A high-contrast inpainting scheme based on the Complex Ginzburg-Landau equation recently applied successfully to image restoration is applied to SAR interferograms to improve their quality and therefore final quality of Digital Elevation Models (DEMs). The new technique attempts to recover the phase values in low coherence regions through diffusion and inpainting. After phase unwrapping low coherence regions are masked and discarded and a Complex Ginzburg-Landau (CGL) inpainting scheme is applied to regions where phase values are missing. We demonstrate that the residues reduce and the proposed algorithm leads to a higher Signal-to-Noise Ratio (SNR) if compared with MCF algorithm. The restoration technique has been applied to ERS-1 and ERS-...
SAR interferograms are generally affected by different types of errors. Phase noise in interferometr...
We are presenting a new method to unwrap the phase from irregularly sampled differential SAR interfe...
In order to minimize the influence of decorrelation noise on multi-temporal interferometric syntheti...
A high-contrast inpainting scheme based on the Complex Ginzburg-Landau equation recently applied suc...
Multibaseline SAR interferometry can be successfully exploited for automatic phase unwrapping and hi...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
One of the most critical stages in height reconstruction from Synthetic Aperture Radar (SAR) interfe...
The block-matching 3-D (BM3D) algorithm, based on the nonlocal approach, is one of the most effecti...
Synthetic Aperture Radar interferometry (InSAR) is a powerful and established technique, which is ba...
This paper addresses the noise filtering problem for SAR interfero- gram phase images. The phase no...
International audienceInterferometric SAR images suffer from a strong noise and their regularization...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
This paper presents a new filtering technique for SAR interferometric phase images. Due to the prese...
SAR interferograms are generally affected by different types of errors. Phase noise in interferometr...
We are presenting a new method to unwrap the phase from irregularly sampled differential SAR interfe...
In order to minimize the influence of decorrelation noise on multi-temporal interferometric syntheti...
A high-contrast inpainting scheme based on the Complex Ginzburg-Landau equation recently applied suc...
Multibaseline SAR interferometry can be successfully exploited for automatic phase unwrapping and hi...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
One of the most critical stages in height reconstruction from Synthetic Aperture Radar (SAR) interfe...
The block-matching 3-D (BM3D) algorithm, based on the nonlocal approach, is one of the most effecti...
Synthetic Aperture Radar interferometry (InSAR) is a powerful and established technique, which is ba...
This paper addresses the noise filtering problem for SAR interfero- gram phase images. The phase no...
International audienceInterferometric SAR images suffer from a strong noise and their regularization...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
This paper presents a new filtering technique for SAR interferometric phase images. Due to the prese...
SAR interferograms are generally affected by different types of errors. Phase noise in interferometr...
We are presenting a new method to unwrap the phase from irregularly sampled differential SAR interfe...
In order to minimize the influence of decorrelation noise on multi-temporal interferometric syntheti...