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Ocean waves --- -Breakers --- Sea waves --- Surf --- Swell --- Oceanography --- Water waves --- Simulation methods --- Sea Wave Modeling Project --- SWAMP --- S.W.A.M.P. --- -Simulation methods --- Breakers --- Sea Wave Modeling Project. --- Hydraulic models. --- Ocean waves. --- Wave forecasting
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Concerns relating to energy supply and climate change have driven renewable energy targets around the world. Marine renewable energy could make a significant contribution to reducing greenhouse gas emissions and mitigating the consequences of climate change, while providing a high-technology industry. The conversion of wave and tidal energy into electricity has many advantages. Individual tidal and wave energy devices have been installed and proven, with commercial arrays planned throughout the world. The wave and tidal energy industry has developed rapidly in the past few years; therefore, it seems timely to review current research and map future challenges. Methods to improve understanding of the resource and interactions (between energy extraction, the resource and the environment) are considered, such as resource characterisation (including electricity output), design considerations (e.g., extreme and fatigue loadings) and environmental impacts, at all timescales (ranging from turbulence to decadal) and all spatial scales (from device and array scales to shelf sea scales).
Research & information: general --- tide-surge-wave model --- Taiwanese waters --- sea-state hindcast --- wave power --- wave energy --- unstructured grid model --- resource characterization --- WaveWatch III --- SWAN --- tidal energy --- experimental testing --- acoustic Doppler profiler --- Strangford Lough --- dc-dc bidirectional converter --- finite control set-model predictive control (FCS-MPC) --- oscillating water column (OWC) --- supercapacitor energy storage (SCES) --- wave climate variability --- wavelet analysis --- teleconnection patterns --- marine renewable energy --- ocean energy --- environmental effects --- wave modeling --- wave propagation --- numerical modeling --- sediment dynamics --- risk assessment --- marine current energy --- spiral involute blade --- hydrodynamic analysis --- numerical simulation --- wave energy trends --- reanalysis wave data --- Chilean coast --- renewable energy --- wave energy converters --- annual mean power production --- wave energy converter --- transmission coefficient --- absorption --- surfing amenity --- resource --- impact assessment --- feasibility study --- floating offshore wave farm --- WEC --- IRR --- LCOE --- marine energy --- unmanned ocean device --- multi-type floating bodies --- nonlinear Froude-Krylov force --- energy efficiency
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Concerns relating to energy supply and climate change have driven renewable energy targets around the world. Marine renewable energy could make a significant contribution to reducing greenhouse gas emissions and mitigating the consequences of climate change, while providing a high-technology industry. The conversion of wave and tidal energy into electricity has many advantages. Individual tidal and wave energy devices have been installed and proven, with commercial arrays planned throughout the world. The wave and tidal energy industry has developed rapidly in the past few years; therefore, it seems timely to review current research and map future challenges. Methods to improve understanding of the resource and interactions (between energy extraction, the resource and the environment) are considered, such as resource characterisation (including electricity output), design considerations (e.g., extreme and fatigue loadings) and environmental impacts, at all timescales (ranging from turbulence to decadal) and all spatial scales (from device and array scales to shelf sea scales).
