 6, 137–154. 10.1007/s40722-020-00164-w
(View/edit entry)		2020Model application 9
Grigorieva, V. G.; Gulev, S. K.; Sharmar, V. D.; 2020. Validating Ocean Wind Wave Global Hindcast with Visual Observations from VOS. Oceanology, 60, 9–19. 10.1134/S0001437020010130
(View/edit entry)		2020Model application 5
Pramita, Ayu W.; Sugianto, Denny N.; Prasetyawan, Indra B.; Kurniawan, Roni; Praja, Alfan S.; 2020. POLA TINGGI GELOMBANG DI LAUT JAWA MENGGUNAKAN MODEL WAVEWATCH-III. Jurnal Meteorologi dan Geofisika, 21, 21. 10.31172/jmg.v21i1.609
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Patel, Ravi P.; Nagababu, Garlapati; Arun Kumar, Surisetty V.V.; M., Seemanth; Kachhwaha, Surendra Singh; 2020. Wave resource assessment and wave energy exploitation along the Indian coast. Ocean Engineering, 217, 107834. 10.1016/j.oceaneng.2020.107834
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Yan, Jin; Tao, Ai-feng; Lin, Yi-nan; Pei, Ye; Liu, Ya-yi; Su, Jun-wei; 2020. Swell Source Analysis of East China Sea Under the Influence of Typical Typhoon Scenarios. China Ocean Engineering, 34, 210–222. 10.1007/s13344-020-0020-x
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Pelli, Dario; Oumeraci, Hocine; 2018. Nested modelling of wave processes from deep to shallow water: Building an operational wave model system. , , .
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Shetty, Ateeth; Jayappa, K S; 2020. Seasonal variation in longshore sediment transport rate and its impact on sediment budget along the wave-dominated Karnataka coast, India. Journal of Earth System Science, 129, 234. 10.1007/s12040-020-01504-y
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Remya, P. G.; Rabi Ranjan, T.; Sirisha, P.; Harikumar, R.; Balakrishnan Nair, T. M.; 2020. Indian Ocean wave forecasting system for wind waves: development and its validation. Journal of Operational Oceanography, , 1–16. 10.1080/1755876X.2020.1771811
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Siregar, Diana Cahaya; Ardah, Vivi Putrima; Navitri, Arlin Martha; 2020. Analisis Kondisi Atmosfer Terkait Siklon Tropis Pabuk Serta Pengaruhnya Terhadap Tinggi Gelombang di Perairan Kepulauan Riau. Tunas Geografi, 8, 111. 10.24114/tgeo.v8i2.17049
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Orejarena Rondón, Andrés Fernando; Otero Díaz, Luis Jesús; Dagua Paz, Claudia Janeth; Marriaga Rocha, Leonardo; Herrera Meléndez, Enovaldo; 2013. Determinación del clima de oleaje medio y extremal en el norte del Golfo de Urabá. Boletín Científico CIOH, , 109–124. 10.26640/22159045.254
(View/edit entry)		2013Model application 4
Deng, Zengan; Han, Guijun; Zhang, Xuefeng; Wu, Kejian; 2011. Impacts of surface wave-induced Coriolis-Stokes forcing on the upper ocean circulation. Journal of Oceanography and Marine Science, 2, 102–121. 10.5897/JOMS.9000010
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Tolman, Hendrik L.; 2015. Effects of the Gulf Stream on Wind Waves in SWADE. , , 712–725. 10.1061/9780872629332.053
(View/edit entry)		2015Model application 0
Polnikov, V. G.; Li, Jiachun; Fu, Song; 2011. Numerical Modeling of Wind Waves: Problems, Solutions, Verifications, and Applications. . Volume .
(View/edit entry)		2011Model application 2
Beyramzadeh, Mostafa; Siadatmousavi, Seyed Mostafa; Derkani, Marzieh H.; 2021. Calibration and skill assessment of two input and dissipation parameterizations in WAVEWATCH-III model forced with ERA5 winds with application to Persian Gulf and Gulf of Oman. Ocean Engineering, 219, 108445. 10.1016/j.oceaneng.2020.108445
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Rogers, W. Erick; Meylan, Michael H.; Kohout, Alison L.; 2021. Estimates of spectral wave attenuation in Antarctic sea ice, using model/data inversion. Cold Regions Science and Technology, 182, 103198. 10.1016/j.coldregions.2020.103198
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Yang, Qiulong; Yang, Kunde; 2021. Seasonal comparison of underwater ambient noise observed in the deep area of the South China Sea. Applied Acoustics, 172, 107672. 10.1016/j.apacoust.2020.107672
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Rizza, Umberto; Canepa, Elisa; Miglietta, Mario Marcello; Passerini, Giorgio; Morichetti, Mauro; Mancinelli, Enrico; Virgili, Simone; Besio, Giovanni; De Leo, Francesco; Mazzino, Andrea; 2021. Evaluation of drag coefficients under medicane conditions: Coupling waves, sea spray and surface friction. Atmospheric Research, 247, 105207. 10.1016/j.atmosres.2020.105207
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Daniel, Inger; Higgins Alvarez, Aldemar; Ayala Mantilla, Cristian; Martínez Duarte, Paola; Tigreros Benavides, Paulo; Muñoz Vargas, Alejandro; 2015. Caracterización del régimen del viento y el oleaje en el litoral del departamento del Atlántico, Colombia. Boletín Científico CIOH, , 231–244. 10.26640/22159045.289
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Godoi, Victor Azevedo; Calado, Leandro; Watanabe, Wandrey de Bortoli; Yaginuma, Luciana Erika; Bastos, Marcos; 2011. Extreme wave event in Ilha Grande Bay: a case study. Boletim do Observatório Ambiental Alberto Ribeiro Lamego, 5, 27–44. 10.5935/2177-4560.20110014
(View/edit entry)		2011Model application 2
江丽芳, 张志旭; JIANG Li-fang, ZHANG Zhi-xu; 2011. WAVEWATCH Ⅲ 和 SWAN 模式在南海北部海域海浪模拟结果的对比分析. 热带海洋学报, 30, 27–37. 10.11978/j.issn.1009-5470.2011.05.027
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Taryono, Taryono; Sofian, Ibnu; Tisiana Dwi K, Anastasia Rita; Mustika Alam, Tasdik; 2016. Analisis Panjang dan Tinggi Gelombang untuk Operasi KRI TNI-AL di Perairan Indonesia. Jurnal Chart Datum, 2, 79–94. 10.37875/chartdatum.v2i1.77
(View/edit entry)		2016Model application 2
Qi, Peng; Wang, Aimei; 2020. Numerical simulation of tropical cyclone generated waves in South China Sea during winter monsoon surge. Scientific Reports, 10, 22156. 10.1038/s41598-020-79204-2
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Khan, S.; Echevarria, E.; Hemer, M.; 2020. Ocean swell comparisons between Sentinel‐1 and WAVEWATCH III around Australia. Journal of Geophysical Research: Oceans, 0, e2020JC016265. 10.1029/2020JC016265
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Sun, Ze; Zhang, Haicheng; Liu, Xiaolong; Ding, Jun; Xu, Daolin; Cai, Zhiwen; 2021. Wave energy assessment of the Xisha Group Islands zone for the period 2010–2019. Energy, 220, 119721. 10.1016/j.energy.2020.119721
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Alkhayyat, M.; Brahimi, T.; Langodan, S.; Hoteit, I.; 2020. Wave Energy in the Red Sea Region Perspectives and Analysis. . Volume .
(View/edit entry)		2020Model application 0
Kalourazi, Mehdi Yaghoobi; Siadatmousavi, Seyed Mostafa; Yeganeh-Bakhtiary, Abbas; Jose, Felix; 2020. WAVEWATCH-III source terms evaluation for optimizing hurricane wave modeling: A case study of Hurricane Ivan. Oceanologia, , S0078323420301111. 10.1016/j.oceano.2020.12.001
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Wang, He; Li, Weiwei; Bostater, Charles R.; Neyt, Xavier; Viallefont-Robinet, Françoise; 2020. Towards remote sensed wide-swath sea states from scatterometer: machine learning approach for ASCAT. . Volume .
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Gunn, Kester; Stock-Williams, Clym; 2012. Quantifying the global wave power resource. Renewable Energy, 44, 296–304. 10.1016/j.renene.2012.01.101
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Villas Bôas, Ana B.; Cornuelle, Bruce. D.; Mazloff, Matthew. R.; Gille, Sarah. T.; Ardhuin, Fabrice; 2020. Wave–Current Interactions at Meso- and Submesoscales: Insights from Idealized Numerical Simulations. Journal of Physical Oceanography, 50, 3483–3500. 10.1175/JPO-D-20-0151.1
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Rogers, W.E.; Campbell, Timothy J.; 2009. Implementation of Curvilinear Coordinate System in the WAVEWATCH III Model:. .
(View/edit entry)		2009Model application 20
Hagerman, G.; Scott, G.; 2011. Mapping and Assessment of the United States Ocean Wave Energy Resource. .
(View/edit entry)		2011Model application 130
Wang, Tianlin; Zavorotny, Valery U.; Johnson, Joel; Yi, Yuchan; Ruf, Christopher; Gleason, Scott; McKague, Darren; Hwang, Paul; Rogers, Erick; Chen, Shuyi; Pan, Yulin; Bakker, Thomas; 2020. Improvement of CYGNSS Level 1 Calibration Using Modeling and Measurements of Ocean Surface Mean Square Slope. . Volume .
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Li, Shaotian; Li, Yineng; Peng, Shiqiu; Qi, Zhanhui; 2021. The inter-annual variations of the significant wave height in the Western North Pacific and South China Sea region. Climate Dynamics, , . 10.1007/s00382-021-05636-9
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Terrill, Eric J.; 2013. Trident Warrior Buoy Testing:. .
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Rogers, W. E.; Dykes, James D.; Wang, David; Carroll, Suanne N.; Watson, Kim; 2012. Validation Test Report for WAVEWATCH III:. .
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Aguiar, Deborah F.; Mcinnes, Kathleen; Melo Filho, Eloi; Romeu, Marco Antônio R.; Fontoura, Jose Antônio S.; 2021. Extreme Wave Analysis Based on 31 Years Data from WW3 Model: Study off Southern Brazilian Coast. Anais da Academia Brasileira de Ciências, 93, e20190011. 10.1590/0001-3765202120190011
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Loarca, Andrea Lira; Cobos, Manuel; Besio, Giovanni; Baquerizo, Asunción; 2021. Projected wave climate temporal variability due to climate change. Stochastic Environmental Research and Risk Assessment, , . 10.1007/s00477-020-01946-2
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Kyaw, Thit Oo; Esteban, Miguel; Mäll, Martin; Shibayama, Tomoya; 2021. Extreme waves induced by cyclone Nargis at Myanmar coast: numerical modeling versus satellite observations. Natural Hazards, 106, 1797–1818. 10.1007/s11069-021-04511-4
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Sheremet, Alexandru; Kaihatu, James M.; 2009. Development of Numerical 3-Wave Interactions Module For Operational Wave Forecasts In Intermediate-Depth And Shallow Water:. .
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Banner, Michael L.; Morison, Russel P.; 2012. Refined Source Terms in WAVEWATCH III with Wave Breaking and Sea Spray Forecasts:. .
(View/edit entry)		2012Model application 1
Abdolali, Ali; van der Westhuysen, Andre; Ma, Zaizhong; Mehra, Avichal; Roland, Aron; Moghimi, Saeed; 2021. Evaluating the accuracy and uncertainty of atmospheric and wave model hindcasts during severe events using model ensembles. Ocean Dynamics, 71, 217–235. 10.1007/s10236-020-01426-9
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Rogers, W. E.; Orzech, Mark D.; 2013. Implementation and Testing of Ice and Mud Source Functions in WAVEWATCH III (registered trademark). .
(View/edit entry)		2013Model application 3
Chassignet, Eric P.; 2013. Accelerated Prediction of the Polar Ice and Global Ocean (APPIGO):. .
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Saulter, Andrew N.; Bunney, Christopher; King, Robert R.; Waters, Jennifer; 2020. An Application of NEMOVAR for Regional Wave Model Data Assimilation. Frontiers in Marine Science, 7, . 10.3389/fmars.2020.579834
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Sahu, Akash; Jeyaraj, Satheeshkumar; Ramakrishnan, Balaji; 2021. Hindcast Modelling of Waves and Estimation of Power Potential in the Bay of Bengal. Journal of The Institution of Engineers (India): Series C, 102, 471–476. 10.1007/s40032-020-00638-8
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Model application

