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Anti-aliasing phase reconstruction via a non-uniform phase-shifting technique

Huijie Zhu, Hongwei Guo

2022Optics Express32 citationsDOIOpen Access PDF

Abstract

The conventional phase-shifting techniques commonly suffer from frequency aliasing because of their number of phase shifts below the critical sampling rate. As a result, fringe harmonics induce ripple-like artifacts in their reconstructed phase maps. For solving this issue, this paper presents an anti-aliasing phase-measuring technique. Theoretical analysis shows that, with phase-shifting, the harmonics aliased with the fundamental frequency component of a fringe signal depend on the greatest common divisor (GCD) of the used phase shifts. This fact implies a possibility of removing such aliasing effects by selecting non-uniform phase shifts that together with 2π have no common divisors. However, even if we do so, it remains challenging to separate harmonics from the fundamental fringe signals, because the systems of equations available from the captured fringe patterns are generally under-determined, especially when the number of phase shifts is very few. To overcome this difficulty, we practically presume that all the points over the fringe patterns have an identical characteristic of harmonics. Under this constraint, using an alternate iterative least-squares fitting procedure allows us to estimate the fringe phases and the harmonic coefficients accurately. Simulation and experimental results demonstrate that this proposed method enables separating high order harmonics from as few as 4 fringe patterns having non-uniform phase shifts, thus significantly suppressing the ripple-like phase errors caused by the frequency aliasing.

Topics & Concepts

HarmonicsAliasingOpticsPhase (matter)HarmonicFundamental frequencySampling (signal processing)AlgorithmFourier transformSIGNAL (programming language)PhysicsHarmonic analysisInterpolation (computer graphics)Computer sciencePhase distortionFourier analysisPhase modulationStructured-light 3D scannerFourier seriesGreatest common divisorIterative methodPhase retrievalSignal processingHigh harmonic generationComponent (thermodynamics)Optical measurement and interference techniquesStructural Health Monitoring TechniquesUltrasonics and Acoustic Wave Propagation
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