We describe a new algorithm for phase determination from a single interferogram with closed fringes based on an unwrapping procedure. Here we use bandpass filtering in the Fourier domain, obtaining two wrapped phases with sign changes corresponding to the orientation of the applied filters. An unwrapping scheme that corrects the sign ambiguities by comparing the local derivatives is then proposed. This can be done, assuming that the phase derivatives do not change abruptly among adjacent areas as occurs with smooth continuous phase maps. The proposed algorithm works fast and is robust against noise, as demonstrated in experimental and simulated data. © 2010 Optical Society of America
This paper presents a method for fringe pattern analysis with those characteristic
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...
To date, no phase-shifting method can accurately retrieve the phase map from a small set of noisy in...
We describe a new algorithm for phase determination from a single interferogram with closed fringes ...
An algorithm for phase determination from a single interferogram with closed fringes using Fourier t...
A novel method to extract the phase values from a single pattern with closed and/or crossed fringes ...
A new technique for the phase gradient estimation encoded in a single interferogram is proposed. The...
Phase unwrapping algorithms have widely been studied and implemented with efforts aimed at unwrappin...
Phase "extraction" by using temporal phase shifting is sensitive to vibrations and drifts, producing...
In order to decrease the noise enhancement in the process of phase unwrapping, we present a new phas...
In an optical measurement system using an interferometer, a phase extracting technique from interfer...
In the digital holographic measurement of complex surfaces, phase unwrapping is a critical step for ...
This poster presents an approach based on the Split-Band Interferometry to solve the ambiguities int...
The interferometry technique is corn commonly used to obtain the phase information of an object in o...
This research exposes the foundations of optical metrology which occupies one of the most important ...
This paper presents a method for fringe pattern analysis with those characteristic
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...
To date, no phase-shifting method can accurately retrieve the phase map from a small set of noisy in...
We describe a new algorithm for phase determination from a single interferogram with closed fringes ...
An algorithm for phase determination from a single interferogram with closed fringes using Fourier t...
A novel method to extract the phase values from a single pattern with closed and/or crossed fringes ...
A new technique for the phase gradient estimation encoded in a single interferogram is proposed. The...
Phase unwrapping algorithms have widely been studied and implemented with efforts aimed at unwrappin...
Phase "extraction" by using temporal phase shifting is sensitive to vibrations and drifts, producing...
In order to decrease the noise enhancement in the process of phase unwrapping, we present a new phas...
In an optical measurement system using an interferometer, a phase extracting technique from interfer...
In the digital holographic measurement of complex surfaces, phase unwrapping is a critical step for ...
This poster presents an approach based on the Split-Band Interferometry to solve the ambiguities int...
The interferometry technique is corn commonly used to obtain the phase information of an object in o...
This research exposes the foundations of optical metrology which occupies one of the most important ...
This paper presents a method for fringe pattern analysis with those characteristic
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...
To date, no phase-shifting method can accurately retrieve the phase map from a small set of noisy in...