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Climate change and land use transformations have induced an increased flood risk worldwide. These phenomena are dramatically impacting ordinary life and the economy. Research and technology offer a new strategy to quantify and predict such phenomena and also mitigate the impact of flooding. In particular, the growing computational power is offering new strategies for a more detailed description of the flooding over large scales. This book offers an overview of the most recent outcomes of the research on this argument.

climate change --- flood hazards --- high-resolution AGCM --- inundation analysis --- Lower Mekong river basin --- data assimilation --- ensemble Kalman filter --- flood inundation maps --- National Water Model (NWM) --- countermeasures --- flood impacts --- Metro Colombo canal system --- Colombo city, Sri Lanka --- urban floods --- near real-time --- Mekong Basin --- hydro-economic --- socioeconomic --- damage assessment --- hydroinformatics --- EU Floods Directive --- flood risk management --- extreme rainfall --- SCS-CN --- 2D hydraulic modelling --- HEC-RAS --- building representation --- ungauged streams --- uncertainty --- IDF curves --- Bayesian analysis --- Non-Stationary process --- open-access remotely sensed data --- flood mapping and modelling --- altimetry --- synthetic aperture radar --- optical satellite --- Digital Elevation Model (DEM) --- and transboundary floods --- flood --- remote sensing --- data integration --- RST-FLOOD --- MODIS --- VIIRS --- optical data --- flood mapping --- flood monitoring --- floodplains --- rivers dynamics --- DEM-based methods --- geomorphology --- data scarce environments --- DTM --- terrain analysis --- hydraulic geometry --- large scale --- 2D hydraulic modeling --- scaling in hydrology