0
Smith, Jane McKee; Hesser, Tyler; Bryant, Mary Anderson; Roland, Aron; Cox, Andrew; 2020. ADVANCES IN THE UNSTRUCTURED WAVEWATCH III AND APPLICATION TO HURRICANE DORIAN. Coastal Engineering Proceedings, , 42. 10.9753/icce.v36v.waves.42
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Li, Jingkai; Li, Rui; Ding, Yang; Ma, Yunrui; 2021. Modeled Stokes drift in the marginal ice zones of the Arctic Ocean. Ocean Dynamics, , . 10.1007/s10236-021-01451-2
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Babanin, Alexander V.; Young, Ian R.; Rogers, W. E.; Smith, Jane M.; Tolman, Hendrik L.; 2010. Observation-Based Dissipation and Input Terms for Spectral Wave Models, with End-User Testing. .
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André, Gael; Bellafont, Florian; Leckler, Fabien; Morichon, Denis; 2021. Predicting seiche hazard for coastal harbours along the northern and western coasts of France. Natural Hazards, 106, 1065–1086. 10.1007/s11069-021-04509-y
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Model application

2
Shen, Hayley H.; 2013. An Integrative Wave Model for the Marginal Ice Zone based on a Rheological Parameterization:. .
(View/edit entry)		2013Model application 1
Babanin, Alexander V.; Young, Ian R.; Zieger, S.; 2013. Wave Climate and Wave Mixing in the Marginal Ice Zones of Arctic Seas, Observations and Modelling:. .
(View/edit entry)		2013Model application 0
Myslenkov, Stanislav; Platonov, Vladimir; Kislov, Alexander; Silvestrova, Ksenia; Medvedev, Igor; 2021. Thirty-Nine-Year Wave Hindcast, Storm Activity, and Probability Analysis of Storm Waves in the Kara Sea, Russia. Water, 13, 648. 10.3390/w13050648
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Panfilova, M.A.; Kuznetsova, A.M.; Baydakov, G.A.; Troitskaya, Yu.I.; Karaev, V.Yu.; 2020. The method of comparison of WAVEWATCH III model calculation results with the data of Ka-band radar. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 17, 9–18. 10.21046/2070-7401-2020-17-7-9-18
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Rogers, W. E.; Wallcraft, Alan J.; 2013. Develop and Test Coupled Physical Parameterizations and Tripolar Wave Model Grid: NAVGEM / WaveWatch III / HYCOM:. .
(View/edit entry)		2013Model application 1
Vannucchi, Valentina; Taddei, Stefano; Capecchi, Valerio; Bendoni, Michele; Brandini, Carlo; 2021. Dynamical Downscaling of ERA5 Data on the North-Western Mediterranean Sea: From Atmosphere to High-Resolution Coastal Wave Climate. Journal of Marine Science and Engineering, 9, 208. 10.3390/jmse9020208
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Elmore, Paul A.; Bradford, Sean E.; Duvieilh, Kevin M.; Richardson, Michael D.; 2009. The Deterministic Mine Burial Prediction System:. .
(View/edit entry)		2009Model application 0
Hanson, Jeffrey L.; Hathaway, Kent K.; 2013. Coastal Wave Studies FY13 Summary Report:. .
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Rogers, W. E.; Posey, P. G.; Collins, Clarence; Fan, Yalin; 2015. Wave-Ice interaction in the Marginal Ice Zone: Toward a Wave-Ocean-Ice Coupled Modeling System:. .
(View/edit entry)		2015Model application 0
Hanson, Jeffrey L.; Hathaway, Kent K.; 2012. Coastal Wave Studies:. .
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Richman, James G.; Whitcomb, Timothy R.; 2014. ESPC Coupled Global Prediction System. .
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Li, Ning; García-Medina, Gabriel; Cheung, Kwok Fai; Yang, Zhaoqing; 2021. Wave energy resources assessment for the multi-modal sea state of Hawaii. Renewable Energy, , S0960148121004729. 10.1016/j.renene.2021.03.116
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7
Webb, Adrean; Shimura, Tomoya; Mori, Nobuhito; 2018. A High-Resolution Future Wave Climate Projection for the Coastal Northwestern Atlantic. Journal of Japan Society of Civil Engineers, Ser. B2 (Coastal Engineering), 74, I_1345–I_1350. 10.2208/kaigan.74.I_1345
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Guo, Zhen; Huang, Yu; Aydin, Adnan; Xue, Mei; 2019. Identifying the Frequency Dependent Interactions Between Ocean Waves and The Continental Margin on Seismic Noise Recordings. .
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Iwasaki, Shinsuke; Otsuka, Junichi; 2021. Evaluation of ocean surface waves along the coastal area of the Sea of Okhotsk during winter. .
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Mokhov, I. I.; Pogarskiy, F. A.; 2021. Variations in the Characteristics of Sea Waves in the Arctic Basin Caused by Climate Changes in the 21st Century Based on Model Simulations. Doklady Earth Sciences, 496, 164–167. 10.1134/S1028334X21020136
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Liu, Qingxiang; Gramstad, Odin; Babanin, Alexander; 2021. Kinetic equations in a third-generation spectral wave model. Journal of Fluid Mechanics, 910, A50. 10.1017/jfm.2020.1036
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Chaplina, Tatiana; Loktev, Fedor; Kuznetsova, Alexandra; Baydakov, Georgy; Troitskaya, Yulia; 2021. Development of Methods for Wind Speed and Wave Parameters Forecasting in Inland Waters. In: (eds.)Processes in GeoMedia - Volume II.. 15–20.
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Takase, Leonardo Silveira; Stein, Luiza Paschoal; Hoff, Natasha Travenisk; Siegle, Eduardo; 2021. Wave climate and power distribution around a rocky island: Alcatrazes, Brazil. Ocean and Coastal Research, 69, e21010. 10.1590/2675-2824069.20-009lst
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Lin, Shangfei; Sheng, Jinyu; Xing, Jiuxing; 2021. A comparative study of viscoelastic models for ocean wave dissipation in ice-covered regions of the eastern Canadian shelf. Continental Shelf Research, 223, 104424. 10.1016/j.csr.2021.104424
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Oliveira, Tiago C.A.; Tkalich, Pavel; Tan, Bien Aik; Wan, Chun Ru; Yeo, Keng Pong; 2020. High-resolution wind-wave model for the Sea Surface Wave Height forecasting and hindcasting. . Volume .
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Ahn, Seongho; 2021. Modeling mean relation between peak period and energy period of ocean surface wave systems. Ocean Engineering, 228, 108937. 10.1016/j.oceaneng.2021.108937
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Yevnin, Yuval; Toledo, Yaron; 2021. Wave action bottom reflection source term implementation. Ocean Modelling, 163, 101818. 10.1016/j.ocemod.2021.101818
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Brus, Steven R.; Wolfram, Phillip J.; Van Roekel, Luke P.; Meixner, Jessica D.; 2021. Unstructured global to coastal wave modeling for the Energy Exascale Earth System Model using WAVEWATCH III version 6.07. Geoscientific Model Development, 14, 2917–2938. 10.5194/gmd-14-2917-2021
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Myslenkov, Stanislav; Shestakova, Anna; Chechin, Dmitry; 2021. The impact of sea waves on turbulent heat fluxes in the Barents Sea according to numerical modeling. Atmospheric Chemistry and Physics, 21, 5575–5595. 10.5194/acp-21-5575-2021
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Mentaschi, Lorenzo; Vousdoukas, Michalis; Montblanc, Tomas Fernandez; Kakoulaki, Georgia; Voukouvalas, Evangelos; Besio, Giovanni; Salamon, Peter; 2020. Assessment of global wave models on regular and unstructured grids using the Unresolved Obstacles Source Term. Ocean Dynamics, 70, 1475–1483. 10.1007/s10236-020-01410-3
(View/edit entry)		2020Model application 5
Innocenti, Alessio; Onorato, Miguel; Brandini, Carlo; 2021. Analysis of Dangerous Sea States in the Northwestern Mediterranean Area. Journal of Marine Science and Engineering, 9, 422. 10.3390/jmse9040422
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Liang, Shu-xiu; Sun, Zhao-chen; Chang, Yan-ling; Shi, Ying; 2020. Evolution characteristics and quantization of wave period variation for breaking waves. Journal of Hydrodynamics, 32, 361–374. 10.1007/s42241-020-0017-1
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Wang, He; Yang, Jingsong; Zhu, Jianhua; Ren, Lin; Liu, Yahao; Li, Weiwei; Chen, Chuntao; 2021. Estimation of Significant Wave Heights from ASCAT Scatterometer Data via Deep Learning Network. Remote Sensing, 13, 195. 10.3390/rs13020195
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Sun, Ze; Xu, Dao-lin; Liu, Xiao-long; Zhang, Hai-cheng; Cai, Zhi-wen; 2021. Observation and simulation of wind waves near a typical reef lagoon in South China Sea. Journal of Hydrodynamics, 33, 24–32. 10.1007/s42241-021-0010-3
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Zieger, Stefan; Greenslade, Diana J. M.; Aijaz, Saima; Kepert, Jeffrey D.; Burton, Andrew; 2021. Hindcasting of tropical cyclone winds and waves. Ocean Dynamics, 71, 559–588. 10.1007/s10236-021-01443-2
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Amrutha, M. M.; Kumar, V. Sanil; 2021. Identification of wave systems in the multimodal sea state along the Indian shelf seas. Ocean Dynamics, 71, 589–600. 10.1007/s10236-021-01456-x
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Shao, Weizeng; Yu, Wupeng; Jiang, Xingwei; Shi, Jian; Wei, Yongliang; Ji, Qiyan; 2021. Analysis of Wave Distributions Using the WAVEWATCH-III Model in the Arctic Ocean. Journal of Ocean University of China, , . 10.1007/s11802-022-4811-y
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Vega, Marco J.; Alvarez-Silva, Oscar; Restrepo, Juan C.; Ortiz, Juan C.; Otero, Luis J.; 2020. Interannual variability of wave climate in the Caribbean Sea. Ocean Dynamics, 70, 965–976. 10.1007/s10236-020-01377-1
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H. Derkani, Marzieh; Hessner, Katrin; Zieger, Stefan; Nelli, Filippo; Alberello, Alberto; Toffoli, Alessandro; 2020. Evaluation of the numerical wave model (WaveWatch III) for wave simulation in the Antarctic marginal ice zone. .
(View/edit entry)		2020Model application 1
Valiente, Nieves G.; Saulter, Andrew; Edwards, John M.; Lewis, Huw W.; Castillo Sanchez, Juan M.; Bruciaferri, Diego; Bunney, Christopher; Siddorn, John; 2021. The Impact of Wave Model Source Terms and Coupling Strategies to Rapidly Developing Waves across the North-West European Shelf during Extreme Events. Journal of Marine Science and Engineering, 9, 403. 10.3390/jmse9040403
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Sun, Zhanfeng; Shao, Weizeng; Yu, Wupeng; Li, Jun; 2021. A Study of Wave-Induced Effects on Sea Surface Temperature Simulations during Typhoon Events. Journal of Marine Science and Engineering, 9, 622. 10.3390/jmse9060622
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Alfahmi, Furqon; Rahayu, Sri Puji; Hakim, Oky Sukma; Dewi, Ratna Cintya; Khaerima, Amrya; 2018. Marine risk information for safety of traditional sailing based on high wave and rainfall predictions. . Volume .
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Hu, Haoguo; van der Westhuysen, André J.; Chu, Philip; Fujisaki-Manome, Ayumi; 2021. Predicting Lake Erie wave heights and periods using XGBoost and LSTM. Ocean Modelling, 164, 101832. 10.1016/j.ocemod.2021.101832
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Yang, Shaobo; Xi, Lintong; Li, Xingfei; Zheng, Chongwei; 2021. Temporal and Spatial Characteristics of Wave Energy Resources in Sri Lankan Waters over the Past 30 Years. Journal of Ocean University of China, 20, 489–500. 10.1007/s11802-021-4512-y
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Leach, Chloe; Hague, Ben S.; Kennedy, David M.; Carvalho, Rafael C.; Ierodiaconou, Daniel; 2021. Identifying oceanographic conditions conducive to coastal impacts on temperate open coastal beaches. Natural Hazards, 109, 499–521. 10.1007/s11069-021-04845-z
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Chen, Chen; Sasa, Kenji; Prpić-Oršić, Jasna; Mizojiri, Takaaki; 2021. Statistical analysis of waves’ effects on ship navigation using high-resolution numerical wave simulation and shipboard measurements. Ocean Engineering, 229, 108757. 10.1016/j.oceaneng.2021.108757
(View/edit entry)		2021Model application 6
Fernández, Leandro; Calvino, Clément; Dias, Frédéric; 2021. Sensitivity analysis of wind input parametrizations in the WAVEWATCH III spectral wave model using the ST6 source term package for Ireland. Applied Ocean Research, 115, 102826. 10.1016/j.apor.2021.102826
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Pavlova, Anna; Myslenkov, Stanislav; Arkhipkin, Victor; Surkova, Galina; 2021. Storm surges and storm wind waves in the Caspian Sea in the present and future climate. .
(View/edit entry)		2021Model application 2
Myslenkov, S. A.; Platonov, V. S.; Silvestrova, K. P.; Dobrolyubov, S. A.; 2021. Increase in Storm Activity in the Kara Sea from 1979 to 2019: Numerical Simulation Data. Doklady Earth Sciences, 498, 502–508. 10.1134/S1028334X2106012X
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Li, Huimin; Stopa, Justin E.; Mouche, Alexis; Zhang, Biao; He, Yijun; Chapron, Bertrand; 2021. Assessment of ocean wave spectrum using global Envisat/ASAR data and hindcast simulation. Remote Sensing of Environment, 264, 112614. 10.1016/j.rse.2021.112614
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Lima, Rafael De França; Lins de Barros, Flavia Moraes; Cirano, Mauro; 2021. Análise das Condições Meteoceanográficas em Eventos de Ressaca do Mar no Litoral do Estado do Rio de Janeiro, Brasil no Período de 1948 a 2008. Anuário do Instituto de Geociências, 44, . 10.11137/1982-3908_2021_44_41726
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Ribeiro, A.S.; deCastro, M.; Costoya, X.; Rusu, Liliana; Dias, J.M.; Gomez-Gesteira, M.; 2021. A Delphi method to classify wave energy resource for the 21st century: Application to the NW Iberian Peninsula. Energy, 235, 121396. 10.1016/j.energy.2021.121396
(View/edit entry)		2021Model application 8
Zhou, Shuyi; Xie, Wenhong; Lu, Yuxiang; Wang, Yuanlin; Zhou, Yulong; Hui, Nian; Dong, Changming; 2021. ConvLSTM-Based Wave Forecasts in the South and East China Seas. Frontiers in Marine Science, 8, 680079. 10.3389/fmars.2021.680079
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Umesh, P.A.; Behera, Manasa R.; 2021. On the improvements in nearshore wave height predictions using nested SWAN-SWASH modelling in the eastern coastal waters of India. Ocean Engineering, 236, 109550. 10.1016/j.oceaneng.2021.109550
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Samiksha, S.V.; Jancy, Lincy; Sudheesh, K.; Kumar, V. Sanil; Shanas, P.R.; 2021. Evaluation of wave growth and bottom friction parameterization schemes in the SWAN based on wave modelling for the central west coast of India. Ocean Engineering, 235, 109356. 10.1016/j.oceaneng.2021.109356
(View/edit entry)		2021Model application 2
Rogowski, Peter; Merrifield, Sophia; Collins, Clarence; Hesser, Tyler; Ho, Allison; Bucciarelli, Randy; Behrens, James; Terrill, Eric; 2021. Performance Assessments of Hurricane Wave Hindcasts. Journal of Marine Science and Engineering, 9, 690. 10.3390/jmse9070690
(View/edit entry)		2021Model application 4
Marechal, Gwendal; de Marez, Charly; 2021. Variability of wind wave field by realistic mesoscale and submesoscale eddy field. .
(View/edit entry)		2021Model application 1
Alipour, Atefeh; Siadatmousavi, Seyed Mostafa; Jose, Felix; 2021. Numerical simulation of waves in the Caspian Sea: calibration and verification of the observation-based source terms. Ocean Dynamics, 71, 699–714. 10.1007/s10236-021-01465-w
(View/edit entry)		2021Model application 4
Badriana, Mochamad Riam; Lee, Han Soo; 2021. Multimodel Ensemble Projections of Wave Climate in the Western North Pacific Using CMIP6 Marine Surface Winds. Journal of Marine Science and Engineering, 9, 835. 10.3390/jmse9080835
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Sun, Zhanfeng; 2021. Analysis of Wave-Induced Stokes Transport Effects on Sea Surface Temperature Simulations in the Western Pacific Ocean. Journal of Marine Science and Engineering, 9, 834. 10.3390/jmse9080834
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Osinowo, Ayodotun Adekunle; Popoola, Samuel Olatunde; 2021. Long-term spatio-temporal trends in extreme wave events in the Niger delta coastlines.. Continental Shelf Research, 224, 104471. 10.1016/j.csr.2021.104471
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Chikhi, Sara; Slimani, Mohamed El-Amine; 2019. Wind-Waves Characteristics in the International Port of Algiers: Comparison of ALADIN and AROME’s Wind Effect. Journal of Atmospheric Science Research, 2, . 10.30564/jasr.v2i3.708
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Iwasaki, Shinsuke; Otsuka, Junichi; 2021. Evaluation of Wave-Ice Parameterization Models in WAVEWATCH III® Along the Coastal Area of the Sea of Okhotsk During Winter. Frontiers in Marine Science, 8, 713784. 10.3389/fmars.2021.713784
(View/edit entry)		2021Model application 2
Kong, Congying; Liu, Hao; Sun, J.; Li, Z.; Liu, X.; 2021. Numerical simulation of wave spectrum during a typhoon. E3S Web of Conferences, 290, 02019. 10.1051/e3sconf/202129002019
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Xiang-jun, Yu; Qing-hong, Li; Mao-lin, Li; Sun, J.; Li, Z.; Liu, X.; 2021. Numerical Analysis of Wave Characteristic In the Freak Wave-- “New Year Wave” Formation. E3S Web of Conferences, 290, 02013. 10.1051/e3sconf/202129002013
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Shao, Weizeng; Jiang, Tao; Jiang, Xingwei; Zhang, Youguang; Zhou, Wei; 2021. Evaluation of Sea Surface Winds and Waves Retrieved From the Chinese HY-2B Data. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 14, 9624–9635. 10.1109/JSTARS.2021.3112760
(View/edit entry)		2021

