A novel temporal phase-analysis technique that is based on wavelet analysis and a temporal carrier is presented. To measure displacement on a vibrating object by using electronic speckle pattern interferometry, one captures a series of speckle patterns, using a high-speed CCD camera. To avoid ambiguity in phase estimation, a temporal carrier is generated by a piezoelectric transducer stage in the reference beam of the interferometer. The intensity variation of each pixel on recorded images is then analyzed along the time axis by a robust mathematical tool, i.e., a complex Morlet wavelet t...
In many respects, speckle interferometry (SI) techniques are being considered as mature tools in the...
A simplified method for object phase recovering is implemented in temporal speckle pattern interfero...
Abstract: Recently a new method to measure object shape, deformation, and slope of deformation using...
Shearography is an optical technique allows direct measurement of deflection derivatives. This paper...
A new technique is presented, dynamic phase-shifting, which is based on a dedicated phase-shifting a...
A wavelet transform (WT) analysis is presented to obtain the deformation phases from the fringes wit...
A wavelet algorithm developed to improve metrology based on electronic s...
We test the performance of a phase recovery method based on a three-dimensional directional wavelet ...
The Fourier transform (FT) and the wavelet transform (WT) methods are used to process the fringe car...
A speckle interferometer which can measure whole field three-dimensional displacements continuously ...
A new technique based on digital shearography for determining the transient curvature and twist of a...
We propose an approach based on a 3D directional wavelet transform to retrieve optical phase distrib...
A temporal wavelet analysis method is proposed for velocity, displacement, and three-dimensional ...
In recent years, optical interferometry has been applied to whole-field, non-contact measurement of ...
This paper was published in [Applied Optics] and is made available as an electronic reprint with the...
In many respects, speckle interferometry (SI) techniques are being considered as mature tools in the...
A simplified method for object phase recovering is implemented in temporal speckle pattern interfero...
Abstract: Recently a new method to measure object shape, deformation, and slope of deformation using...
Shearography is an optical technique allows direct measurement of deflection derivatives. This paper...
A new technique is presented, dynamic phase-shifting, which is based on a dedicated phase-shifting a...
A wavelet transform (WT) analysis is presented to obtain the deformation phases from the fringes wit...
A wavelet algorithm developed to improve metrology based on electronic s...
We test the performance of a phase recovery method based on a three-dimensional directional wavelet ...
The Fourier transform (FT) and the wavelet transform (WT) methods are used to process the fringe car...
A speckle interferometer which can measure whole field three-dimensional displacements continuously ...
A new technique based on digital shearography for determining the transient curvature and twist of a...
We propose an approach based on a 3D directional wavelet transform to retrieve optical phase distrib...
A temporal wavelet analysis method is proposed for velocity, displacement, and three-dimensional ...
In recent years, optical interferometry has been applied to whole-field, non-contact measurement of ...
This paper was published in [Applied Optics] and is made available as an electronic reprint with the...
In many respects, speckle interferometry (SI) techniques are being considered as mature tools in the...
A simplified method for object phase recovering is implemented in temporal speckle pattern interfero...
Abstract: Recently a new method to measure object shape, deformation, and slope of deformation using...