We propose a new technique for two-dimensional phase unwrapping. The unwrapped phase is found as the solution of an inverse problem that consists in the minimization of an energy functional. The latter includes a weighted data fidelity term that favors sparsity in the error between the true and wrapped phase differences, as well as a regularizer based on higher-order total variation. One desirable feature of our method is its rotation invariance, which allows it to unwrap a much larger class of images compared to the state of the art. We dem-onstrate the effectiveness of our method through several experiments on simulated and real data obtained through the tomographic phase microscope. The proposed method can enhance the applicability and o...
Phase unwrapping is extensively used in optical measurements where phase-shifting technique is emplo...
Abstract. This paper presents a new algorithm for recovering the absolute phase from modulo-2π phase...
The extension of path-independent 2-D phase unwrapping algorithms, based on placement of branch cut ...
In MRI, phase maps can provide useful information about parameters such as field inhomogeneity, velo...
In many imaging applications, the continuous phase information of the measured signal is wrapped to ...
The 2-D phase unwrapping problem aims at retrieving a “phase” image from its modulo 2π observations....
Abstract: True phase including phase characteristic of different complex functions and transfer func...
Phase unwrapping is a classical problem in the fields of medical, military and industrial digital im...
A parametric model and a corresponding parameter estimation algorithm for un-wrapping two-dimensiona...
The phase of complex signals is measured modulo-2Ï (wrapped phase); continuous-phase information is ...
Phase unwrapping is an important but yet complex step in the phase extraction process. Phase extract...
Digital images play an important role in human life since they allow observing, analyzing, studying ...
A novel phase unwraping method has been presented and evaluated in this paper. This method works by ...
The two-dimensional phase unwrapping problem is studied. Using the minimum L p-norm approach, we app...
MRI phase data often suffers from phase wrapping (i.e., phase may be discontinuous by 2 jumps). Nume...
Phase unwrapping is extensively used in optical measurements where phase-shifting technique is emplo...
Abstract. This paper presents a new algorithm for recovering the absolute phase from modulo-2π phase...
The extension of path-independent 2-D phase unwrapping algorithms, based on placement of branch cut ...
In MRI, phase maps can provide useful information about parameters such as field inhomogeneity, velo...
In many imaging applications, the continuous phase information of the measured signal is wrapped to ...
The 2-D phase unwrapping problem aims at retrieving a “phase” image from its modulo 2π observations....
Abstract: True phase including phase characteristic of different complex functions and transfer func...
Phase unwrapping is a classical problem in the fields of medical, military and industrial digital im...
A parametric model and a corresponding parameter estimation algorithm for un-wrapping two-dimensiona...
The phase of complex signals is measured modulo-2Ï (wrapped phase); continuous-phase information is ...
Phase unwrapping is an important but yet complex step in the phase extraction process. Phase extract...
Digital images play an important role in human life since they allow observing, analyzing, studying ...
A novel phase unwraping method has been presented and evaluated in this paper. This method works by ...
The two-dimensional phase unwrapping problem is studied. Using the minimum L p-norm approach, we app...
MRI phase data often suffers from phase wrapping (i.e., phase may be discontinuous by 2 jumps). Nume...
Phase unwrapping is extensively used in optical measurements where phase-shifting technique is emplo...
Abstract. This paper presents a new algorithm for recovering the absolute phase from modulo-2π phase...
The extension of path-independent 2-D phase unwrapping algorithms, based on placement of branch cut ...