Metadata 1576

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Thanks to the public availability of satellite data (optical imagery of ESA Sentinel 2 and NASA Landsat 5, 7 & 8 with pixel resolutions of 10-30 metres and a revisit time of 1 to 2 weeks) and new analytical tools for processing big data (such as the Google Earth Engine), the EMODnet Geology team in collaboration with Deltares and TNO (Geological Survey of the Netherlands) were able to look at shoreline migration in a new way. Scripts for automated detection of the land-water boundary were used to separate ...

Pan-European map visualization, at a range of scales, indicating lower, intermediate, and higher levels of coastline resilience and vulnerability. The resilience of a system is defined as its ability to withstand and recover from a major disruption, whereas vulnerability is a measure of the susceptibility of a system to change. Higher resilience reduces susceptibility and thus vulnerability to change. Higher levels of resilience/lower levels of vulnerability are shown in light blue, intermediate levels in ...

Pan-European map visualization, at a range of scales, indicating lower, intermediate, and higher levels of coastline resilience and vulnerability. The resilience of a system is defined as its ability to withstand and recover from a major disruption, whereas vulnerability is a measure of the susceptibility of a system to change. Higher resilience reduces susceptibility and thus vulnerability to change. Higher levels of resilience/lower levels of vulnerability are shown in light blue, intermediate levels in ...

Pan-European map visualization, at a range of scales, indicating lower, intermediate, and higher levels of coastline resilience and vulnerability. The resilience of a system is defined as its ability to withstand and recover from a major disruption, whereas vulnerability is a measure of the susceptibility of a system to change. Higher resilience reduces susceptibility and thus vulnerability to change. Higher levels of resilience/lower levels of vulnerability are shown in light blue, intermediate levels in ...

Pan-European map visualization, at a range of scales, indicating lower, intermediate, and higher levels of coastline resilience and vulnerability. The resilience of a system is defined as its ability to withstand and recover from a major disruption, whereas vulnerability is a measure of the susceptibility of a system to change. Higher resilience reduces susceptibility and thus vulnerability to change. Higher levels of resilience/lower levels of vulnerability are shown in light blue, intermediate levels in ...