TY - BOOK ID - 145732928 TI - Remote Sensing in Coastline Detection PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology KW - DGPS measurements KW - video camera observation KW - shoreline position KW - beach survey KW - Sentinel-2 KW - Remote Sensing KW - habitat mapping KW - mangroves KW - coral reefs KW - climate change KW - vulnerable habitats KW - side-scan sonar KW - swath bathymetry KW - habitat monitoring KW - hurricane Sandy KW - hurricane Joaquin KW - shoreline detection KW - remote sensing KW - WorldView-2 KW - Abruzzo KW - multispectral classification KW - shoreline KW - coastline KW - satellite images KW - synthetic aperture radar (SAR) KW - Sentinel-1 KW - shoreline extraction KW - coastline extraction KW - active connection matrix (ACM) KW - J-Net Dynamic KW - edge detection KW - canny edge detector KW - coastline mapping KW - geomatics KW - SfM photogrammetry KW - network RTK KW - sea level rise KW - coastlines KW - 2100 KW - storm surges KW - heritage sites KW - Pyrgi KW - Mediterranean KW - UAV KW - DSM KW - DGPS measurements KW - video camera observation KW - shoreline position KW - beach survey KW - Sentinel-2 KW - Remote Sensing KW - habitat mapping KW - mangroves KW - coral reefs KW - climate change KW - vulnerable habitats KW - side-scan sonar KW - swath bathymetry KW - habitat monitoring KW - hurricane Sandy KW - hurricane Joaquin KW - shoreline detection KW - remote sensing KW - WorldView-2 KW - Abruzzo KW - multispectral classification KW - shoreline KW - coastline KW - satellite images KW - synthetic aperture radar (SAR) KW - Sentinel-1 KW - shoreline extraction KW - coastline extraction KW - active connection matrix (ACM) KW - J-Net Dynamic KW - edge detection KW - canny edge detector KW - coastline mapping KW - geomatics KW - SfM photogrammetry KW - network RTK KW - sea level rise KW - coastlines KW - 2100 KW - storm surges KW - heritage sites KW - Pyrgi KW - Mediterranean KW - UAV KW - DSM UR - https://www.unicat.be/uniCat?func=search&query=sysid:145732928 AB - Coastal environments are dynamic ecosystems, where erosion is influenced by meteorological/climatic, geological, biological, and anthropic factors. Erosion has worrying effects on the environment, infrastructure, lifelines, and buildings. Furthermore, climate change is exacerbating an already fragile situation. We are witnessing a high-risk situation and are convinced that this is the most appropriate time to focus on state-of-the-art remote sensing techniques for shoreline monitoring. The improvements in the spatial and spectral resolution of current and next generation satellite-based sensors and the significant progress in the spatial data processing identify remote sensing techniques that increase our knowledge of territory and coastline. This Special Issue aims to highlight an overview of all multiscale remote sensing techniques (e.g., high resolution images, photogrammetry, SAR, etc.) and a whole array of methods and techniques that process, analyse, and discuss multitemporal remotely sensed data. Thank you to all of our contributors and authors for their interesting and illuminating studies. Since this topic is complex and dynamic, we hope to develop this research with future works to form more cutting-edge studies. ER -