{"references": ["Morris, E. P., Jesus Gomez-Enri, and D. Van der Wal. 2015. 'Copernicus Downstream Service Supports Nature-Based Flood Defense: Use of Sentinel Earth Observation Satellites for Coastal Needs'. Sea Technology 56 (3): 23\u201326.", "Van Koningsveld, M., G. J. De Boer, F. Baart, T. Damsma, C. Den Heijer, P. Van Geer, and B. De Sonneville. 2010. 'OpenEarth-Inter-Company Management of: Data, Models, Tools & Knowledge'. In Proceedings WODCON XIX Conference. Beijing, China.", "Van Rooijen, A. A., R. T. McCall, J. S. M. Van Thiel de Vries, A. R. Van Dongeren, AJHM Reniers, and J. A. Roelvink. 2016. 'Modeling the Effect of Wave\u2010vegetation Interaction on Wave Setup'. Journal of Geophysical Research: Oceans 121 (6): 4341\u201359.", "Mason, D. C., I. J. Davenport, and R. A. Flather. 1997. 'Interpolation of an Intertidal Digital Elevation Model from Heighted Shorelines: A Case Study in the Western Wash'. Estuarine, Coastal and Shelf Science 45 (5): 599\u2013612.", "Murray, Nicholas J, Robert S Clemens, Stuart R Phinn, Hugh P Possingham, and Richard A Fuller. 2014. 'Tracking the Rapid Loss of Tidal Wetlands in the Yellow Sea'. Frontiers in Ecology and the Environment, May. doi:10.1890/130260.", "Muis, Sanne, Martin Verlaan, Hessel C. Winsemius, Jeroen CJH Aerts, and Philip J. Ward. 2016. 'A Global Reanalysis of Storm Surges and Extreme Sea Levels'. Nature Communications 7."]}

Foreshore Assessment using Space Technology [1] (FAST, 2014-2018, EU-FP7 607131) has created a platform for EU Earth Observation (EO) Programme Copernicus services, to support cost-effective, nature-based shoreline protection. Called “MI-SAFE”, it is developed with Open Source (OS) Intelligent Geographical Information System (IGIS) components from the OpenEarth [2] stack, and interoperable OGC standards. Processing large volumes of EO data for global coastal vegetation and elevation products is done using the cloud native Google Earth Engine platform. These are intelligently combined with other layers to form the inputs to XBeach [3], an OS hydrodynamic model developed by Deltares, UNESCO-IHE and TU Delft. Access to data is via a web-based user interface with different resolutions and complexity (Educational and Expert modes), and a Catalogue Service for the Web (CSW). MI-SAFE is intended to be a sustainable contribution to coastal Nature-based Solutions, increasing both awareness and facilitating advanced modelling, within the engineering community.

http://www.bigdatafromspace2017.org/