Model application

0
Gleason, Scott; Al-Khaldi, Mohammad M.; Ruf, Christopher; McKague, Darren S.; Wang, Tianlin; Russel, Anthony; 2021. Characterizing and Mitigating Digital Sampling Effects on the CYGNSS Level 1 Calibration. IEEE Transactions on Geoscience and Remote Sensing, , 1–1. 10.1109/TGRS.2021.3120026
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Model application

0
Li, Huimin; Hauser, Daniele; Chapron, Bertrand; Nouguier, Frederic; Schippers, Patricia; Zhang, Biao; Yang, Jingsong; He, Yijun; 2021. Up-to-Downwave Asymmetry of the CFOSAT SWIM Fluctuation Spectrum for Wave Direction Ambiguity Removal. IEEE Transactions on Geoscience and Remote Sensing, , 1–12. 10.1109/TGRS.2021.3086483
(View/edit entry)		2021

Model application

4
Kim, Hanna; Kim, Young Ho; Oh, Sang Myeong; Kang, Kiryong; Kim, Kyeong Ok; 2021. Application of Data Assimilation for Spectral Wave Model in Coastal Regions of South Korea. Journal of Coastal Research, 114, . 10.2112/JCR-SI114-016.1
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Model application

0
Shi, Ruizi; Xu, Fanghua; Liu, Li; Fan, Zheng; Yu, Hao; Li, Hong; Li, Xiang; Zhang, Yunfei; 2021. The Effects of Ocean Surface Waves on Global Intraseasonal Prediction: Case Studies with a Coupled CFSv2.0-WW3. .
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Model application

0
Liu, Qingxiang; Babanin, Alexander V.; Rogers, W. Erick; Zieger, Stefan; Young, Ian R.; Bidlot, Jean‐Raymond; Durrant, Tom; Ewans, Kevin; Guan, Changlong; Kirezci, Cagil; Lemos, Gil; MacHutchon, Keith; Moon, Il‐Ju; Rapizo, Henrique; Ribal, Agustinus; Semedo, Alvaro; Wang, Juanjuan; 2021. Global Wave Hindcasts Using the Observation‐Based Source Terms: Description and Validation. Journal of Advances in Modeling Earth Systems, 13, . 10.1029/2021MS002493
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Model application

4
Shao, Weizeng; Hu, Yuyi; Yang, Jingsong; Nunziata, Ferdinando; Sun, Jian; Li, Huan; Zuo, Juncheng; 2018. An Empirical Algorithm to Retrieve Significant Wave Height from Sentinel-1 Synthetic Aperture Radar Imagery Collected under Cyclonic Conditions. Remote Sensing, 10, 1367. 10.3390/rs10091367
(View/edit entry)		2018

Model application

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Campos, R.M.; D'Agostini, A.; França, B.R.L.; Damião, A.L.A.; Guedes Soares, C.; 2021. Implementation of a multi-grid operational wave forecast in the South Atlantic Ocean. Ocean Engineering, , 110173. 10.1016/j.oceaneng.2021.110173
(View/edit entry)		2021

