Active phase error suppression for color phase-shifting fringe projection based on hue pre-correction

•Active phase error suppression method based on hue pre-correction is proposed.•Theoretical analysis of the phase error considering the nonlinearity of the camera is performed.•Combined effect of the nonlinearity and color crosstalk of the projector-camera system is reduced.•The method is promising...

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Bibliographic Details
Published in:Optics and laser technology 2019-10, Vol.118, p.102-108
Main Authors: Wan, Yingying, Cao, Yiping, Chen, Cheng, Wang, Yapin, Fu, Guangkai, Wang, Lu, Li, Chengmeng
Format: Article
Language:English
Subjects:
Algorithms
Cameras
Color
Color crosstalk
Color phase-shifting
Crosstalk
Error analysis
Error correction
Hue pre-correction
Measurement techniques
Nonlinearity
Phase error
Phase error suppression
Projection
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Summary:•Active phase error suppression method based on hue pre-correction is proposed.•Theoretical analysis of the phase error considering the nonlinearity of the camera is performed.•Combined effect of the nonlinearity and color crosstalk of the projector-camera system is reduced.•The method is promising to measure dynamic objects with single-shot image. Color phase-shifting fringe projection is one of the single-shot three-dimensional shape measurement techniques based on fringe projection profilometry. In practice, the nonlinearity and color crosstalk of the projector-camera system yield undesired phase errors when using phase-shifting algorithm. In this paper, an active phase error suppression method based on hue pre-correction is proposed. Theoretical analysis of phase error is performed taking account of the gamma nonlinearity of the camera. Based on the analysis, the distortion of hue component of the acquired color fringe pattern is employed to represent the overall phase error induced by the combined effect of nonlinearity and color crosstalk. In this method, the hue is pre-corrected to be linear by measuring the function of the combined effect and modifying the computer-generated hue according to the source-distorted relationship. Then, the new modified color fringe pattern can be generated and saved for the further measurement of objects. Experimental results demonstrate the feasibility of the proposed method and it can effectively suppress the induced overall phase error caused by the nonlinearity and color crosstalk of the projector-camera system.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2019.05.014