This paper addresses interferometric phase image estimation – that is, the estimation of phase modulo-2π images from sinusoidal 2π-periodic and noisy observations. These degradation mechanisms make interferometric phase image estimation a quite challenging problem. We tackle this challenge by reformulating the true estimation problem as a sparse regression, often termed sparse coding, in the complex domain. Following the standard procedure in patch-based image restoration, the image is partitioned into small overlapping square patches and the vector corresponding to each patch is modeled as a sparse linear combination of vectors, termed atoms, taken from a set called dictionary. Aiming at optimal sparse representations, and thus at optimal ...
This paper develops a novel framework for phase retrieval, a problem which arises in X-ray crystal-l...
Current optical interferometers are affected by unkown turbulent phases on each telescope. The compl...
Spatial filtering to reduce noise is an important process to improve phase measurements in interfero...
This paper proposes a novel algorithm for image phase retrieval, i.e., for recovering complex-valued...
We consider a computational superresolution inverse diffraction problem for phase retrieval from pha...
In this paper, we use sparse modeling for processing phase-shifting interferometry measurements. The...
Optical interferometry is a technique for obtaining high-resolution imagery of a distant target by i...
We consider the problem of recovering a complex signal x ∈ Cn from m intensity measurements of the f...
An absolute phase estimation algorithm for interferometric applications is introduced. The approach ...
Recovering signals from their Fourier transform magnitudes is a classical problem referred to as pha...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
We address the problem of phase retrieval, which is frequently encountered in optical imaging. The m...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
To date, no phase-shifting method can accurately retrieve the phase map from a small set of noisy in...
Interferometry is routinely used for spectral or modal analysis of optical signals. By posing interf...
This paper develops a novel framework for phase retrieval, a problem which arises in X-ray crystal-l...
Current optical interferometers are affected by unkown turbulent phases on each telescope. The compl...
Spatial filtering to reduce noise is an important process to improve phase measurements in interfero...
This paper proposes a novel algorithm for image phase retrieval, i.e., for recovering complex-valued...
We consider a computational superresolution inverse diffraction problem for phase retrieval from pha...
In this paper, we use sparse modeling for processing phase-shifting interferometry measurements. The...
Optical interferometry is a technique for obtaining high-resolution imagery of a distant target by i...
We consider the problem of recovering a complex signal x ∈ Cn from m intensity measurements of the f...
An absolute phase estimation algorithm for interferometric applications is introduced. The approach ...
Recovering signals from their Fourier transform magnitudes is a classical problem referred to as pha...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
We address the problem of phase retrieval, which is frequently encountered in optical imaging. The m...
The goal of this paper is to estimate a denoised phase image from the observed noisy SAR interferogr...
To date, no phase-shifting method can accurately retrieve the phase map from a small set of noisy in...
Interferometry is routinely used for spectral or modal analysis of optical signals. By posing interf...
This paper develops a novel framework for phase retrieval, a problem which arises in X-ray crystal-l...
Current optical interferometers are affected by unkown turbulent phases on each telescope. The compl...
Spatial filtering to reduce noise is an important process to improve phase measurements in interfero...