tide-surge-wave model --- Taiwanese waters --- sea-state hindcast --- wave power --- wave energy --- unstructured grid model --- resource characterization --- WaveWatch III --- SWAN --- tidal energy --- experimental testing --- acoustic Doppler profiler --- Strangford Lough --- dc-dc bidirectional converter --- finite control set-model predictive control (FCS-MPC) --- oscillating water column (OWC) --- supercapacitor energy storage (SCES) --- wave climate variability --- wavelet analysis --- teleconnection patterns --- marine renewable energy --- ocean energy --- environmental effects --- wave modeling --- wave propagation --- numerical modeling --- sediment dynamics --- risk assessment --- marine current energy --- spiral involute blade --- hydrodynamic analysis --- numerical simulation --- wave energy trends --- reanalysis wave data --- Chilean coast --- renewable energy --- wave energy converters --- annual mean power production --- wave energy converter --- transmission coefficient --- absorption --- surfing amenity --- resource --- impact assessment --- feasibility study --- floating offshore wave farm --- WEC --- IRR --- LCOE --- marine energy --- unmanned ocean device --- multi-type floating bodies --- nonlinear Froude-Krylov force --- energy efficiency
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Concerns relating to energy supply and climate change have driven renewable energy targets around the world. Marine renewable energy could make a significant contribution to reducing greenhouse gas emissions and mitigating the consequences of climate change, while providing a high-technology industry. The conversion of wave and tidal energy into electricity has many advantages. Individual tidal and wave energy devices have been installed and proven, with commercial arrays planned throughout the world. The wave and tidal energy industry has developed rapidly in the past few years; therefore, it seems timely to review current research and map future challenges. Methods to improve understanding of the resource and interactions (between energy extraction, the resource and the environment) are considered, such as resource characterisation (including electricity output), design considerations (e.g., extreme and fatigue loadings) and environmental impacts, at all timescales (ranging from turbulence to decadal) and all spatial scales (from device and array scales to shelf sea scales).
Research & information: general --- tide-surge-wave model --- Taiwanese waters --- sea-state hindcast --- wave power --- wave energy --- unstructured grid model --- resource characterization --- WaveWatch III --- SWAN --- tidal energy --- experimental testing --- acoustic Doppler profiler --- Strangford Lough --- dc-dc bidirectional converter --- finite control set-model predictive control (FCS-MPC) --- oscillating water column (OWC) --- supercapacitor energy storage (SCES) --- wave climate variability --- wavelet analysis --- teleconnection patterns --- marine renewable energy --- ocean energy --- environmental effects --- wave modeling --- wave propagation --- numerical modeling --- sediment dynamics --- risk assessment --- marine current energy --- spiral involute blade --- hydrodynamic analysis --- numerical simulation --- wave energy trends --- reanalysis wave data --- Chilean coast --- renewable energy --- wave energy converters --- annual mean power production --- wave energy converter --- transmission coefficient --- absorption --- surfing amenity --- resource --- impact assessment --- feasibility study --- floating offshore wave farm --- WEC --- IRR --- LCOE --- marine energy --- unmanned ocean device --- multi-type floating bodies --- nonlinear Froude-Krylov force --- energy efficiency --- tide-surge-wave model --- Taiwanese waters --- sea-state hindcast --- wave power --- wave energy --- unstructured grid model --- resource characterization --- WaveWatch III --- SWAN --- tidal energy --- experimental testing --- acoustic Doppler profiler --- Strangford Lough --- dc-dc bidirectional converter --- finite control set-model predictive control (FCS-MPC) --- oscillating water column (OWC) --- supercapacitor energy storage (SCES) --- wave climate variability --- wavelet analysis --- teleconnection patterns --- marine renewable energy --- ocean energy --- environmental effects --- wave modeling --- wave propagation --- numerical modeling --- sediment dynamics --- risk assessment --- marine current energy --- spiral involute blade --- hydrodynamic analysis --- numerical simulation --- wave energy trends --- reanalysis wave data --- Chilean coast --- renewable energy --- wave energy converters --- annual mean power production --- wave energy converter --- transmission coefficient --- absorption --- surfing amenity --- resource --- impact assessment --- feasibility study --- floating offshore wave farm --- WEC --- IRR --- LCOE --- marine energy --- unmanned ocean device --- multi-type floating bodies --- nonlinear Froude-Krylov force --- energy efficiency
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This book presents 16 selected papers from the 7th International Conference on The Application of Physical Modelling in Coastal and Port Engineering and Science, Coastlab18. The conference was organized in Santander, Spain, from 22 to 26 May, 2018, by the Instituto de Hidráulica Ambiental de la Universidad de Cantabria, IHCantabria. Coastlab18 welcomed 175 attendees from 18 different countries. The technical program included three renowned keynote lectures and 120 presentations focused on theoretical and practical aspects related to physical modelling in the field of coastal and ocean engineering. Coastal and ocean structures, breakwaters, revetments, laboratory technologies, measurement systems, coastal field measurement and monitoring, combined physical and numerical modelling, physical modelling case studies, tsunamis, and coastal hydrodynamics were the main topics covered in the conference. This book attempts to cover, as completely as possible, all the topics presented during the conference. The papers were accepted after a peer-review process based on their full text.