Model application

3
Barbariol, Francesco; Davison, Silvio; Falcieri, Francesco Marcello; Ferretti, Rossella; Ricchi, Antonio; Sclavo, Mauro; Benetazzo, Alvise; 2021. Wind Waves in the Mediterranean Sea: An ERA5 Reanalysis Wind-Based Climatology. Frontiers in Marine Science, 8, 760614. 10.3389/fmars.2021.760614
(View/edit entry)		2021

Model application

8
Zheng, Zhenjun; Ma, Xiaozhou; Ma, Yuxiang; Huang, Xuezhi; Dong, Guohai; 2021. Modeling of coastal infragravity waves using the spectral model WAVEWATCH Ⅲ. Coastal Engineering, 170, 104016. 10.1016/j.coastaleng.2021.104016
(View/edit entry)		2021

Model application

2
Ichikawa, Kaoru; Wang, Xi-Feng; Tamura, Hitoshi; 2020. Capability of Jason-2 Subwaveform Retrackers for Significant Wave Height in the Calm Semi-Enclosed Celebes Sea. Remote Sensing, 12, 3367. 10.3390/rs12203367
(View/edit entry)		2020

Model application

2
Basañez, Ana; Pérez-Muñuzuri, Vicente; 2021. HF Radars for Wave Energy Resource Assessment Offshore NW Spain. Remote Sensing, 13, 2070. 10.3390/rs13112070
(View/edit entry)		2021

Model application

3
Ren, Lin; Yang, Jingsong; Dong, Xiao; Jia, Yongjun; Zhang, Yunhua; 2021. Preliminary Significant Wave Height Retrieval from Interferometric Imaging Radar Altimeter Aboard the Chinese Tiangong-2 Space Laboratory. Remote Sensing, 13, 2413. 10.3390/rs13122413
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Model application

3
Mora-Escalante, Rodney E.; Ureña-Mora, Juan Pablo; 2020. Simulación de oleaje en los alrededores de la Isla del Coco, Costa Rica. Revista de Biología Tropical, 68, S198–S212. 10.15517/rbt.v68iS1.41181
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Model application

0
Panfilova, M.A.; Kuznetsova, A. M.; Titchenko, Yu. A.; Sergeev, D. A.; Troitskaya, Yu. I.; Karaev, V. Yu.; 2021. Methods of Comparing the Wave Model Simulation Data with the KA-BAND Radar Data. . Volume .
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Model application

0
Myslenkov, Stanislav; Zelenko, Alexander; Resnyanskii, Yuriy; Arkhipkin, Victor; Silvestrova, Ksenia; 2021. Quality of the Wind Wave Forecast in the Black Sea Including Storm Wave Analysis. Sustainability, 13, 13099. 10.3390/su132313099
(View/edit entry)		2021

Model application

1
Shao, Weizeng; Jiang, Tao; Zhang, Yu; Shi, Jian; Wang, Weili; 2021. Cyclonic Wave Simulations Based on WAVEWATCH-III Using a Sea Surface Drag Coefficient Derived from CFOSAT SWIM Data. Atmosphere, 12, 1610. 10.3390/atmos12121610
(View/edit entry)		2021

Model application

0
Kurniawan, R; Harsa, H; Ramdhani, A; Fitria, W; Rahmawati, D; Habibie, M N; Hutapea, T D; 2021. Evaluating skill of BMKG wave model forecast (Wavewatch-3) with observation data in Indian Ocean (5 – 31 December 2017).. IOP Conference Series: Earth and Environmental Science, 893, 012058. 10.1088/1755-1315/893/1/012058
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Model application

0
Truong, Dinh Duc; Tri, Doan Quang; Don, Nguyen Cao; 2021. The Impact of Waves and Tidal Currents on the Sediment Transport at the Sea Port. Civil Engineering Journal, 7, 1634–1649. 10.28991/cej-2021-03091749
(View/edit entry)		2021

Model application

6
Chaplina, Tatiana; Kuznetsova, A. M.; Poplavsky, E. I.; Rusakov, N. S.; Troitskaya, Yu. I.; 2022. Wind Waves Modeling in Polar Low Conditions Within the WAVEWATCH III Model. In: (eds.)Processes in GeoMedia—Volume IV.. 165–171.
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Model application

0
Mora Escalante, Rodney Eduardo; Lizano Rodríguez, Omar Gerardo; 2020. La respuesta de modelos espectrales de olas en condiciones de huracanes intensos en el golfo de México. Revista Ciencias Marinas y Costeras), , 73–93. 10.15359/revmar.12-2.4
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Model application

0
Mortlock, T. R., Goodwin, I. D., & Turner, I. L. 2014. Nearshore SWAN model sensitivities to measured and modelled offshore wave scenarios at an embayed beach compartment, NSW, Australia.. Australian Journal of Civil Engineering, 12, 67-82. 10.7158/14488353.2014.11463994
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Godoi, V. A., Calado, L., Watanabe, B. W., Yaginuma, L., & Pereira, M. B. 2011. Evento extremo de ondas na Baía da Ilha Grande: um estudo de caso. Boletim do Observatório Ambiental Alberto Ribeiro Lamego, Campos dos Goytacazes/RJ,, 5, 27-44. 10.19180/2177-4560.20110014
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Model application

7
Jalali, R., Ansari, M. T., Pournouri, M., & Farshchi, P. 2018. Investigation of requirements and legal framework of integrated management of the Persian Gulf Coast in Iran to present ideal legal models.. Ukrainian Journal of Ecology, 8, 241-247. 10.22478/UFPB.2179-7137.2020V9N04.52778
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Model application

0
Shao, Weizeng; Yu, Wupeng; Jiang, Xingwei; Shi, Jian; Wei, Yongliang; Ji, Qiyan; 2022. Analysis of Wave Distributions Using the WAVEWATCH-III Model in the Arctic Ocean. Journal of Ocean University of China, 21, 15–27. 10.1007/s11802-022-4811-y
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Model application

1
Tilinina, Natalia; Ivonin, Dmitry; Gavrikov, Alexander; Sharmar, Vitaly; Gulev, Sergey; Suslov, Alexander; Fadeev, Vladimir; Trofimov, Boris; Bargman, Sergey; Salavatova, Leysan; Koshkina, Vasilisa; Shishkova, Polina; Razorenova, Olga; Sokov, Alexey; 2021. Wind waves in the North Atlantic from ship navigational radar: SeaVision development and its validation with Spotter wave buoy and WaveWatch III. .
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Model application

0
Osinski, Robert Daniel; Radtke, Hagen; 2020. Ensemble hindcasting of wind and wave conditions with WRF and WAVEWATCH III® driven by ERA5. Ocean Science, 16, 355–371. 10.5194/os-16-355-2020
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Model application

11
Li, Jiangyu; 2020. Interactive comment on “Mitigation of Model Bias Influences on Wave Data Assimilation with Multiple Assimilation Systems Using WaveWatch III v5.16 and SWAN v41.20” from anonymous referee #1. .
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Model application

0
Li, Jiangyu; 2020. Interactive comment on “Mitigation of Model Bias Influences on Wave Data Assimilation with Multiple Assimilation Systems Using WaveWatch III v5.16 and SWAN v41.20” from anonymous referee #2. .
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Model application

0
Foli, Bennet Atsu Kwame; Ansong, Joseph K.; Addo, Kwasi Appeaning; Wiafe, George; 2022. A WAVEWATCH III® Model Approach to Investigating Ocean Wave Source Terms for West Africa: Input-Dissipation Source Terms. Remote Sensing in Earth Systems Sciences, , . 10.1007/s41976-021-00065-y
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Model application

2
Chenchouni, Haroun; Chaminé, Helder I.; Khan, Md Firoz; Merkel, Broder J.; Zhang, Zhihua; Li, Peiyue; Kallel, Amjad; Khélifi, Nabil; Kessali, Nasser; Bouhamadouche, Mohamed; Hemdane, Yacine; 2022. Performance Evaluation of a New Source Term Package ST6 of Wavewatch III in Catalan Coasts (Spain). In: (eds.)New Prospects in Environmental Geosciences and Hydrogeosciences.. 37–40.
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Model application

0
Li, Jiangyu; Zhang, Shaoqing; 2019. Mitigation of Model Bias Influences on Wave Data Assimilation with Multiple Assimilation Systems Using WaveWatch III v5.16 and SWAN v41.20. .
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Model application

2
Anonymous; 2019. Review For GMD: “Mitigation of Model Bias influence on wave Data assimilation with multiple Assimilation systems Using WaveWatch III v5.16 and SWAN v41.20” By Li and Zhang. .
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Model application

0
Anonymous; 2019. Mitigation of Model Bias Influences on Wave Data Assimilation with Multiple Assimilation Systems Using WaveWatch III v5.16 and SWAN v41.20. .
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Model application

3
Tamizi, Ali; Alves, Jose-Henrique; Young, Ian R.; 2021. The physics of ocean wave evolution within tropical cyclones. Journal of Physical Oceanography, , . 10.1175/JPO-D-21-0005.1
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Model application

3
Bernardino, M.; Gonçalves, M.; Guedes Soares, C.; 2021. Marine Climate Projections Toward the End of the Twenty-First Century in the North Atlantic. Journal of Offshore Mechanics and Arctic Engineering, 143, 061201. 10.1115/1.4050698
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Model application

4
Wang, He; Mouche, Alexis; Husson, Romain; Grouazel, Antoine; Chapron, Bertrand; Yang, Jingsong; 2022. Assessment of Ocean Swell Height Observations from Sentinel-1A/B Wave Mode against Buoy In Situ and Modeling Hindcasts. Remote Sensing, 14, 862. 10.3390/rs14040862
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Model application

2
Kaiser, Júlia; Nogueira, Izabel C. M.; Campos, Ricardo M.; Parente, Carlos E.; Martins, Renato P.; Belo, Wellington C.; 2022. Evaluation of wave model performance in the South Atlantic Ocean: a study about physical parameterization and wind forcing calibration. Ocean Dynamics, 72, 137–150. 10.1007/s10236-021-01495-4
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Model application

0
Castillo, Juan Manuel; Lewis, Huw; Mishra, Akhilesh; Mitra, Ashis; Polton, Jeff; Brereton, Ashley; Saulter, Andrew; Arnold, Alex; Berthou, Segolene; Clark, Douglas; Crook, Julia; Das, Ananda; Edwards, John; Feng, Xiangbo; Gupta, Ankur; Joseph, Sudheer; Klingaman, Nicholas; Momin, Imranali; Pequignet, Christine; Sanchez, Claudio; Saxby, Jennifer; Valdivieso da Costa, Maria; 2022. The Regional Coupled Suite (RCS-IND1): application of a flexible regional coupled modelling framework to the Indian region at km-scale. .
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Model application

0
Innocenti, Alessio; Brandini, Carlo; 2021. Numerical analysis of extreme waves in the North-Western Mediterranean area. .
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Model application

0
Alday, Matias; De Carlo, Marine; Dodet, Guillaume; Accensi, Mickael; Stutzmann, Eleonore; Ardhuin, Fabrice; Bidlot, Jean; 2021. Sea state trends and variability: consistency between the ESA Sea State Climate Change Inititative dataset, ERA5 winds and microseisms. .
(View/edit entry)		2021

Model application

0
Thomas, Erin E.; Müller, Malte; Bohlinger, Patrik; Batrak, Yurii; Szapiro, Nicholas; 2021. A Kilometer-Scale Coupled Atmosphere-Wave Forecasting System for the European Arctic. Weather and Forecasting, , . 10.1175/WAF-D-21-0065.1
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Model application

