Probabilistic mapping of flood-induced backscatter changes in SAR time series |
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| Institution: | 1. Department of Civil & Environmental Engineering, University of Connecticut, Storrs, CT, 06263, USA;2. Eversource Energy Center, University of Connecticut, Storrs, CT 06263, USA;3. Department of Geography, Texas A&M University, College Station, TX, 77803, USA;4. Dartmouth Flood Observatory, INSTAAR, University of Colorado, Boulder, CO 80309-0545, USA |
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| Abstract: | The information content of flood extent maps can be increased considerably by including information on the uncertainty of the flood area delineation. This additional information can be of benefit in flood forecasting and monitoring. Furthermore, flood probability maps can be converted to binary maps showing flooded and non-flooded areas by applying a threshold probability value pF = 0.5. In this study, a probabilistic change detection approach for flood mapping based on synthetic aperture radar (SAR) time series is proposed. For this purpose, conditional probability density functions (PDFs) for land and open water surfaces were estimated from ENVISAT ASAR Wide Swath (WS) time series containing >600 images using a reference mask of permanent water bodies. A pixel-wise harmonic model was used to account for seasonality in backscatter from land areas caused by soil moisture and vegetation dynamics. The approach was evaluated for a large-scale flood event along the River Severn, United Kingdom. The retrieved flood probability maps were compared to a reference flood mask derived from high-resolution aerial imagery by means of reliability diagrams. The obtained performance measures indicate both high reliability and confidence although there was a slight under-estimation of the flood extent, which may in part be attributed to topographically induced radar shadows along the edges of the floodplain. Furthermore, the results highlight the importance of local incidence angle for the separability between flooded and non-flooded areas as specular reflection properties of open water surfaces increase with a more oblique viewing geometry. |
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| Keywords: | Floods ASAR Wide Swath mode Time series analysis Change detection Bayes’ theorem Reliability diagram |
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