Open AccessTwo-step phase shifting in fringe projection: modeling and analysis
Author(s) -
Yongkai Yin,
Jiaqi Mao,
Xiangfeng Meng,
Xiulun Yang,
Lei Lü,
Dechun Li,
Eduard Reithmeier,
Christian Pape
Publication year - 2018
Publication title -
institutional repository of leibniz universität hannover (leibniz universität hannover)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1117/12.2306641
Subject(s) - structured light 3d scanner , profilometer , projection (relational algebra) , phase (matter) , compensation (psychology) , optics , line (geometry) , structured light , projection method , mathematics , absolute phase , computer science , algorithm , dykstra's projection algorithm , geometry , physics , psychology , quantum mechanics , surface roughness , psychoanalysis
This work proposes a two-step phase-shifting algorithm as an improvement of fringe projection profilometry. Considering the working process of fringe projection, the captured fringe image is formulated with two variables, i.e. surface reflectivity and phase value. And a phase shift of 3π/2 is introduced to get the two-step phase-shifting. After appropriate variable substitution, expressions of two fringe images can be transformed into two equations corresponding to a line and a circle respectively. With this circle-line model, the characteristic of solution and the phase error due to non-zero ambient light are analyzed. Then the approach of error compensation is proposed based on estimation of the real fringe contrast and non-linear least square optimization. The validity of the proposed approach is demonstrated with both simulations and experiments.
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