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This Special Issue on "Coastal Deposits: Environmental Implications, Mathematical Modeling, and Technological Development" includes seven high-quality, innovative research papers dealing with many scientific aspects regarding the coast, through mathematical modelling and innovative techniques in the study and preservation of the coastline from erosion, such as coastal watch camera installations, remote sensing, the use of biocementation, or analytical techniques, to assess incompatibilities in the sustainable use of the coast, including worrying issues as pollution of the marine environment and ecosystem deterioration.
Quy Nhon port --- dredged materials --- dumping location --- mud transport --- particle tracking --- 2D model --- ratio-based impervious surface index --- remote sensing information extraction --- urban impervious surface --- urbanisation --- fuzzy AHP --- fuzzy TOPSIS --- titan mining --- environmental conflict --- Ky Anh --- Vung Ang Economic Zone --- Central Coast Vietnam --- beach sand stabilization --- coastal erosion --- local ureolytic bacterium --- microbial induced carbonate precipitation --- crystal morphology --- nearshore areas --- microbially induced carbonate precipitation --- ureolytic bacteria --- urease activity --- biomineralization --- coastal erosion protection --- artificial beachrock --- video monitoring --- shoreline change --- nearshore sandbars --- Fangar bay --- wind --- shallow and small-scale bay --- estuary --- micro tidal --- n/a
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This Special Issue on "Coastal Deposits: Environmental Implications, Mathematical Modeling, and Technological Development" includes seven high-quality, innovative research papers dealing with many scientific aspects regarding the coast, through mathematical modelling and innovative techniques in the study and preservation of the coastline from erosion, such as coastal watch camera installations, remote sensing, the use of biocementation, or analytical techniques, to assess incompatibilities in the sustainable use of the coast, including worrying issues as pollution of the marine environment and ecosystem deterioration.
Research & information: general --- Quy Nhon port --- dredged materials --- dumping location --- mud transport --- particle tracking --- 2D model --- ratio-based impervious surface index --- remote sensing information extraction --- urban impervious surface --- urbanisation --- fuzzy AHP --- fuzzy TOPSIS --- titan mining --- environmental conflict --- Ky Anh --- Vung Ang Economic Zone --- Central Coast Vietnam --- beach sand stabilization --- coastal erosion --- local ureolytic bacterium --- microbial induced carbonate precipitation --- crystal morphology --- nearshore areas --- microbially induced carbonate precipitation --- ureolytic bacteria --- urease activity --- biomineralization --- coastal erosion protection --- artificial beachrock --- video monitoring --- shoreline change --- nearshore sandbars --- Fangar bay --- wind --- shallow and small-scale bay --- estuary --- micro tidal --- Quy Nhon port --- dredged materials --- dumping location --- mud transport --- particle tracking --- 2D model --- ratio-based impervious surface index --- remote sensing information extraction --- urban impervious surface --- urbanisation --- fuzzy AHP --- fuzzy TOPSIS --- titan mining --- environmental conflict --- Ky Anh --- Vung Ang Economic Zone --- Central Coast Vietnam --- beach sand stabilization --- coastal erosion --- local ureolytic bacterium --- microbial induced carbonate precipitation --- crystal morphology --- nearshore areas --- microbially induced carbonate precipitation --- ureolytic bacteria --- urease activity --- biomineralization --- coastal erosion protection --- artificial beachrock --- video monitoring --- shoreline change --- nearshore sandbars --- Fangar bay --- wind --- shallow and small-scale bay --- estuary --- micro tidal
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This book focuses on fundamental and applied research on geo-information technology, notably optical and radar remote sensing and algorithm improvements, and their applications in environmental monitoring. This Special Issue presents ten high-quality research papers covering up-to-date research in land cover change and desertification analyses, geo-disaster risk and damage evaluation, mining area restoration assessments, the improvement and development of algorithms, and coastal environmental monitoring and object targeting. The purpose of this Special Issue is to promote exchanges, communications and share the research outcomes of scientists worldwide and to bridge the gap between scientific research and its applications for advancing and improving society.