1
Yuan, Xinzhe; Shao, Weizeng; Han, Bing; Wang, Xiaochen; Wang, Xiaoqing; Gao, Yuan; 2021. Rain-induced characteristics in C- and X-band synthetic aperture radar observations of tropical cyclones. Remote Sensing Letters, 12, 573–584. 10.1080/2150704X.2021.1906977
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Model application

2
Onink, Victor; Jongedijk, Cleo; Hoffman, Matthew; van Sebille, Erik; Laufkötter, Charlotte; 2021. Global modelling of plastic beaching indicates coastlines and coastal waters as significant plastic reservoirs. .
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0
Hansen, Carsten; 2021. Near-surface Stokes drift in operational wave forecast. .
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Model application

0
Patra, Anindita; Min, Seung-Ki; 2021. Hemispheric asymmetry in future seasonal wave power changes. .
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Model application

0
Shao, Weizeng; Zhao, Chi; Jiang, Xingwei; Sun, Zhanfeng; Wang, Xiaoqing; Wang, Jian; Cai, Lina; 2021. Characteristics of suspended sediment in Sentinel-1 synthetic aperture radar observations. Remote Sensing Letters, 12, 1167–1179. 10.1080/2150704X.2021.1974119
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0
Pranavam Ayyappan Pillai, Umesh; Pinardi, Nadia; Federico, Ivan; Causio, Salvatore; Alessandri, Jacopo; Unguendoli, Silvia; Valentini, Andrea; 2021. Nature Based Solution simulation design methods &amp;#8211;&amp;#160;A storm surge seagrass application. .
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Model application

0
Habibie, M N; Marfai, M A; Harsa, H; Linarka, U A; 2021. Spatial temporal analysis for potential wave energy resources in Indonesia. IOP Conference Series: Earth and Environmental Science, 893, 012050. 10.1088/1755-1315/893/1/012050
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Model application

0
Pham Tien, Dat; Nguyen Minh, Huan; Nguyen Phuong, Anh; 2021. Numerical modeling and validating waves generated by typhoons in the East Vietnam Sea using satellite data. Tạp chí Khoa học và Công nghệ Biển, 21, 107–120. 10.15625/1859-3097/16408
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Model application

0
Gu, Chengcheng; Li, Hua; Haces-Fernandez, Francisco; 2021. Feasibility of the Potential for Wave and Wind Energy Hybrid Farm to Supply Offshore Oil Platform in Gulf of Mexico. . Volume .
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Model application

0
Boutin, Guillaume; Williams, Timothy; Rampal, Pierre; Olason, Einar; Lique, Camille; 2020. Wave–sea-ice interactions in a brittle rheological framework. .
(View/edit entry)		2020

Model application

15
Nose, Takehiko; Waseda, Takuji; Kodaira, Tsubasa; Inoue, Jun; 2020. Satellite-retrieved sea ice concentration uncertainty and its effect on modelling wave evolution in marginal ice zones. The Cryosphere, 14, 2029–2052. 10.5194/tc-14-2029-2020
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Model application

8
Meylan, M. H.; Bennetts, L. G.; Mosig, J. E. M.; Rogers, W. E.; Doble, M. J.; Peter, M. A.; 2018. Dispersion Relations, Power Laws, and Energy Loss for Waves in the Marginal Ice Zone. Journal of Geophysical Research: Oceans, 123, 3322–3335. 10.1002/2018JC013776
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Model application

70
Squire, Vernon A.; 2018. A fresh look at how ocean waves and sea ice interact. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 376, 20170342. 10.1098/rsta.2017.0342
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Model application

57
Campos, Ricardo Martins; D’Agostini, Andressa; França, Bruna Reis Leite; Cruz, Leandro Machado; Soares, C. Guedes; 2021. Extreme Wind and Wave Predictability From Operational Forecasts at the Drake Passage. Journal of Offshore Mechanics and Arctic Engineering, 143, 021703. 10.1115/1.4048151
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Model application

3
Young, Ian; Babanin, Alexander; Rogers, W. Erick; 2020. Phase-Averaged Wave Models. In: (eds.)Ocean Wave Dynamics.. 163–204.
(View/edit entry)		2020

Model application

3
Mooneyham, Jonny; Crosby, Sean C.; Kumar, Nirnimesh; Hutchinson, Brian; 2020. SWRL Net: A Spectral, Residual Deep Learning Model for Improving Short-Term Wave Forecasts. Weather and Forecasting, 35, 2445–2460. 10.1175/WAF-D-19-0254.1
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Model application

4
Boutin, Guillaume; Williams, Timothy; Rampal, Pierre; Olason, Einar; Lique, Camille; 2020. Impact of wave-induced sea ice fragmentation on sea ice dynamics in the MIZ. .
(View/edit entry)		2020

Model application

2
Garcia Medina, Gabriel; Shaw, William; Yang, Zhaoqing; Newsom, Rob; 2020. Mid-Atlantic Bight Wave Hindcast To Support DOE Lidar Buoy Deployments: Model Validation. .
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Model application

1
Wang, Xuan; Husson, Romain; Jiang, Haoyu; Chen, Ge; Gao, Guoping; 2020. Evaluation on the Capability of Revealing Ocean Swells from Sentinel-1A Wave Spectra Measurements. Journal of Atmospheric and Oceanic Technology, 37, 1289–1304. 10.1175/JTECH-D-19-0060.1
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Model application

2
Shao, Weizeng; Hu, Yuyi; Nunziata, Ferdinando; Corcione, Valeria; Migliaccio, Maurizio; Li, Xiaoming; 2020. Cyclone Wind Retrieval Based on X-Band SAR-Derived Wave Parameter Estimation. Journal of Atmospheric and Oceanic Technology, 37, 1907–1924. 10.1175/JTECH-D-20-0014.1
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Model application

4
Rogers, W. Erick; Thomson, Jim; Shen, Hayley H.; Doble, Martin J.; Wadhams, Peter; Cheng, Sukun; 2016. Dissipation of wind waves by pancake and frazil ice in the autumn Beaufort Sea: WAVE DAMPING BY ICE IN THE BEAUFORT SEA. Journal of Geophysical Research: Oceans, 121, 7991–8007. 10.1002/2016JC012251
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Model application

96
Li, Jingkai; 2020. Modelled Stokes drift in the Marginal ice zones of the Arctic Ocean. .
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Model application

0
Liu, Qingxiang; Babanin, Alexander; Rogers, Erick; Zieger, Stefan; 2020. Forty years of global wave hindcasts using the observation-based source terms: validation and geophysical applications. .
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Model application

0
Nesterov, E.S.; 2020. Wind waves in the arctic seas (review). Hydrometeorological research and forecasting, 3, 19–41. 10.37162/2618-9631-2020-3-19-41
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Model application

0
Hageman, Remco; Aalberts, Pieter; L’Hostis, Didier; Ledoux, Alain; 2020. Feasibility of Using Hindcast Data for Fatigue Assessment of Permanently Moored Offshore Units in West-Africa. . Volume .
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Model application

0
Wrenger, Hendrik; Sainte-Rose, Bruno; Soares, Ivan; 2020. Waves in the Great Pacific Garbage Patch: Cross Validation of Three Measurement Techniques and Two WW3 Models. . Volume .
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Model application

1
Aguirre, Catalina; Becerra, Diego; Godoy, Marcelo; Silva, Diego; 2020. Interannual variability of ocean surface waves in the Southeast Pacific. .
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Model application

0
Liu, Li; Fan, Zheng; Yu, Hao; 2020. The Effects of Ocean Surface Waves on Global Forecast in CFS Modeling System v2.0. , , . 10.5281/ZENODO.4125726
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Model application

0
Kuznetsova, Alexandra; Poplavsky, Evgeny; Rusakov, Nikita; Troitskaya, Yuliya; 2020. Wind waves modeling in the polar law weather conditions. .
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Model application

0
Kuznetsova, Alexandra; Poplavsky, Evgeny; Rusakov, Nikita; Troitskaya, Yuliya; 2020. Wind waves modeling in the polar law weather conditions. .
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Model application

0
Liu, Li; Fan, Zheng; Yu, Hao; 2020. The Effects of Ocean Surface Waves on Global Forecast in CFS Modeling System v2.0. , , . 10.5281/ZENODO.4125726
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Model application

0
Moiseev, Artem; Johnsen, Harald; Johannessen, Johnny; 2020. Estimation of wave-induced contribution to Sentinel-1 Doppler shift observations. .
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Model application

0
Guo, Zhen; Xue, Mei; Aydin, Adnan; Ma, Zhitu; 2019. Exploring source regions of single- and double-frequency microseisms recorded in eastern North American margin (ENAM) by cross-correlation. Geophysical Journal International, , ggz470. 10.1093/gji/ggz470
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Model application

8
Shao, Weizeng; Ding, Yingying; Li, Jichao; Gou, Shuiping; Nunziata, Ferdinando; Yuan, Xinzhe; Zhao, Liangbo; 2019. Wave Retrieval Under Typhoon Conditions Using a Machine Learning Method Applied to Gaofen-3 SAR Imagery. Canadian Journal of Remote Sensing, 45, 723–732. 10.1080/07038992.2019.1683444
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Model application

11
Bell, Ray; Kirtman, Ben; 2019. Seasonal Forecasting of Wind and Waves in the North Atlantic Using a Grand Multimodel Ensemble. Weather and Forecasting, 34, 31–59. 10.1175/WAF-D-18-0099.1
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Model application

5
Zhang, Yuming; Song, Zhaoyang; Wu, Kejian; Shi, Yongfang; 2019. Influences of Random Surface Waves on the Estimates of Wind Energy Input to the Ekman Layer in the Antarctic Circumpolar Current Region. Journal of Geophysical Research: Oceans, 124, 3393–3410. 10.1029/2018JC014470
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Model application

2
Chávez-Cárdenas, Xavie; Delgadillo-Calzadilla, Miguel Ángel; Gutierrez-Villalobos, José M; Moralez-Garibay, María Cristina; 2019. Coastal flooding, areas and depths, on a sand beach in the Mexican Caribbean under storm conditions. ECORFAN Journal Republic of El Salvador, , 1–6. 10.35429/10.35429/EJRS.2019.8.5.1.6
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Model application

0
Mosquera, Irvin Alberto; Sagrilo, Luis Volnei Sudati; Videiro, Paulo Maurício; 2019. The Impact of Climate Change on the Long-Term Response of Offshore Structures: A Study Case. . Volume .
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Model application

0
Стригунова, Я. В.; Булгаков, К.Ю.; 2019. Чувствительность модели прогноза волн к параметризациям пограничного слоя атмосферы, &quot;Фундаментальная и прикладная гидрофизика&quot;. Фундаментальная и прикладная гидрофизика, , 3–13. 10.7868/S2073667319040014
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Model application

0
Campos, Ricardo Martins; D’Agostini, Andressa; Machado Cruz, Leandro; Reis Leite França, Bruna; Guedes Soares, C.; 2019. Extreme Wind and Wave Predictability From Operational Forecasts at the Drake Passage. . Volume .
(View/edit entry)		2019

Model application

3
Amores, Angel; Marcos, Marta; Pedreros, Rodrigo; Le Cozannet, Gonéri; Lecacheux, Sophie; Rohmer, Jérémy; Hinkel, Jochen; Gussmann, Geronimo; van der Pol, Thomas; Shareef, Ali; 2020. Waves and sea-level rise induced flooding in the Maldives. .
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Model application

0
Kayode, Olakunle; Koya, Olufemi A.; 2019. Wave Energy Potential Along the Gulf of Guinea Coast of Nigeria. Applied Engineering Letters : Journal of Engineering and Applied Sciences, 4, 128–135. 10.18485/aeletters.2019.4.4.4
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Model application

