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Synthetic Aperture Radar Flood Detection under Multiple Modes and Multiple Orbit Conditions: A Case Study in Japan on Typhoon Hagibis, 2019

Ryo Natsuaki, Hiroto Nagai

2020Remote Sensing19 citationsDOIOpen Access PDF

Abstract

Flood detection using a spaceborne synthetic aperture radar (SAR) has become a powerful tool for organizing disaster responses. The detection accuracy is increased by accumulating pre-event observations, whereas applying multiple observation modes results in an inadequate number of observations with the same mode from the same orbit. Recent flood detection studies take advantage of the large number of pre-event observations taken from an identical orbit and observation mode. On the other hand, those studies do not take account of the use of multiple orbits and modes. In this study, we examined how the analysis results suffered when pre-event observations were only taken from a different orbit or mode to that of the post-event observation. Experimental results showed that inundation areas were overlooked under such non-ideal conditions. On the other hand, the detection accuracy could be recovered by combining analysis results from possible alternate datasets and became compatible with ideal cases.

Topics & Concepts

Remote sensingTyphoonOrbit (dynamics)Flood mythEvent (particle physics)Mode (computer interface)Synthetic aperture radarComputer scienceGeologyEnvironmental scienceGeodesyGeographyPhysicsAerospace engineeringClimatologyEngineeringArchaeologyOperating systemQuantum mechanicsSynthetic Aperture Radar (SAR) Applications and TechniquesFlood Risk Assessment and ManagementOcean Waves and Remote Sensing
Synthetic Aperture Radar Flood Detection under Multiple Modes and Multiple Orbit Conditions: A Case Study in Japan on Typhoon Hagibis, 2019 | Litcius