Single shot fringe pattern phase demodulation using Hilbert-Huang transform aided by the principal component analysis

Optics Express
Maciej TrusiakKrzysztof Patorski

Abstract

Hybrid single shot algorithm for accurate phase demodulation of complex fringe patterns is proposed. It employs empirical mode decomposition based adaptive fringe pattern enhancement (i.e., denoising, background removal and amplitude normalization) and subsequent boosted phase demodulation using 2D Hilbert spiral transform aided by the Principal Component Analysis method for novel, correct and accurate local fringe direction map calculation. Robustness to fringe pattern significant noise, uneven background and amplitude modulation as well as local fringe period and shape variations is corroborated by numerical simulations and experiments. Proposed automatic, adaptive, fast and comprehensive fringe analysis solution compares favorably with other previously reported techniques.

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Citations

Sep 11, 2019·Applied Optics·Haixia WangLi Jiang
Sep 16, 2016·Optics Letters·Maciej TrusiakKrzysztof Patorski
Aug 10, 2016·Optics Express·Chao Tian, Shengchun Liu
Sep 13, 2019·Optics Express·Maria CywińskaKrzysztof Patorski
Mar 1, 2018·Optics Letters·José Ángel Picazo-BuenoVicente Micó
Sep 16, 2019·Journal of Biomedical Optics·Maciej TrusiakVicente Mico

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