LEADER 05444nam 2201681z- 450 001 9910566467303321 005 20231214133419.0 035 $a(CKB)5680000000037707 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/81073 035 $a(EXLCZ)995680000000037707 100 $a20202205d2022 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aCoastal Waters Monitoring Using Remote Sensing Technology 210 $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022 215 $a1 electronic resource (498 p.) 311 $a3-0365-1233-0 330 $aAround 10% of the global population lives in the world?s coastal zones, mostly concentrated in the world?s largest megacities. In many regions, the population is exposed to a variety of natural hazards and space-based observations. This Special Issue will focus on the usage of remote sensing alone or in synergy with in situ measurments and modeling tools to provide precise and systematic information about processes acting in the world?s coastal zones. 606 $aResearch & information: general$2bicssc 610 $aACOLITE 610 $acoastal waters 610 $aatmospheric correction 610 $atime-series 610 $amanagement 610 $aSentinel-2 610 $aradon transform 610 $aremote sensing 610 $abathymetry inversion 610 $amulti-scale monitoring 610 $aimage augmentation 610 $aphytoplankton remote sensing 610 $acoastal ocean 610 $ared tides 610 $ablack pixel assumption 610 $asatellite 610 $asediment transport 610 $acoastal geomorphology 610 $aocean color 610 $aGOCI 610 $aVIIRS 610 $aturbid waters 610 $asatellite-derived bathymetry 610 $aCopernicus programme 610 $amulti-temporal approach 610 $alidar 610 $aturbidity 610 $acoastal upwelling 610 $awind forcing 610 $ariver plume 610 $aMODIS 610 $aArctic Ocean 610 $ahurricanes 610 $awater quality 610 $aPuerto Rico 610 $aharmful algal blooms 610 $aChattonella spp. 610 $aSkeletonema spp. 610 $abackscattering 610 $aAriake Sea 610 $achlorophyll-a variability 610 $aspring?neap tides 610 $aMODIS-Aqua 610 $atotal suspended sediment 610 $ariver discharge 610 $aband registration 610 $amorphological registration 610 $amultispectral camera 610 $aMicasense Rededge-M 610 $aPearl River estuary 610 $adiffuse attenuation coefficient 610 $aS-EOF 610 $aland subsidence 610 $amulti-temporal SAR interferometry 610 $asea-surface height 610 $arelative sea level change 610 $asatellite altimetry data 610 $aGNSS 610 $acoastal urban centers 610 $anatural protected areas 610 $aclimate change impact 610 $aphysics-based inversion method 610 $aocean surface circulation 610 $ahigh frequency radar 610 $aself-organizing map 610 $aempirical orthogonal function 610 $aneural networks 610 $asynoptic characteristics 610 $awave radar 610 $asea waves 610 $amodel data 610 $aMediterranean sea 610 $asmall river plume 610 $aaerial drone 610 $acoastal processes 610 $afrontal zones 610 $ainternal waves 610 $aalong-track interferometric synthetic aperture radar (ATI-SAR) 610 $acurrent line-of-sight (LOS) velocity 610 $aazimuth ambiguity 610 $abaseline-to-platform speed ratio estimation 610 $astorm surge 610 $acoastal flooding 610 $amarine storms 610 $anatural hazards 610 $asteric-effect 610 $asatellite altimetry 610 $aADG/CDOM colored dissolved organic matter 610 $aSentinel 3 610 $asouthwestern Puerto Rico 610 $aocean tidal backwater 610 $astage?discharge relation 610 $aocean tide model 610 $aMekong Delta 610 $asuspended particulate matter 610 $aocean color data 610 $asatellite remote sensing 610 $ain situ measurements 610 $aC2RCC 610 $aLandsat-8 OLI 610 $aSentinel-2 MSI 610 $aMzymta River 610 $aBlack Sea 610 $aMUR SST 610 $aSST fronts 610 $aInner Sea of Chiloé 610 $anorthern Patagonia 610 $asuspended sediment 610 $aTyphoon Soudelor 610 $aspatial?temporal distribution 610 $aHF marine radars 610 $awave energy 615 7$aResearch & information: general 700 $aVignudelli$b Stefano$4edt$01330870 702 $aBenveniste$b Jérôme$4edt 702 $aVignudelli$b Stefano$4oth 702 $aBenveniste$b Jérôme$4oth 906 $aBOOK 912 $a9910566467303321 996 $aCoastal Waters Monitoring Using Remote Sensing Technology$93040003 997 $aUNINA