A well-founded and computationally fast method is presented for filtering and interpolating noisy and discontinuous wrapped phase fields that preserves both the 2π discontinuities that come from the wrapping effect and the true discontinuities that may be present. It also permits the incorporation of an associated quality map, if it is available, in a natural way. Examples of its application to the computation of the isoclinic phase from photoelastic data and to the recovery of discontinuous phase fields from speckle interferometry are presented
"We propose a method for analysing a sequence of noisy interferograms with closed fringes acquired a...
The quality-guided algorithm is a method widely used in phase unwrapping. The algorithm uses a ...
The proposed method for phase unwrapping is based on a global analysis of the interferometrical phas...
An absolute phase estimation algorithm for interferometric applications is introduced. The approach ...
Phase unwrapping is one of the key steps of interferogram analysis, and its accuracy relies primaril...
We describe a new algorithm for phase determination from a single interferogram with closed fringes ...
Structured light scanning works by projecting over the scene a supplement of controlled information:...
A novel method to extract the phase values from a single pattern with closed and/or crossed fringes ...
In this paper we present a novel algorithm for phase unwrapping where only a subset of data from the...
Holographic interferometry (HI) techniques are powerful tools for experimental mechanics which can ...
In SAR interferometry, the periodicity of the phase must be removed using two-dimensional phase unwr...
International audienceWe introduce a new approach to wavefront phase reconstruction in Adaptive Opti...
Speckles appear as noisy steady light patterns caused by random phase disturbance of coherently prop...
We present a new technique for processing speckle interferometric data is presented, which uses the ...
Estimating the complex amplitude of a coherent optical wavefield is important in many metrology appl...
"We propose a method for analysing a sequence of noisy interferograms with closed fringes acquired a...
The quality-guided algorithm is a method widely used in phase unwrapping. The algorithm uses a ...
The proposed method for phase unwrapping is based on a global analysis of the interferometrical phas...
An absolute phase estimation algorithm for interferometric applications is introduced. The approach ...
Phase unwrapping is one of the key steps of interferogram analysis, and its accuracy relies primaril...
We describe a new algorithm for phase determination from a single interferogram with closed fringes ...
Structured light scanning works by projecting over the scene a supplement of controlled information:...
A novel method to extract the phase values from a single pattern with closed and/or crossed fringes ...
In this paper we present a novel algorithm for phase unwrapping where only a subset of data from the...
Holographic interferometry (HI) techniques are powerful tools for experimental mechanics which can ...
In SAR interferometry, the periodicity of the phase must be removed using two-dimensional phase unwr...
International audienceWe introduce a new approach to wavefront phase reconstruction in Adaptive Opti...
Speckles appear as noisy steady light patterns caused by random phase disturbance of coherently prop...
We present a new technique for processing speckle interferometric data is presented, which uses the ...
Estimating the complex amplitude of a coherent optical wavefield is important in many metrology appl...
"We propose a method for analysing a sequence of noisy interferograms with closed fringes acquired a...
The quality-guided algorithm is a method widely used in phase unwrapping. The algorithm uses a ...
The proposed method for phase unwrapping is based on a global analysis of the interferometrical phas...