History of engineering & technology --- hydraulic stability --- breaking wave conditions --- low-crested structures --- mound breakwaters --- armor layer --- overtopping --- dikes --- sea defenses --- bimodal seas --- swell --- oblique waves --- crossing seas --- wave basin --- mound breakwater --- armor stability --- Cubipod® --- breaking waves --- non-overtopping --- horizontal foreshore --- regular waves --- Stepped revetment --- wave impact --- physical model test --- rock slopes --- damage characterization --- damage parameters --- physical model tests --- linear waves --- nonlinear waves --- wavemaker theory --- wavemaker applicability --- outdoor wave basin --- long-term development --- vegetation development --- ecosystem services --- nature-based --- vertical barrier --- semi-submerged --- wind waves --- experiments --- laboratory --- operational system --- wave forecast --- wave modelling --- Mediterranean Sea --- monitoring program --- beach management --- bichromatic waves --- reflection separation --- bound waves --- stability --- erosion --- sea level rise --- repetition tests --- berm --- wave flume --- length effect --- aquaculture --- drag --- inertia --- Abbott-Firestone Curve --- laboratory tests --- physical model experiments --- scouring --- shingle foreshore --- sloping wall --- combined field experiment and numerical modeling --- overwash --- wave run-up --- infragravity waves --- XBeach --- coastal flooding --- dune erosion --- landslide waves --- tsunamis --- laboratory experiments --- momentum balance --- numerical wave modeling --- vertical cylinder --- DNS model --- pressure gradient --- wave force --- scour and shear stress --- hydraulic stability --- breaking wave conditions --- low-crested structures --- mound breakwaters --- armor layer --- overtopping --- dikes --- sea defenses --- bimodal seas --- swell --- oblique waves --- crossing seas --- wave basin --- mound breakwater --- armor stability --- Cubipod® --- breaking waves --- non-overtopping --- horizontal foreshore --- regular waves --- Stepped revetment --- wave impact --- physical model test --- rock slopes --- damage characterization --- damage parameters --- physical model tests --- linear waves --- nonlinear waves --- wavemaker theory --- wavemaker applicability --- outdoor wave basin --- long-term development --- vegetation development --- ecosystem services --- nature-based --- vertical barrier --- semi-submerged --- wind waves --- experiments --- laboratory --- operational system --- wave forecast --- wave modelling --- Mediterranean Sea --- monitoring program --- beach management --- bichromatic waves --- reflection separation --- bound waves --- stability --- erosion --- sea level rise --- repetition tests --- berm --- wave flume --- length effect --- aquaculture --- drag --- inertia --- Abbott-Firestone Curve --- laboratory tests --- physical model experiments --- scouring --- shingle foreshore --- sloping wall --- combined field experiment and numerical modeling --- overwash --- wave run-up --- infragravity waves --- XBeach --- coastal flooding --- dune erosion --- landslide waves --- tsunamis --- laboratory experiments --- momentum balance --- numerical wave modeling --- vertical cylinder --- DNS model --- pressure gradient --- wave force --- scour and shear stress
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This book presents 16 selected papers from the 7th International Conference on The Application of Physical Modelling in Coastal and Port Engineering and Science, Coastlab18. The conference was organized in Santander, Spain, from 22 to 26 May, 2018, by the Instituto de Hidráulica Ambiental de la Universidad de Cantabria, IHCantabria. Coastlab18 welcomed 175 attendees from 18 different countries. The technical program included three renowned keynote lectures and 120 presentations focused on theoretical and practical aspects related to physical modelling in the field of coastal and ocean engineering. Coastal and ocean structures, breakwaters, revetments, laboratory technologies, measurement systems, coastal field measurement and monitoring, combined physical and numerical modelling, physical modelling case studies, tsunamis, and coastal hydrodynamics were the main topics covered in the conference. This book attempts to cover, as completely as possible, all the topics presented during the conference. The papers were accepted after a peer-review process based on their full text.
