Abstract
Abstract. Due to all-day and all-weather capability spaceborne SAR is a valuable means for rapid mapping during and after disaster. In this paper, three change detection techniques based on SAR data are discussed: (1) initial coarse change detection, (2) flooded area detection, and (3) linear-feature change detection. The 2011 Tohoku Earthquake and Tsunami is used as case study, where earthquake and tsunami events provide a complex case for this study. In (1), pre- and post-event TerraSAR-X images are coregistered accurately to produce a false-color image. Such image provides a quick and rough overview of potential changes, which is useful for initial decision making and identifies areas worthwhile to be analysed further in more depth. In (2), the post-event TerraSAR-X image is used to extract the flooded area by morphological approaches. In (3), we are interested in detecting changes of linear shape as indicator for modified man-made objects. Morphological approaches, e.g. thresholding, simply extract pixel-based changes in the difference image. However, in this manner many irrelevant changes are highlighted, too (e.g., farming activity, speckle). In this study, Curvelet filtering is applied in the difference image not only to suppress false alarms but also to enhance the change signals of linear-feature form (e.g. buildings) in settlements. Afterwards, thresholding is conducted to extract linear-shaped changed areas. These three techniques mentioned above are designed to be simple and applicable in timely disaster analysis. They are all validated by comparing with the change map produced by Center for Satellite Based Crisis Information, DLR.
Highlights
INTRODUCTIONFlooded areas appear darker than the other types of land cover in SAR image
This paper presents the contributions with respect to SAR works in RapidMap
They are divided into three parts: (1) initial coarse change detection, (2) flooded area detection, and (3) linear-feature change detection
Summary
Flooded areas appear darker than the other types of land cover in SAR image This implies that flooded areas can be extracted from the post-event TSX image rather . All the results in this study have been validated by comparing with a thematic map of change detection - "TerraSAR-X Change Analysis of Sendai Area, Japan" (ZKI, 2011b) This reference data will be shortly called thematic map in the following context. The pre- and post-event TSX images (Figure 2) used in this study have been acquired on October 20, 2010 and March 12, 2011, respectively. These optical images hardly provide useful ground information for disaster analysis as the TSX images used in this study. This fact shows the advantage of using radar data in disaster analysis
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