Holographic interferometry (HI) techniques are powerful tools for experimental mechanics which can be used for displacement fields assessment on a loaded object surface. Used with no contact and high resolution HI can be combined with image processing methods for data analysis. In these techniques the speckle should be fully resolved by the image detector to record an interferogram. This leads to noisy recordings which makes it's post-processing much difficult. Each measurement with HI ends normally in a phase map computation representing the object displacement. Phase calculation algorithms are based on spatial or temporal phase modulation and lead to wrapped phase maps. To obtain the continuous phase distribution several solutions have been implemented. This paper describes the main filtering and unwrapping algorithms available and compares it's performance to solve discontinuities in noisy recordings.
[1]
M.J.T. Smith,et al.
Filter Bank Design
,
2009
.
[2]
Salah Karout,et al.
Two-dimensional phase unwrapping
,
2007
.
[3]
Jae S. Lim,et al.
Two-Dimensional Signal and Image Processing
,
1989
.
[4]
R. O. Smith.
Techniques and Analysis
,
1962
.
[5]
Qian Kemao,et al.
Windowed Fourier transform for fringe pattern analysis.
,
2004,
Applied optics.
[6]
Qian Kemao,et al.
Windowed Fourier transform for fringe pattern analysis: addendum.
,
2004,
Applied optics.
[7]
Stephan Waldner,et al.
A simple and effective method for filtering speckle-interferometric phase fringe patterns
,
1999
.