History of engineering & technology --- hydraulic stability --- breaking wave conditions --- low-crested structures --- mound breakwaters --- armor layer --- overtopping --- dikes --- sea defenses --- bimodal seas --- swell --- oblique waves --- crossing seas --- wave basin --- mound breakwater --- armor stability --- Cubipod® --- breaking waves --- non-overtopping --- horizontal foreshore --- regular waves --- Stepped revetment --- wave impact --- physical model test --- rock slopes --- damage characterization --- damage parameters --- physical model tests --- linear waves --- nonlinear waves --- wavemaker theory --- wavemaker applicability --- outdoor wave basin --- long-term development --- vegetation development --- ecosystem services --- nature-based --- vertical barrier --- semi-submerged --- wind waves --- experiments --- laboratory --- operational system --- wave forecast --- wave modelling --- Mediterranean Sea --- monitoring program --- beach management --- bichromatic waves --- reflection separation --- bound waves --- stability --- erosion --- sea level rise --- repetition tests --- berm --- wave flume --- length effect --- aquaculture --- drag --- inertia --- Abbott–Firestone Curve --- laboratory tests --- physical model experiments --- scouring --- shingle foreshore --- sloping wall --- combined field experiment and numerical modeling --- overwash --- wave run-up --- infragravity waves --- XBeach --- coastal flooding --- dune erosion --- landslide waves --- tsunamis --- laboratory experiments --- momentum balance --- numerical wave modeling --- vertical cylinder --- DNS model --- pressure gradient --- wave force --- scour and shear stress --- n/a --- Abbott-Firestone Curve
Choose an application
This book presents 16 selected papers from the 7th International Conference on The Application of Physical Modelling in Coastal and Port Engineering and Science, Coastlab18. The conference was organized in Santander, Spain, from 22 to 26 May, 2018, by the Instituto de Hidráulica Ambiental de la Universidad de Cantabria, IHCantabria. Coastlab18 welcomed 175 attendees from 18 different countries. The technical program included three renowned keynote lectures and 120 presentations focused on theoretical and practical aspects related to physical modelling in the field of coastal and ocean engineering. Coastal and ocean structures, breakwaters, revetments, laboratory technologies, measurement systems, coastal field measurement and monitoring, combined physical and numerical modelling, physical modelling case studies, tsunamis, and coastal hydrodynamics were the main topics covered in the conference. This book attempts to cover, as completely as possible, all the topics presented during the conference. The papers were accepted after a peer-review process based on their full text.