0
Bell, Ray; Kirtman, Ben; 2018. Seasonal forecasting of winds, waves and currents in the North Pacific. Journal of Operational Oceanography, 11, 11–26. 10.1080/1755876X.2018.1438342
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Model application

10
Dewangan, Pawan; Reddy, Ramakrushana; Kamesh Raju, K. A.; Singha, Pabitra; Aswini, K. K.; Yatheesh, V.; Samudrala, K.; Shuhail, M.; 2018. Nature of the Ambient Noise, Site Response, and Orientation of Ocean‐Bottom Seismometers (OBSs): Scientific Results of a Passive Seismic Experiment in the Andaman Sea. Bulletin of the Seismological Society of America, 108, 248–259. 10.1785/0120170163
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Model application

12
Lewis, Huw W.; Castillo Sanchez, Juan Manuel; Arnold, Alex; Fallmann, Joachim; Saulter, Andrew; Graham, Jennifer; Bush, Mike; Siddorn, John; Palmer, Tamzin; Lock, Adrian; Edwards, John; Bricheno, Lucy; Martínez de la Torre, Alberto; Clark, James; 2018. The UKC3 regional coupled environmental prediction system. .
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Model application

60
Nagababu, Garlapati; Patel, Ravi; Moideenkunju, Seemanth; Bhasuru, Abhinaya Srinivas; Kachhwaha, Surendra Singh; Surisetty, V. V. Arun Kumar; Aich Bhowmick, Suchandra; 2018. Estimation of Technical Wave Energy Potential in Exclusive Economic Zone of India. . Volume .
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Model application

1
Lopez, Hosmay; Kirtman, Ben P.; 2016. Investigating the seasonal predictability of significant wave height in the West Pacific and Indian Oceans. Geophysical Research Letters, 43, 3451–3458. 10.1002/2016GL068653
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Model application

11
Janjić, Jelena; Gallagher, Sarah; Gleeson, Emily; Dias, Frédéric; 2018. Wave Energy Extraction by the End of the Century: Impact of the North Atlantic Oscillation. . Volume .
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Model application

0
Moon, Il-Ju; Kim, Minyeong; Joh, Minsu; Ahn, Jooneun; Shim, Jae-Seol; Jung, Jinyoung; 2016. Recent record-breaking high ocean waves induced by typhoons in the seas adjacent to Korea. Journal of Coastal Research, 75, 1397–1401. 10.2112/SI75-280.1
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Model application

7
Kuznetsova, Alexandra; Baydakov, Georgy; Papko, Vladislav; Kandaurov, Alexander; Vdovin, Maxim; Sergeev, Daniil; Troitskaya, Yuliya; 2016. FIELD AND NUMERICAL STUDY OF THE WIND-WAVE REGIME ON THE GORKY RESERVOIR. GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY, 9, 19–37. 10.15356/2071-9388_02v09_2016_02
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Model application

3
Zheng, Peinan; Li, Xiaoting; Liu, Shouhua; 2016. Research on the Early Warning Demonstration System of Freak Wave. . Volume .
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Model application

0
Zhao, Yanling; Yang, Yuzhen; You, Xiaobao; Liu, Tianjun; 2012. Wind-Wave Characteristics in the Bohai Sea, the Yellow Sea and the East China Sea: A Numerical Study of Cold Wave Event. . Volume .
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Model application

2
Reichl, Brandon; 2015. Surface Wave Impacts on Air-Sea Momentum Flux and Upper Ocean Turbulence Under Tropical Cyclones. , , .
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Model application

0
Reichl, Brandon; 2015. Surface Wave Impacts on Air-Sea Momentum Flux and Upper Ocean Turbulence Under Tropical Cyclones. , , .
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Model application

0
Mao, Ke-feng; Chen, Xi; Li, Yan; Xiao, Zhong-le; 2009. Comparative Study on Different Schemes for Treatment with Multi-Islands and Complex Coastlines in Wave Numerical Computation. . Volume .
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Model application

0
Pipatprathanporn, Sirawich; Simons, Frederik J; 2021. One year of sound recorded by a mermaid float in the Pacific: hydroacoustic earthquake signals and infrasonic ambient noise. Geophysical Journal International, 228, 193–212. 10.1093/gji/ggab296
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Model application

3
Barbariol, Francesco; Behrens, Arno; Benetazzo, Alvise; Davison, Silvio; Gayer, Gerhard; Pezzutto, Paolo; Ricchi, Antonio; Staneva, Joanna; 2021. Mediterranean and Black seas maximum waves climatology. .
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Model application

1
Taji, Mohamed Amine; Hilali, Atika; Rhinane, Hassan; Mangin, Antoine; Bryère, Philippe; Orbi, Abdelatif; Mabchour, Hassan; Zourarah, Bendahhou; Benazzouz, Aïssa; 2022. GIS and Wave Modeling for Establishing a Potential Area of Aquaculture—Case Study: Central Atlantic Part of the Moroccan Coast. Fluids, 7, 67. 10.3390/fluids7020067
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Model application

0
Leach, Chloe; Hague, Ben S.; Kennedy, David M.; Carvalho, Rafael C.; Ierodiaconou, Daniel; 2021. Identifying oceanographic conditions conducive to coastal impacts on temperate open coastal beaches and the importance of empirical impact data. .
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Model application

4
Zou, Xiaochen; Babanin, Alexander; 2021. Passive acoustic determination of wave breaking dissipation rate across the spectrum. .
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Model application

0
Pleskachevsky, Andrey; Tings, Björn; Jacobsen, Sven; Schwarz, Egbert; Krause, Detmar; 2021. Multiparametric Sea State from Spaceborne Synthetic Aperture Radar for Near Real Time Services. .
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Model application

0
Unguendoli, Silvia; Valentini, Andrea; Germano Biolchi, Luis; Pranavam Ayyappan Pillai, Umesh; Jacopo, Alessandri; Nadia, Pinardi; 2021. Modelling Nature-based Solutions: an application to mitigate coastal erosion. .
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Model application

0
Coulibaly, Fatimatou; Vallette, Anne; Arias, Manuel; Galgani, François; Coudray, Sylvain; 2021. Modelling floating debris&amp;#8217; beaching and drift nearshore -a case in Corsica &amp; Sardinia, and the parametrization in the Litter TEP. .
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Model application

0
Davison, Silvio; Barbariol, Francesco; Benetazzo, Alvise; Cavaleri, Luigi; Mercogliano, Paola; 2021. A data fusion strategy for reanalysis and climate model winds&amp;#160;. .
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Model application

1
Kozyrakis, Georgios; Spanoudaki, Katerina; Varouchakis, Emmanouil; 2021. Spatio-temporal Modelling of Significant Wave Height and Wave Energy Potential Estimation in the Aegean and Ionian Sea. .
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Model application

0
Yasrab, Muhammad; Babanin, Alexander V.; 2021. Advancing the Performance of Wave Forecast Models Under Low Wind Conditions. . Volume .
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Model application

0
Shaw, William; Draher, Jennifer; Garcia Medina, Gabriel; Gorton, Alicia; Krishnamurthy, Raghavendra; Newsom, Rob; Pekour, Mikhail; Sheridan, Lindsay; Yang, Zhaoqing; 2020. General Analysis of Data Collected from DOE Lidar Buoy Deployments Off Virginia and New Jersey. .
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Model application

7
Park, Seongjun; Hong, Tae-Kyung; 2020. Typhoon-Induced Microseisms around the South China Sea. Seismological Research Letters, 91, 3454–3468. 10.1785/0220190310
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Model application

3
Benetazzo, Alvise; Barbariol, Francesco; Pezzutto, Paolo; Bertotti, Luciana; Cavaleri, Luigi; Davison, Silvio; Sclavo, Mauro; 2020. Towards a unified framework for maximum wave computation from numerical models: outcomes from the LATEMAR project.. .
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Model application

0
Yuk, Jin-Hee; Joh, Minsu; Huh, Taesang; 2020. Simulation of Storm Wave Run-up in the Busan Marine City, South Korea: A Case Study during Typhoon Chaba. Journal of Coastal Research, 95, 1377. 10.2112/SI95-265.1
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Model application

0
Davison, Silvio; Barbariol, Francesco; Benetazzo, Alvise; Cavaleri, Luigi; Mercogliano, Paola; 2020. A Strategy for Scaling ERA5 Sea Winds Using Climate Model Data. .
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Model application

0
Mir Calafat, Francisco; Banks, Chris; Snaith, Helen; Gommenginger, Christine; Shaw, Andrew; Cipollini, Paolo; Dayoub, Nadim; Bouffard, Jérôme; Meloni, Marco; 2020. Evaluation and scientific exploitation of CryoSat ocean products for oceanographic studies. .
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Model application

0
Wang, Taiping; Yang, Zhaoqing; Ticona Rollano, Fadia Marion; Wu, Wei-Cheng; García-Medina, Gabriel; 2020. A High-Resolution Regional Wave Resource Characterization for the U.S. West Coast. . Volume .
(View/edit entry)		2020

Model application

0
Qiao, Chi; Myers, Andrew T.; Arwade, Sanjay R.; 2020. Validation and uncertainty quantification of metocean models for assessing hurricane risk. Wind Energy, 23, 220–234. 10.1002/we.2424
(View/edit entry)		2020

Model application

5
Penna, Nigel T.; Morales Maqueda, Miguel A.; Martin, Ian; Guo, Jing; Foden, Peter R.; 2018. Sea Surface Height Measurement Using a GNSS Wave Glider. Geophysical Research Letters, 45, 5609–5616. 10.1029/2018GL077950
(View/edit entry)		2018

Model application

23
Campos, Ricardo M.; Guedes Soares, C.; 2016. Comparison and assessment of three wave hindcasts in the North Atlantic Ocean. Journal of Operational Oceanography, 9, 26–44. 10.1080/1755876X.2016.1200249
(View/edit entry)		2016

Model application

56
Haghshenas, S. Abbas; Ghader, Sarmad; Yazgi, Daniel; Delkhosh, Edris; Birgani, Nabiallah Rashedi; Arab, Azadeh Razavi; Hajisalimi, Zohreh; Nemati, Mohammad Hossein; Soltanpour, Mohsen; Attari, Morteza Jedari; 2018. Iranian Seas Waters Forecast - Part I: An Improved Model for The Persian Gulf. Journal of Coastal Research, 85, 1216–1220. 10.2112/SI85-244.1
(View/edit entry)		2018

Model application

4
Lee, Jae Hyuk; Kim, Tae Rim; 2018. Study of High Waves caused by Slanting-fetch Effects along the Coast. Journal of Coastal Research, 85, 831–835. 10.2112/SI85-167.1
(View/edit entry)		2018

Model application

0
Heo, Ki-Young; Ha, Taemin; 2016. Producing the Hindcast of Wind and Waves Using a High-Resolution Atmospheric Reanalysis around Korea. Journal of Coastal Research, 75, 1107–1111. 10.2112/SI75-222.1
(View/edit entry)		2016

Model application

6
Quilfen, Y.; Chapron, B.; Collard, F.; Serre, M.; 2004. Calibration/Validation of an Altimeter Wave Period Model and Application to TOPEX/Poseidon and Jason-1 Altimeters. Marine Geodesy, 27, 535–549. 10.1080/01490410490902025
(View/edit entry)		2004

