Carrier removal is a key step in the Fourier transform method (FTM) of fringe pattern analysis because it can give rise to significant errors in the recovered phase. The existing methods of fringe carrier removal in the FTM are reviewed and a comparison of three different methods, translation of the sidelobe to the frequency origin, least-squares fit and subtraction of the phase of the undeformed carrier fringes, are presented. Computer-generated fringe patterns are used to determine the differences between the original and the retrieved phase distributions. Several figures of merit are proposed to assess the performance of the mentioned methods. Experimental fringe patterns, obtained by double-pulsed-subtraction TV holography, are analyzed...
This paper describes significant developments in methods for the automatic, quantitative analysis of...
Holographic interferometry is a method for analyzing the light scattered off the surface of material...
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...
Carrier removal is a key step in the Fourier transform method (FTM) of fringe pattern analysis becau...
In this paper we demonstrate the feasibility of impact-induced transient deformations measurement by...
The analysis of holointerferograms is hindered by the fact that they by themselves do not contain su...
Measurement techniques are powerful tools for obtaining properties of objects and recording their ch...
A carrier fringe technique for measuring surface deformation is described and verified by experiment...
The analysis of holointerferograms is complicated by the fact that holointerferograms by themselves ...
There exist several pulsed TV-holography techniques. Single pulse techniques give good fringe visibi...
This paper describes a holographic system based on the use of fibre optics and automatic spatial car...
The Fourier transform (FT) and the wavelet transform (WT) methods are used to process the fringe car...
Accurately extracting phase or phase derivative is the most important requirement in optical metrolo...
Phase retrieval from single frame projection fringe patterns, a fundamental and challenging problem ...
There are two main approaches to fringe pattern analysis: spatial carrier and temporal carrier. The ...
This paper describes significant developments in methods for the automatic, quantitative analysis of...
Holographic interferometry is a method for analyzing the light scattered off the surface of material...
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...
Carrier removal is a key step in the Fourier transform method (FTM) of fringe pattern analysis becau...
In this paper we demonstrate the feasibility of impact-induced transient deformations measurement by...
The analysis of holointerferograms is hindered by the fact that they by themselves do not contain su...
Measurement techniques are powerful tools for obtaining properties of objects and recording their ch...
A carrier fringe technique for measuring surface deformation is described and verified by experiment...
The analysis of holointerferograms is complicated by the fact that holointerferograms by themselves ...
There exist several pulsed TV-holography techniques. Single pulse techniques give good fringe visibi...
This paper describes a holographic system based on the use of fibre optics and automatic spatial car...
The Fourier transform (FT) and the wavelet transform (WT) methods are used to process the fringe car...
Accurately extracting phase or phase derivative is the most important requirement in optical metrolo...
Phase retrieval from single frame projection fringe patterns, a fundamental and challenging problem ...
There are two main approaches to fringe pattern analysis: spatial carrier and temporal carrier. The ...
This paper describes significant developments in methods for the automatic, quantitative analysis of...
Holographic interferometry is a method for analyzing the light scattered off the surface of material...
Optical interferometric techniques offer non-contact, high accuracy and full field measurement, whic...