hydraulic stability --- breaking wave conditions --- low-crested structures --- mound breakwaters --- armor layer --- overtopping --- dikes --- sea defenses --- bimodal seas --- swell --- oblique waves --- crossing seas --- wave basin --- mound breakwater --- armor stability --- Cubipod® --- breaking waves --- non-overtopping --- horizontal foreshore --- regular waves --- Stepped revetment --- wave impact --- physical model test --- rock slopes --- damage characterization --- damage parameters --- physical model tests --- linear waves --- nonlinear waves --- wavemaker theory --- wavemaker applicability --- outdoor wave basin --- long-term development --- vegetation development --- ecosystem services --- nature-based --- vertical barrier --- semi-submerged --- wind waves --- experiments --- laboratory --- operational system --- wave forecast --- wave modelling --- Mediterranean Sea --- monitoring program --- beach management --- bichromatic waves --- reflection separation --- bound waves --- stability --- erosion --- sea level rise --- repetition tests --- berm --- wave flume --- length effect --- aquaculture --- drag --- inertia --- Abbott–Firestone Curve --- laboratory tests --- physical model experiments --- scouring --- shingle foreshore --- sloping wall --- combined field experiment and numerical modeling --- overwash --- wave run-up --- infragravity waves --- XBeach --- coastal flooding --- dune erosion --- landslide waves --- tsunamis --- laboratory experiments --- momentum balance --- numerical wave modeling --- vertical cylinder --- DNS model --- pressure gradient --- wave force --- scour and shear stress --- n/a --- Abbott-Firestone Curve
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This book is a collection of all papers published in the Special Issue “Coastal Vulnerability and Mitigation Strategies: From Monitoring to Applied Research”. The main focus is to provide the state-of-the-art and recent research updates on sustainable management strategies for protecting vulnerable coastal areas. Based on 28 contributions from authors representing 17 different countries (Australia, China, Ecuador, Germany, Greece, India, Italy, Mexico, The Netherlands, New Zealand, Poland, Spain, Sri Lanka, Taiwan, United Arab Emirates, UK, USA), an ensemble of interdisciplinary articles has been collected, emphasizing the importance of tackling technical and scientific problems at different scales and from different point of views.
Research & information: general --- brackish lagoon types --- benthic macrophytes --- salinity --- succession --- univariate variables --- Greece --- spectral analysis --- low frequency --- wave grouping --- eigen analysis --- eigenmode --- random waves --- combination waves --- wave extreme events --- Mediterranean Sea --- North Atlantic Spanish coasts --- Gulf of Mexico --- wave modeling --- small scale storm variations --- tsunami-like solitary waves --- horizontal cylinders --- hydrodynamic loads --- experimental tests --- Morison and transverse equations --- hydrodynamic coefficients --- climate change --- multiobjective optimization --- coastal region --- pumping plant --- flooding --- historical cartography --- shore protection structures history --- groins --- gently sloping revetment --- earthquake --- tsunami --- strategic retreat --- salinity intrusion --- MIKE modelling --- sea level rise --- Mekong Delta --- drag coefficients --- oscillatory flows --- force sensors --- synchronization --- automatic alignment --- coastal plan --- erosion, coastal flooding --- sediment budget --- mitigation strategies guidelines --- littoral cell --- wave hindcasting --- Abu Dhabi --- shallow waters --- Shore Protection Manual --- wave climate --- coastal defense --- risk maps --- non-engineering measure --- coastal vulnerability --- eco-defense --- coastal morphodynamics --- mangroves --- flood attenuation --- natural defense --- beach nourishment --- beach drainage system --- groundwater --- submerged breakwater --- cross-shore sediment transport --- coastal vulnerability index --- storm surges --- waves action --- Mediterranean coasts --- extreme events --- threshold values --- probability --- hydrometeorological conditions --- Baltic coast --- climate changes --- sea-level rise --- TELEMAC --- natural beach --- flooded area --- seaside impacts --- Mar Menor --- long-term GIS analysis --- marine infrastructures impact --- coastal urbanization impact --- coastal erosion --- shore protection --- coastal armouring --- 3S tourism --- beach economy --- aeolian processes --- onshore and offshore winds --- Southern Baltic coast --- beach resilience --- beach resistance --- temporary groin --- sea breezes --- resilience index --- GSb model --- Yucatan peninsula --- BERM-N --- sand nourishments --- Bayesian belief network --- JarKus data --- coastal state indicators --- dune foot --- momentary