Model application

59
Blair, Austen; 2016. Evaluation of Updated MPIPOM-TC Ocean Model Initializing and Sea-State Dependent Mixing Scheme. , , .
(View/edit entry)		2016

Model application

0
Dugor, Jérémy; Rihouey, Didier; Ardhuin, Fabrice; 2010. Développement d'un modèle opérationnel de prévision de houle à petite échelle sur le littoral transfrontalier des Pyrénées Atlantiques - Gipuzkoa. . Volume .
(View/edit entry)		2010

Model application

3
Oh, Y.; Oh, S.M.; Chang, P.-H.; Kang, K.; Moon, I.-J.; 2021. Sensitivity Analysis of Wind-Wave Growth Parameter during Typhoon Season in Summer for Developing an Integrated Global/Regional/Coastal Wave Prediction System. Ocean and Polar Research, 43, 179–192. 10.4217/OPR.2021.43.3.179
(View/edit entry)		2021

Model application

0
Shintani, T.; Umeyama, M.; Onoda, Y.; 2005. Verification of applicability of 3rd generation wave estimation model WAVEWATCH III. Proceedings of coastal engineering, JSCE, 52, 161-165. 10.2208/proce1989.52.161
(View/edit entry)		2005

Model application

0
Shao, Weizeng; Jiang, Tao; Zhang, Yu; Shi, Jian; Wang, Weili; 2021. Cyclonic Wave Simulations Based on WAVEWATCH-III Using a Sea Surface Drag Coefficient Derived from CFOSAT SWIM Data. Atmosphere, 12, 1610. 10.3390/atmos12121610
(View/edit entry)		2021

Model application

0
Foli, Bennet Atsu Kwame; Ansong, Joseph K.; Addo, Kwasi Appeaning; Wiafe, George; 2022. A WAVEWATCH III® Model Approach to Investigating Ocean Wave Source Terms for West Africa: Input-Dissipation Source Terms. Remote Sensing in Earth Systems Sciences, 5, 95–117. 10.1007/s41976-021-00065-y
(View/edit entry)		2022

Model application

2
Rahimian, Mohsen; Beyramzadeh, Mostafa; Siadatmousavi, Seyed Mostafa; 2022. The Skill Assessment of Weather and Research Forecasting and WAVEWATCH-III Models During Recent Meteotsunami Event in the Persian Gulf. Frontiers in Marine Science, 9, 834151. 10.3389/fmars.2022.834151
(View/edit entry)		2022

Model application

1
Soran, Mehmet Burak; Amarouche, Khalid; Akpınar, Adem; 2022. Spatial calibration of WAVEWATCH III model against satellite observations using different input and dissipation parameterizations in the Black Sea. Ocean Engineering, 257, 111627. 10.1016/j.oceaneng.2022.111627
(View/edit entry)		2022

Model application

3
Putri, Annisa Agustina Kurnia; Diansyah, Gusti; Putri, Wike Ayu Eka; 2022. Analisis Tinggi Gelombang Signifikan Berdasarkan Model Wavewatch-III di Pantai Alau-Alau, Kalianda, Lampung Selatan. Buletin Oseanografi Marina, 11, 123–130. 10.14710/buloma.v11i2.39567
(View/edit entry)		2022

Model application

0
Yang, Hongbin; Shao, Zhuxiao; Liang, Bingchen; Wang, Zhenlu; Lee, Dongyoung; 2022. Performance of different input and dissipation packages in WAVEWATCH III model during tropical cyclones. Physics of Fluids, 34, 107102. 10.1063/5.0120059
(View/edit entry)		2022

Model application

0
Zheng, Zhenjun; Ma, Xiaozhou; Huang, Xuezhi; Ma, Yuxiang; Dong, Guohai; 2022. Wave forecasting within a port using WAVEWATCH III and artificial neural networks. Ocean Engineering, 255, 111475. 10.1016/j.oceaneng.2022.111475
(View/edit entry)		2022

Model application

1
Rivillas-Ospina, German; Casas, Diego; Maza-Chamorro, Mauro Antonio; Bolívar, Marianella; Ruiz, Gabriel; Guerrero, Roberto; Horrillo-Caraballo, José M.; Guerrero, Milton; Díaz, Karina; Rio, Roberto del; Campos, Erick; 2022. APPMAR 1.0: A Python application for downloading and analyzing of WAVEWATCH III® wave and wind data. Computers &amp; Geosciences, 162, 105098. 10.1016/j.cageo.2022.105098
(View/edit entry)		2022

Model application

0
Beyramzadeh, Mostafa; Siadatmousavi, Seyed Mostafa; 2022. Skill assessment of different quadruplet wave-wave interaction formulations in the WAVEWATCH-III model with application to the Gulf of Mexico. Applied Ocean Research, 127, 103316. 10.1016/j.apor.2022.103316
(View/edit entry)		2022

Model application

0
Foli, Bennet Atsu Kwame; Ansong, Joseph K.; Appeaning Addo, Kwasi; Wiafe, George; 2022. A WAVEWATCH III® model approach to investigating ocean wave source terms for West Africa: Non-linear wave-wave interaction source terms. Applied Ocean Research, 127, 103289. 10.1016/j.apor.2022.103289
(View/edit entry)		2022

Model application

0
Li, Jian-Guo; 2022. Hybrid multi-grid parallelisation of WAVEWATCH III model on spherical multiple-cell grids. Journal of Parallel and Distributed Computing, 167, 187–198. 10.1016/j.jpdc.2022.05.002
(View/edit entry)		2022

Model application

0
Perrie, Will; Meylan, Michael H.; Toulany, Bechara; Casey, Michael P.; 2022. Modelling wave–ice interactions in three dimensions in the marginal ice zone. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 380, 20210263. 10.1098/rsta.2021.0263
(View/edit entry)		2022

Model application

9
Lonin, Serguei; Rios-Angulo, Wilson A.; Coronado, Jairo; 2022. Swell Conditions at Potential Sites for the Colombian Antarctic Research Station. Sustainability, 14, 2318. 10.3390/su14042318
(View/edit entry)		2022

Model application

1
Haces-Fernandez, Francisco; Li, Hua; Ramirez, David; 2022. Analysis of Wave Energy Behavior and Its Underlying Reasons in the Gulf of Mexico Based on Computer Animation and Energy Events Concept. Sustainability, 14, 4687. 10.3390/su14084687
(View/edit entry)		2022

Model application

1
Wang, He; Mouche, Alexis; Husson, Romain; Chapron, Bertrand; Yang, Jingsong; Liu, Jianqiang; Ren, Lin; 2022. Quantifying Uncertainties in the Partitioned Swell Heights Observed From CFOSAT SWIM and Sentinel-1 SAR via Triple Collocation. IEEE Transactions on Geoscience and Remote Sensing, 60, 1–16. 10.1109/TGRS.2022.3179511
(View/edit entry)		2022

Model application

1
Rogers, W. Erick; Meylan, Michael; Kohout, Alison; 2020. Estimates of spectral wave attenuation in Antarctic sea ice, using model/data inversion. None.
(View/edit entry)		2020

Model application

16
Bakhtyar, R.; Maitaria, K.; Velissariou, P.; Trimble, B.; Mashriqui, H.; Moghimi, S.; Abdolali, A.; Van der Westhuysen, A. J.; Ma, Z.; Clark, E. P.; Flowers, T.; 2020. A New 1D/2D Coupled Modeling Approach for a Riverine‐Estuarine System Under Storm Events: Application to Delaware River Basin. Journal of Geophysical Research: Oceans, 125, None. 10.1029/2019JC015822
(View/edit entry)		2020

Model application

17
Sharmar, Vitali; Markina, Margarita; 2021. Evaluation of interdecadal trends in sea ice, surface winds and ocean waves in the Arctic in 1980--2019. Russian Journal of Earth Sciences, 21, 1–11. 10.2205/2020ES000741
(View/edit entry)		2021

Model application

1
Saragih, Immanuel Jhonson Arizona; Dafitra, Ikhsan; 2021. Analisis Dinamika Permukaan Laut Saat Kejadian Banjir Pesisir di Padang Tanggal 3 Desember 2017. Buletin GAW Bariri, 2, 7–15. 10.31172/bgb.v2i1.33
(View/edit entry)		2021

Model application

1
Kim, Hyun-Sook; Meixner, Jessica; Thomas, Biju; G. Reichl, Brandon; Liu, Bin; Mehra, Avichal; Wallcraft, Alan; 2022. Skill Assessment of NCEP Three-Way Coupled HWRF–HYCOM–WW3 Modeling System: Hurricane Laura Case Study. Weather and Forecasting, 37, 1309–1331. 10.1175/WAF-D-21-0191.1
(View/edit entry)		2022

Model application

0
Matos, Maria De Fátima Alves de; Scudelari, Ada Cristina; Amaro, Venerando Eustáquio; 2022. Variabilidade Interanual do Potencial Energético das Ondas Oceânicas na Costa Setentrional do Rio Grande do Norte, Atlântico Equatorial Sul. Anuário do Instituto de Geociências, 45, None. 10.11137/1982-3908_2022_45_46460
(View/edit entry)		2022

Model application

0
Paladio-Hernandez, Alejandro; Salles, Paulo; Arriaga, Jaime; López-González, José; 2022. Characterization of the Morphological Behavior of a Sand Spit Using UAVs. Journal of Marine Science and Engineering, 10, 600. 10.3390/jmse10050600
(View/edit entry)		2022

Model application

0
Alsaaq, Faisal; V.R., Shamji; 2022. Extreme Wind Wave Climate off Jeddah Coast, the Red Sea. Journal of Marine Science and Engineering, 10, 748. 10.3390/jmse10060748
(View/edit entry)		2022

Model application

0
Marechal, Gwendal; de Marez, Charly; 2022. Variability of surface gravity wave field over a realistic cyclonic eddy. Ocean Science, 18, 1275–1292. 10.5194/os-18-1275-2022
(View/edit entry)		2022

Model application

0
Cabral, Isabela S.; Young, Ian R.; Toffoli, Alessandro; 2022. Long-Term and Seasonal Variability of Wind and Wave Extremes in the Arctic Ocean. Frontiers in Marine Science, 9, 802022. 10.3389/fmars.2022.802022
(View/edit entry)		2022

Model application

0
Gaudet, B.J.; García-Medina, G.; Krishnamurthy, R.; Shaw, W.J.; Sheridan, L.M.; Yang, Z.; Newsom, R.K.; Pekour, M.; 2022. Evaluation of coupled wind / wave model simulations of offshore winds in the Mid-Atlantic Bight using lidar-equipped buoys.. Monthly Weather Review, None, None. 10.1175/MWR-D-21-0166.1
(View/edit entry)		2022

Model application

0
Barbariol, Francesco; Pezzutto, Paolo; Davison, Silvio; Bertotti, Luciana; Cavaleri, Luigi; Papa, Alvise; Favaro, Marco; Sambo, Enrico; Benetazzo, Alvise; 2022. Wind-wave forecasting in enclosed basins using statistically downscaled global wind forcing. Frontiers in Marine Science, 9, 1002786. 10.3389/fmars.2022.1002786
(View/edit entry)		2022

Model application

0
Liu, Jin; Meucci, Alberto; Young, Ian R.; 2022. Projected wave climate of Bass Strait and south-east Australia by the end of the twenty-first century. Climate Dynamics, None, None. 10.1007/s00382-022-06310-4
(View/edit entry)		2022

