Earthquake Damage Assessment of Buildings Using VHR Optical and SAR Imagery

Brunner, Dominik; Lemoine, Guido; Bruzzone, Lorenzo

doi:10.1109/tgrs.2009.2038274

Cited by 488 publications

(252 citation statements)

References 52 publications

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“…Similar to this hypothesis we exploit the fact that regular patterns of facade objects and its inherent topology information remains constant in both mapping geometries. (Brunner et al, 2010) extract house model parameters, i.e. height, width, length, and gable roof angle, of individual buildings from an optical nadir image and use a ray tracer to simulate the corresponding SAR image.…”

Section: Related Workmentioning

confidence: 99%

Graph Matching for the Registration of Persistent Scatterers to Optical Oblique Imagery

Schack

Soergel

Heipke

2016

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:Matching Persistent Scatterers (PS) to airborne optical imagery is one possibility to augment applications and deepen the understanding of SAR processing and products. While recently this data registration task was done with PS and optical nadir images the alternatively available optical oblique imagery is mostly neglected. Yet, the sensing geometry of oblique images is very similar in terms of viewing direction with respect to SAR. We exploit the additional information coming with these optical sensors to assign individual PS to single parts of buildings. The key idea is to incorporate topology information which is derived by grouping regularly aligned PS at facades and use it together with a geometry based measure in order to establish a consistent and meaningful matching result. We formulate this task as an optimization problem and derive a graph matching based algorithm with guaranteed convergence in order to solve it. Two exemplary case studies show the plausibility of the presented approach.

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Section: Related Workmentioning

confidence: 99%

Graph Matching for the Registration of Persistent Scatterers to Optical Oblique Imagery

Schack

Soergel

Heipke

2016

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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“…Color-coded Pauli decomposition for F-SAR X-band MEM1 (left) and MEM2 (right). 1 The power of the scattering mechanism is coded in an RGB composite, where the red channel corresponds to the power of the even-bounce, the green channel corresponds mainly to the power of the volume scattering, and the blue channel represents the power of the odd-bounce mechanism.…”

Section: Test Site: Memmingenmentioning

confidence: 99%

“…For this reason, SAR offers a good alternative to optical sensors providing time series data with both fine temporal and spatial resolutions. Previous studies [1], [2], [3] showed great potential for SAR-based image change detection. Nonetheless, the inherent complexity of SAR data imposes multiple challenges such as noise suppression, registration noise and calibration errors that still need to be investigated [4].…”

Section: Introductionmentioning

confidence: 99%

Fully polarimetric high-resolution airborne SAR image change detection with morphological component analysis

Domínguez¹,

Henke²,

Small³

et al. 2015

SPIE Proceedings

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Change detection for high resolution Synthetic Aperture Radar (SAR) imagery requires advanced denoising mechanisms to preserve details and minimize speckle. In this work, we propose a change detector based on a Morphological Component Analysis (MCA) of the scattering mechanisms provided with fully polarimetric data sets. With MCA, the power of each scattering mechanism is decomposed into diverse image features. By introducing a priori knowledge of the content of the scenes, and exploiting both the scattering mechanisms and their corresponding shapes, we can significantly improve performance, with fewer false alarms introduced by clutter, focusing errors, and inconsistent acquisition geometries. ABSTRACTChange detection for high resolution Synthetic Aperture Radar (SAR) imagery requires advanced denoising mechanisms to preserve details and minimize speckle. In this work, we propose a change detector based on a Morphological Component Analysis (MCA) of the scattering mechanisms provided with fully polarimetric data sets. With MCA, the power of each scattering mechanism is decomposed into diverse image features. By introducing a priori knowledge of the content of the scenes, and exploiting both the scattering mechanisms and their corresponding shapes, we can significantly improve performance, with fewer false alarms introduced by clutter, focusing errors, and inconsistent acquisition geometries.

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“…Moreover, since the backscattering properties of some targets are likely to vary as a function of squint angle, the squinted SAR can obtain more information for ROI with multiple images at different squint angle observations. The squinted spaceborne SAR has great potential in detecting Earth surface deformation in three dimensions [3], and can be used for earthquake damage assessment and rescue [4], etc. Therefore, the spaceborne Jie Chen, Hui Kuang, Wei Yang and Pengbo Wang are with School of Electronic and Information Engineering, Beihang University, Beijing, 100191, China (e-mail: yangweigigi@sina.com).…”

Section: Introductionmentioning

confidence: 99%

A Novel Imaging Algorithm for Focusing High-Resolution Spaceborne SAR Data in Squinted Sliding-Spotlight Mode

Chen¹,

Kuang

Yang

et al. 2016

IEEE Geosci. Remote Sensing Lett.

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Abstract-To process squinted sliding-spotlight synthetic aperture radar (SAR) data, the azimuth preprocessing step based on the linear range walk correction (LRWC) and de-rotation operations is implemented to eliminate the effect of two-dimensional (2-D) spectrum skew and azimuth spectral aliasing. However, two key issues arise from the azimuth preprocessing. Firstly, the traditional chirp scaling (CS) kernel is not suitable for data focusing because the property of 2-D spectrum is changed significantly; secondly, the spatial variation of the targets' Doppler rates along the azimuth direction due to the LRWC operation limits the depth-of-azimuth-focus (DOAF) seriously. In this letter, a modified accurate CS kernel is derived to realize range compensation. Then an azimuth spatial variation removing method based on the principle of nonlinear CS (NLCS) is proposed to equalize the Doppler rates of the targets located at the same range cell, which can extend the DOAF and improve processing efficiency. Finally, a novel imaging algorithm is proposed, with its effectiveness demonstrated by simulation results.Index Terms-Azimuth spatial variation removing, modified chirp scaling (CS) kernel, squinted sliding-spotlight, synthetic aperture radar (SAR).

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Earthquake Damage Assessment of Buildings Using VHR Optical and SAR Imagery

Cited by 488 publications

References 52 publications

Graph Matching for the Registration of Persistent Scatterers to Optical Oblique Imagery

Graph Matching for the Registration of Persistent Scatterers to Optical Oblique Imagery

Fully polarimetric high-resolution airborne SAR image change detection with morphological component analysis

A Novel Imaging Algorithm for Focusing High-Resolution Spaceborne SAR Data in Squinted Sliding-Spotlight Mode

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