coastline --- Holland coast --- vegetation stiffness --- bending elastic modulus --- velocity distribution --- turbulence intensity --- wave dissipation --- marine inundation --- FORM --- reliability analysis --- Veneto coast --- natural hazards --- disasters --- coastal Andhra Pradesh --- Unmanned Aerial Vehicles --- energy flux --- storm classification --- stormy year --- Andalusia coast --- beach morphodynamics --- UAV flights --- beach surveys --- Reef Balls™ --- sand-filled geosystems --- wave numerical model --- directional wave spectra drifter (DWSD) --- ADCP --- GPS wave buoy --- triple collocation --- Bagnoli-Coroglio Bay --- arsenic --- hydrocarbons --- heavy metals contamination --- marine pollution --- multivariate analysis --- Bagnoli --- Naples --- coastal monitoring --- coastal morphodynamic --- coastal management --- coastal ecosystem --- brackish lagoon types --- benthic macrophytes --- salinity --- succession --- univariate variables --- Greece --- spectral analysis --- low frequency --- wave grouping --- eigen analysis --- eigenmode --- random waves --- combination waves --- wave extreme events --- Mediterranean Sea --- North Atlantic Spanish coasts --- Gulf of Mexico --- wave modeling --- small scale storm variations --- tsunami-like solitary waves --- horizontal cylinders --- hydrodynamic loads --- experimental tests --- Morison and transverse equations --- hydrodynamic coefficients --- climate change --- multiobjective optimization --- coastal region --- pumping plant --- flooding --- historical cartography --- shore protection structures history --- groins --- gently sloping revetment --- earthquake --- tsunami --- strategic retreat --- salinity intrusion --- MIKE modelling --- sea level rise --- Mekong Delta --- drag coefficients --- oscillatory flows --- force sensors --- synchronization --- automatic alignment --- coastal plan --- erosion, coastal flooding --- sediment budget --- mitigation strategies guidelines --- littoral cell --- wave hindcasting --- Abu Dhabi --- shallow waters --- Shore Protection Manual --- wave climate --- coastal defense --- risk maps --- non-engineering measure --- coastal vulnerability --- eco-defense --- coastal morphodynamics --- mangroves --- flood attenuation --- natural defense --- beach nourishment --- beach drainage system --- groundwater --- submerged breakwater --- cross-shore sediment transport --- coastal vulnerability index --- storm surges --- waves action --- Mediterranean coasts --- extreme events --- threshold values --- probability --- hydrometeorological conditions --- Baltic coast --- climate changes --- sea-level rise --- TELEMAC --- natural beach --- flooded area --- seaside impacts --- Mar Menor --- long-term GIS analysis --- marine infrastructures impact --- coastal urbanization impact --- coastal erosion --- shore protection --- coastal armouring --- 3S tourism --- beach economy --- aeolian processes --- onshore and offshore winds --- Southern Baltic coast --- beach resilience --- beach resistance --- temporary groin --- sea breezes --- resilience index --- GSb model --- Yucatan peninsula --- BERM-N --- sand nourishments --- Bayesian belief network --- JarKus data --- coastal state indicators --- dune foot --- momentary coastline --- Holland coast --- vegetation stiffness --- bending elastic modulus --- velocity distribution --- turbulence intensity --- wave dissipation --- marine inundation --- FORM --- reliability analysis --- Veneto coast --- natural hazards --- disasters --- coastal Andhra Pradesh --- Unmanned Aerial Vehicles --- energy flux --- storm classification --- stormy year --- Andalusia coast --- beach morphodynamics --- UAV flights --- beach surveys --- Reef Balls™ --- sand-filled geosystems --- wave numerical model --- directional wave spectra drifter (DWSD) --- ADCP --- GPS wave buoy --- triple collocation --- Bagnoli-Coroglio Bay --- arsenic --- hydrocarbons --- heavy metals contamination --- marine pollution --- multivariate analysis --- Bagnoli --- Naples --- coastal monitoring --- coastal morphodynamic --- coastal management --- coastal ecosystem
Choose an application
This book is a collection of all papers published in the Special Issue “Coastal Vulnerability and Mitigation Strategies: From Monitoring to Applied Research”. The main focus is to provide the state-of-the-art and recent research updates on sustainable management strategies for protecting vulnerable coastal areas. Based on 28 contributions from authors representing 17 different countries (Australia, China, Ecuador, Germany, Greece, India, Italy, Mexico, The Netherlands, New Zealand, Poland, Spain, Sri Lanka, Taiwan, United Arab Emirates, UK, USA), an ensemble of interdisciplinary articles has been collected, emphasizing the importance of tackling technical and scientific problems at different scales and from different point of views.