Research & information: general --- earthquake --- damaged groups of buildings --- classification --- remote sensing images --- Convolution Neural Network (CNN) --- block vector data --- shoreline change --- landsat --- planet scope --- coastline --- morphological changes --- building extraction --- improved anchor-free instance segmentation --- high-resolution remote sensing images --- deep learning --- land use/land cover (LULC) --- GF-6 WFV --- object-oriented --- change detection --- double constraints --- REE mines --- mining and restoration assessment indicators (MRAIs) --- damage --- time trajectory --- effectiveness of management --- aeolian process --- desertification --- multi-sensor fusion --- interferometric SAR --- time-series analysis --- mussel farming --- high-resolution image --- transitional water management --- environmental pollution --- open source software --- synthetic aperture radar (SAR) --- target --- sea surface --- multiple scattering --- geo-hazard mapping --- Gaofen-1 satellite --- land cover --- environmental factors --- susceptibility --- post-classification differencing --- generalized difference vegetation index (GDVI) --- multiple linear regression --- logistic regression --- n/a
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Coastal regions are susceptible to rapid changes, as they constitute the boundary between the land and the sea. The resilience of a particular segment of coast depends on many factors, including climate change, sea-level changes, natural and technological hazards, extraction of natural resources, population growth, and tourism. Recent research highlights the strong capabilities for remote sensing applications to monitor, inventory, and analyze the coastal environment. This book contains 12 high-quality and innovative scientific papers that explore, evaluate, and implement the use of remote sensing sensors within both natural and built coastal environments.
Research & information: general --- big data applications --- data processing --- data visualization --- neural networks --- reduction --- coastal waters --- urban expansion --- remote sensing and GIS --- expansion types and rates --- major explanatory factors --- Miami metropolitan area --- cliff coastlines --- cliff retreat --- time-series analysis --- airborne laser scanner --- warm upwelling --- sea surface temperature --- numerical modelling --- winter --- southern Baltic Sea --- beach monitoring --- mobile terrestrial LiDAR --- intensity calibration --- beach surface moisture --- Baltic coast --- Poland --- CORINE Land Cover --- land cover flow --- urbanisation --- afforestation --- deforestation --- spatial analysis --- SDGs --- coastal habitats --- ecosystem monitoring --- land cover mapping --- random forest algorithm --- Sentinel-2 --- modified soil-adjusted vegetation index 2-MSAVI2 --- normalized difference water index 2-NDWI2 --- brightness index 2-BI2 --- oil spill --- remote sensing --- review --- machine learning --- deep learning --- trajectory modeling --- vulnerability assessment --- coastal geomorphology --- shoreline change --- coastal process --- monitoring --- geomatic techniques --- Po River Delta --- archival multi-temporal data --- coastline changes --- emerged/submerged surfaces --- land subsidence --- relative sea level rise 2100 --- land cover --- dune coast --- air photograph --- South Baltic Sea --- coastal monitoring --- estuaries --- IoT --- lidar --- big data applications --- data processing --- data visualization --- neural networks --- reduction --- coastal waters --- urban expansion --- remote sensing and GIS --- expansion types and rates --- major explanatory factors --- Miami metropolitan area --- cliff coastlines --- cliff retreat --- time-series analysis --- airborne laser scanner --- warm upwelling --- sea surface temperature --- numerical modelling --- winter --- southern Baltic Sea --- beach monitoring --- mobile terrestrial LiDAR --- intensity calibration --- beach surface moisture --- Baltic coast --- Poland --- CORINE Land Cover --- land cover flow --- urbanisation --- afforestation --- deforestation --- spatial analysis --- SDGs --- coastal habitats --- ecosystem monitoring --- land cover mapping --- random forest algorithm --- Sentinel-2 --- modified soil-adjusted vegetation index 2-MSAVI2 --- normalized difference water index 2-NDWI2 --- brightness index 2-BI2 --- oil spill --- remote sensing --- review --- machine learning --- deep learning --- trajectory modeling --- vulnerability assessment --- coastal geomorphology --- shoreline change --- coastal process --- monitoring --- geomatic techniques --- Po River Delta --- archival multi-temporal data --- coastline changes --- emerged/submerged surfaces --- land subsidence --- relative sea level rise 2100 --- land cover --- dune coast --- air photograph --- South Baltic Sea --- coastal monitoring --- estuaries --- IoT --- lidar
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Coastal regions are susceptible to rapid changes, as they constitute the boundary between the land and the sea. The resilience of a particular segment of coast depends on many factors, including climate change, sea-level changes, natural and technological hazards, extraction of natural resources, population growth, and tourism. Recent research highlights the strong capabilities for remote sensing applications to monitor, inventory, and analyze the coastal environment. This book contains 12 high-quality and innovative scientific papers that explore, evaluate, and implement the use of remote sensing sensors within both natural and built coastal environments.
