Abstract
This paper presents several practical techniques for processing and analyzing speckled fringe patterns. Speckle averaging by known phase shifts or random phase changes is used to acquire quality fringe patterns. Speckle location rearranging is employed to tolerate rigid body motion and speckle rearranging in phase gives enhanced speckle fringe patterns. A simple recursive filter is designed to further suppress speckle noise and an iteration algorithm applied to reconstruct quality fringe patterns. A digital Fourier transformation is utilized to process and analyze carrier like fringe patterns. A computer generated carrier combined with a reconstruction technique is developed to eliminate speckle noise. Combined use of the techniques optimize the results. The techniques and applications are described.
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