Model application

0
Sreejith, Meenakshi; P. G., Remya; Kumar, B. Praveen; Raj, Abhijith; Nair, T. M. Balakrishnan; 2022. Exploring the impact of southern ocean sea ice on the Indian Ocean swells. Scientific Reports, 12, 12360. 10.1038/s41598-022-16634-0
(View/edit entry)		2022

Model application

0
Castillo, Juan Manuel; Lewis, Huw W.; Mishra, Akhilesh; Mitra, Ashis; Polton, Jeff; Brereton, Ashley; Saulter, Andrew; Arnold, Alex; Berthou, Segolene; Clark, Douglas; Crook, Julia; Das, Ananda; Edwards, John; Feng, Xiangbo; Gupta, Ankur; Joseph, Sudheer; Klingaman, Nicholas; Momin, Imranali; Pequignet, Christine; Sanchez, Claudio; Saxby, Jennifer; Valdivieso da Costa, Maria; 2022. The Regional Coupled Suite (RCS-IND1): application of a flexible regional coupled modelling framework to the Indian region at kilometre scale. Geoscientific Model Development, 15, 4193–4223. 10.5194/gmd-15-4193-2022
(View/edit entry)		2022

Model application

0
Abdolali, Ali; Hesser, Tyler J.; Anderson Bryant, Mary; Roland, Aron; Khalid, Arslaan; Smith, Jane; Ferreira, Celso; Mehra, Avichal; Sikiric, Mathieu Dutour; 2022. Wave Attenuation by Vegetation: Model Implementation and Validation Study. Frontiers in Built Environment, 8, 891612. 10.3389/fbuil.2022.891612
(View/edit entry)		2022

Model application

0
Diaz-Maya, Miqueas; Ulloa, Marco; Silva, Rodolfo; 2022. Assessing wave energy converters in the gulf of Mexico using a multi-criteria approach. Frontiers in Energy Research, 10, 929625. 10.3389/fenrg.2022.929625
(View/edit entry)		2022

Model application

0
Becerra, Diego; Quezada, Matías; Díaz, Humberto; 2022. A deep water and nearshore wave height calibration of the ECOWAVES hindcasting database. Latin American Journal of Aquatic Research, 50, 573–595. 10.3856/vol50-issue4-fulltext-2811
(View/edit entry)		2022

Model application

0
Hu, Yuyi; Shao, Weizeng; Li, Jun; Zhang, Chunling; Cheng, Lingqiao; Ji, Qiyan; 2022. Short-Term Variations in Water Temperature of the Antarctic Surface Layer. Journal of Marine Science and Engineering, 10, 287. 10.3390/jmse10020287
(View/edit entry)		2022

Model application

0
Romero, Leonel; Lubana, Kabir; 2022. On the Bimodality of the Wind-Wave Spectrum: Mean Square Slopes and Azimuthal Overlap Integral. Journal of Physical Oceanography, 52, 1549–1562. 10.1175/JPO-D-21-0299.1
(View/edit entry)		2022

Model application

0
Zhou, Xiaohui; Hara, Tetsu; Ginis, Isaac; D’Asaro, Eric; Hsu, Je-Yuan; Reichl, Brandon G.; 2022. Drag Coefficient and Its Sea State Dependence under Tropical Cyclones. Journal of Physical Oceanography, 52, 1447–1470. 10.1175/JPO-D-21-0246.1
(View/edit entry)		2022

Model application

0
Panfilova, M.A.; Kuznetsova, A. M.; Titchenko, Yu. A.; Sergeev, D. A.; Troitskaya, Yu. I.; Karaev, V. Yu.; 2021. Methods of Comparing the Wave Model Simulation Data with the KA-BAND Radar Data. None. Volume None.
(View/edit entry)		2021

Model application

0
Aguilera-Méndez, José María; Juárez-Toledo, Carlos; Martínez-Carrillo, Irma; Vera-Popoca, Roberto Ismael; 2021. Generation of unstructured meshes using Delaunay triangles for tidal analysis of the port of Acapulco, Mexico. Revista de Simulación y Laboratorio, None, 20–27. 10.35429/JSL.2021.24.8.20.27
(View/edit entry)		2021

Model application

0
Sharmar, V; Markina, M; 2020. Validation of global wind wave hindcasts using ERA5, MERRA2, ERA-Interim and CFSRv2 reanalyzes. IOP Conference Series: Earth and Environmental Science, 606, 012056. 10.1088/1755-1315/606/1/012056
(View/edit entry)		2020

Model application

7
Jiang, Haoyu; 2020. Wave Climate Patterns from Spatial Tracking of Global Long-Term Ocean Wave Spectra. Journal of Climate, 33, 3381–3393. 10.1175/JCLI-D-19-0729.1
(View/edit entry)		2020

Model application

4
Zhai, Fangguo; Wu, Wenfan; Gu, Yanzhen; Li, Peiliang; Liu, Zizhou; 2021. Dynamics of the seasonal wave height variability in the South China Sea. International Journal of Climatology, 41, 934–951. 10.1002/joc.6707
(View/edit entry)		2021

Model application

3
Anoop, Thondithala R.; Shanas, Puthuveetil R.; Aboobacker, Valliyil M.; Kumar, V. Sanil; Nair, Leela Sheela; Prasad, Ravindran; Reji, Srinivas; 2020. On the generation and propagation of Makran swells in the Arabian Sea. International Journal of Climatology, 40, 585–593. 10.1002/joc.6192
(View/edit entry)		2020

Model application

18
Nguyen Trung, Thanh; 2020. A Case Study of Wave Forecast Over South China Sea Using SWAN Model and Ensemble Kalman Filter Method. Oceanography &amp; Fisheries Open access Journal, 12, None. 10.19080/OFOAJ.2020.12.555842
(View/edit entry)		2020

Model application

1
Ardiansyah, I; Ningsih, N S; Rachmayani, R; 2020. Wave Characteristics in Natuna Waters during Typhoon Hagibis Event. IOP Conference Series: Earth and Environmental Science, 618, 012001. 10.1088/1755-1315/618/1/012001
(View/edit entry)		2020

Model application

1
Jabbar, Ismail Abdul; Ningsih, Nining Sari; 2020. Extreme Wave Height Analysis in Natuna Sea Using Peak-Over Threshold Method. IOP Conference Series: Earth and Environmental Science, 618, 012024. 10.1088/1755-1315/618/1/012024
(View/edit entry)		2020

Model application

1
Tuomi, Laura; Kotilainen, Aarno; Kanarik, Hedi; Virtasalo, Joonas; Vähä-Piikkiö, Olga; Pettersson, Heidi; 2020. Estimating wave-induced bottom shear stresses in the Gulf of Bothnia. None.
(View/edit entry)		2020

Model application

0
Mokhov, I I; Pogarskiy, F A; 2020. Changes of sea waves characteristics in the Arctic basin from model ensemble simulations for the 21st century. IOP Conference Series: Earth and Environmental Science, 606, 012038. 10.1088/1755-1315/606/1/012038
(View/edit entry)		2020

Model application

0
Sauvage, César; Lebeaupin Brossier, Cindy; Bouin, Marie-Noëlle; Ducrocq, Véronique; 2019. Characterization of the air-sea exchanges mechanisms during a Mediterranean heavy precipitation event using realistic sea state modelling. None.
(View/edit entry)		2019

Model application

12
Triasdian, B; Indartono, Y S; Ningsih, N S; Novitasari, D; 2019. Device Selection of the Potential Wave Energy Site in Indonesian Seas. IOP Conference Series: Earth and Environmental Science, 291, 012040. 10.1088/1755-1315/291/1/012040
(View/edit entry)		2019

Model application

1
Hidayat, Anistia M.; Putri, Ayuna S.; Musyaffa, Faqih; Fadlan, Ahmad; 2019. Mapping Atmospheric: Ocean Parameter Risk Index based on Meteorological Review to Support the Operational Work of Sea Toll Road Program:. None. Volume None.
(View/edit entry)		2019

Model application

0
Kawaguchi, Koji; Fujiki, Takashi; Suehiro, Fumikazu; Suzuyama, Katsuyuki; Manawasekara, Chathura; 2018. ESTIMATION CHARACTERISTICS OF THREE THIRD GENERATION WAVE HINDCASTING MODELS FOR TYPHOON LAN. Journal of Japan Society of Civil Engineers, Ser. B3 (Ocean Engineering), 74, I_611–I_616. 10.2208/jscejoe.74.I_611
(View/edit entry)		2018

Model application

0
Galabov, Vasko; 2012. TOWARDS�A�SYSTEM�FOR�SEA�STATE�FORECASTS�IN�THE�BULGARIAN�COASTAL�ZONE:�THE�CASE�OF�THE�STORM�OF�07-08�FEBRUARY�2012. None. Volume None.
(View/edit entry)		2012

Model application

8
Xu, Fumin; Xiao, Xue; Perrie, William; 2015. High-Precision Simulation Study of Hurricane Juan-Generated Waves in Coastal Shallow Water. International Journal of Offshore and Polar Engineering, 25, 178–184. 10.17736/ijope.2015.ak05
(View/edit entry)		2015

Model application

0
Cui, Hong; He, Hai-Lun; Liu, Xiao-Hui; Li, Yi; 2012. Effect of oceanic current on typhoon-wave modeling in the East China Sea. Chinese Physics B, 21, 109201. 10.1088/1674-1056/21/10/109201
(View/edit entry)		2012

Model application

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Polnikov, V. G.; 2010. Numerical Modelling of Wind-Waves -Problems and Results. The International Journal of Ocean and Climate Systems, 1, 113–121. 10.1260/1759-3131.1.3-4.113
(View/edit entry)		2010

Model application

0
Michel, Marceau; Obakrim, Said; Raillard, Nicolas; Ailliot, Pierre; Monbet, Valérie; 2022. Deep learning for statistical downscaling of sea states. Advances in Statistical Climatology, Meteorology and Oceanography, 8, 83–95. 10.5194/ascmo-8-83-2022
(View/edit entry)		2022

Model application

1
Day, Carter; Dietrich, J.C.; 2022. Improved wave predictions with ST6 Physics and ADCIRC+SWAN. Shore &amp; Beach, None, 59–61. 10.34237/1009016
(View/edit entry)		2022

Model application

1
Zou, Xiaochen; Babanin, Alexander V.; Schulz, Eric Werner; Manasseh, Richard; Guan, Changlong; 2022. Passive acoustic determination of spectral wave breaking dissipation. Journal of Physical Oceanography, None, None. 10.1175/JPO-D-21-0307.1
(View/edit entry)		2022

Model application

0
Sun, Zhanfeng; Shao, Weizeng; Jiang, Xingwei; Nunziata, Ferdinando; Wang, Weili; Shen, Wei; Migliaccio, Maurizio; 2022. Contribution of breaking wave on the co-polarized backscattering measured by the Chinese Gaofen-3 SAR. International Journal of Remote Sensing, 43, 1384–1408. 10.1080/01431161.2021.2009150
(View/edit entry)		2022

Model application

0
Nishida, Kiwamu; Takagi, Ryota; 2022. A Global Centroid Single Force Catalog of P‐Wave Microseisms. Journal of Geophysical Research: Solid Earth, 127, None. 10.1029/2021JB023484
(View/edit entry)		2022

Model application

0
Guo, Zhen; 2022. Locating the Source Regions of the Single and Double-Frequency Microseisms to Investigate the Source Effects on HVSR in Site Effect Analysis. Journal of Earth Science, None, None. 10.1007/s12583-021-1501-4
(View/edit entry)		2022

Model application

0
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Nr. of publications: 791
Total citations: 15275
h-index: 60
m-quotient: 1.71

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