Research & information: general --- big data applications --- data processing --- data visualization --- neural networks --- reduction --- coastal waters --- urban expansion --- remote sensing and GIS --- expansion types and rates --- major explanatory factors --- Miami metropolitan area --- cliff coastlines --- cliff retreat --- time-series analysis --- airborne laser scanner --- warm upwelling --- sea surface temperature --- numerical modelling --- winter --- southern Baltic Sea --- beach monitoring --- mobile terrestrial LiDAR --- intensity calibration --- beach surface moisture --- Baltic coast --- Poland --- CORINE Land Cover --- land cover flow --- urbanisation --- afforestation --- deforestation --- spatial analysis --- SDGs --- coastal habitats --- ecosystem monitoring --- land cover mapping --- random forest algorithm --- Sentinel-2 --- modified soil-adjusted vegetation index 2–MSAVI2 --- normalized difference water index 2–NDWI2 --- brightness index 2–BI2 --- oil spill --- remote sensing --- review --- machine learning --- deep learning --- trajectory modeling --- vulnerability assessment --- coastal geomorphology --- shoreline change --- coastal process --- monitoring --- geomatic techniques --- Po River Delta --- archival multi-temporal data --- coastline changes --- emerged/submerged surfaces --- land subsidence --- relative sea level rise 2100 --- land cover --- dune coast --- air photograph --- South Baltic Sea --- coastal monitoring --- estuaries --- IoT --- lidar --- n/a --- modified soil-adjusted vegetation index 2-MSAVI2 --- normalized difference water index 2-NDWI2 --- brightness index 2-BI2
Choose an application
Coastal regions are susceptible to rapid changes, as they constitute the boundary between the land and the sea. The resilience of a particular segment of coast depends on many factors, including climate change, sea-level changes, natural and technological hazards, extraction of natural resources, population growth, and tourism. Recent research highlights the strong capabilities for remote sensing applications to monitor, inventory, and analyze the coastal environment. This book contains 12 high-quality and innovative scientific papers that explore, evaluate, and implement the use of remote sensing sensors within both natural and built coastal environments.
big data applications --- data processing --- data visualization --- neural networks --- reduction --- coastal waters --- urban expansion --- remote sensing and GIS --- expansion types and rates --- major explanatory factors --- Miami metropolitan area --- cliff coastlines --- cliff retreat --- time-series analysis --- airborne laser scanner --- warm upwelling --- sea surface temperature --- numerical modelling --- winter --- southern Baltic Sea --- beach monitoring --- mobile terrestrial LiDAR --- intensity calibration --- beach surface moisture --- Baltic coast --- Poland --- CORINE Land Cover --- land cover flow --- urbanisation --- afforestation --- deforestation --- spatial analysis --- SDGs --- coastal habitats --- ecosystem monitoring --- land cover mapping --- random forest algorithm --- Sentinel-2 --- modified soil-adjusted vegetation index 2–MSAVI2 --- normalized difference water index 2–NDWI2 --- brightness index 2–BI2 --- oil spill --- remote sensing --- review --- machine learning --- deep learning --- trajectory modeling --- vulnerability assessment --- coastal geomorphology --- shoreline change --- coastal process --- monitoring --- geomatic techniques --- Po River Delta --- archival multi-temporal data --- coastline changes --- emerged/submerged surfaces --- land subsidence --- relative sea level rise 2100 --- land cover --- dune coast --- air photograph --- South Baltic Sea --- coastal monitoring --- estuaries --- IoT --- lidar --- n/a --- modified soil-adjusted vegetation index 2-MSAVI2 --- normalized difference water index 2-NDWI2 --- brightness index 2-BI2
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