Title :
A modification to the ASM filter for improving SAR interferograms
Author :
Ben Abdallah, Wajih ; Abdelfattah, Riadh
Author_Institution :
COSIM Lab., Univ. of Carthage, Ariana, Tunisia
Abstract :
SAR Interferograms illustrate an ambiguous (modulo 2π) and noisy phase. In this paper, we focus on the step of interferogram denoising using the Adaptive Switching Median Filter (ASMF) in the wavelet domain. Thus, we propose to filter the coefficients of the relative Discrete Packet Wavelet Transform (DPWT). Our main contribution in this paper concerns firstly, the methodology for computing the mask of noise corresponding to the InSAR phase. Secondly, the size of the median filter is computed considering the noise mask within a given neighborhood and taking into account the corresponding InSAR coherence values. This scheme is tested on simulated noisy interferograms as well as on a given pairs of single look complex (SLC) data from Envisat satellite. Validation was made by computing the Digital Elevation Model after unwrapping the filtered interferogram.
Keywords :
adaptive filters; digital elevation models; discrete wavelet transforms; geophysical techniques; median filters; radar signal processing; signal denoising; switched filters; synthetic aperture radar; ASM filter; DPWT; Envisat satellite; InSAR coherence values; SAR interferograms; SLC data; adaptive switching median filter; digital elevation model; discrete packet wavelet transform; interferogram denoising; noise mask; noisy interferograms; noisy phase; single look complex data; synthetic aperture radar interferograms; wavelet domain; Abstracts; Filtering algorithms; Noise; Satellites; Switches; Wavelet domain; Wavelet packets; ASM Filter; InSAR coherence; SAR Interferogram; Wavelet Transform;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2013 Proceedings of the 21st European
Conference_Location :
Marrakech