brackish lagoon types --- benthic macrophytes --- salinity --- succession --- univariate variables --- Greece --- spectral analysis --- low frequency --- wave grouping --- eigen analysis --- eigenmode --- random waves --- combination waves --- wave extreme events --- Mediterranean Sea --- North Atlantic Spanish coasts --- Gulf of Mexico --- wave modeling --- small scale storm variations --- tsunami-like solitary waves --- horizontal cylinders --- hydrodynamic loads --- experimental tests --- Morison and transverse equations --- hydrodynamic coefficients --- climate change --- multiobjective optimization --- coastal region --- pumping plant --- flooding --- historical cartography --- shore protection structures history --- groins --- gently sloping revetment --- earthquake --- tsunami --- strategic retreat --- salinity intrusion --- MIKE modelling --- sea level rise --- Mekong Delta --- drag coefficients --- oscillatory flows --- force sensors --- synchronization --- automatic alignment --- coastal plan --- erosion, coastal flooding --- sediment budget --- mitigation strategies guidelines --- littoral cell --- wave hindcasting --- Abu Dhabi --- shallow waters --- Shore Protection Manual --- wave climate --- coastal defense --- risk maps --- non-engineering measure --- coastal vulnerability --- eco-defense --- coastal morphodynamics --- mangroves --- flood attenuation --- natural defense --- beach nourishment --- beach drainage system --- groundwater --- submerged breakwater --- cross-shore sediment transport --- coastal vulnerability index --- storm surges --- waves action --- Mediterranean coasts --- extreme events --- threshold values --- probability --- hydrometeorological conditions --- Baltic coast --- climate changes --- sea-level rise --- TELEMAC --- natural beach --- flooded area --- seaside impacts --- Mar Menor --- long-term GIS analysis --- marine infrastructures impact --- coastal urbanization impact --- coastal erosion --- shore protection --- coastal armouring --- 3S tourism --- beach economy --- aeolian processes --- onshore and offshore winds --- Southern Baltic coast --- beach resilience --- beach resistance --- temporary groin --- sea breezes --- resilience index --- GSb model --- Yucatan peninsula --- BERM-N --- sand nourishments --- Bayesian belief network --- JarKus data --- coastal state indicators --- dune foot --- momentary coastline --- Holland coast --- vegetation stiffness --- bending elastic modulus --- velocity distribution --- turbulence intensity --- wave dissipation --- marine inundation --- FORM --- reliability analysis --- Veneto coast --- natural hazards --- disasters --- coastal Andhra Pradesh --- Unmanned Aerial Vehicles --- energy flux --- storm classification --- stormy year --- Andalusia coast --- beach morphodynamics --- UAV flights --- beach surveys --- Reef Balls™ --- sand-filled geosystems --- wave numerical model --- directional wave spectra drifter (DWSD) --- ADCP --- GPS wave buoy --- triple collocation --- Bagnoli-Coroglio Bay --- arsenic --- hydrocarbons --- heavy metals contamination --- marine pollution --- multivariate analysis --- Bagnoli --- Naples --- coastal monitoring --- coastal morphodynamic --- coastal management --- coastal ecosystem
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