A two-level space-time color-coding method for 3D measurements using structured light

Qi Xue; Zhao Wang; Junhui Huang; Jianmin Gao; Zhaoshuai Qi

doi:10.1088/0957-0233/26/11/115204

A two-level space-time color-coding method for 3D measurements using structured light

Qi Xue, Zhao Wang, Junhui Huang, Jianmin Gao, Zhaoshuai Qi

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Color-coding methods have significantly improved the measurement efficiency of structured light systems. However, some problems, such as color crosstalk and chromatic aberration, decrease the measurement accuracy of the system. A two-level space-time color-coding method is thus proposed in this paper. The method, which includes a space-code level and a time-code level, is shown to be reliable and efficient. The influence of chromatic aberration is completely mitigated when using this method. Additionally, a self-adaptive windowed Fourier transform is used to eliminate all color crosstalk components. Theoretical analyses and experiments have shown that the proposed coding method solves the problems of color crosstalk and chromatic aberration effectively. Additionally, the method guarantees high measurement accuracy which is very close to the measurement accuracy using monochromatic coded patterns.

Original language	English
Article number	115204
Journal	Measurement Science and Technology
Volume	26
Issue number	11
DOIs	https://doi.org/10.1088/0957-0233/26/11/115204
State	Published - 16 Oct 2015
Externally published	Yes

Keywords

3D measurement
chromatic aberration
color crosstalk
color-coding method
self-adaptive windowed Fourier transform
structured light

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10.1088/0957-0233/26/11/115204

Cite this

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title = "A two-level space-time color-coding method for 3D measurements using structured light",

abstract = "Color-coding methods have significantly improved the measurement efficiency of structured light systems. However, some problems, such as color crosstalk and chromatic aberration, decrease the measurement accuracy of the system. A two-level space-time color-coding method is thus proposed in this paper. The method, which includes a space-code level and a time-code level, is shown to be reliable and efficient. The influence of chromatic aberration is completely mitigated when using this method. Additionally, a self-adaptive windowed Fourier transform is used to eliminate all color crosstalk components. Theoretical analyses and experiments have shown that the proposed coding method solves the problems of color crosstalk and chromatic aberration effectively. Additionally, the method guarantees high measurement accuracy which is very close to the measurement accuracy using monochromatic coded patterns.",

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AU - Xue, Qi

AU - Wang, Zhao

AU - Huang, Junhui

AU - Gao, Jianmin

AU - Qi, Zhaoshuai

PY - 2015/10/16

Y1 - 2015/10/16

N2 - Color-coding methods have significantly improved the measurement efficiency of structured light systems. However, some problems, such as color crosstalk and chromatic aberration, decrease the measurement accuracy of the system. A two-level space-time color-coding method is thus proposed in this paper. The method, which includes a space-code level and a time-code level, is shown to be reliable and efficient. The influence of chromatic aberration is completely mitigated when using this method. Additionally, a self-adaptive windowed Fourier transform is used to eliminate all color crosstalk components. Theoretical analyses and experiments have shown that the proposed coding method solves the problems of color crosstalk and chromatic aberration effectively. Additionally, the method guarantees high measurement accuracy which is very close to the measurement accuracy using monochromatic coded patterns.

AB - Color-coding methods have significantly improved the measurement efficiency of structured light systems. However, some problems, such as color crosstalk and chromatic aberration, decrease the measurement accuracy of the system. A two-level space-time color-coding method is thus proposed in this paper. The method, which includes a space-code level and a time-code level, is shown to be reliable and efficient. The influence of chromatic aberration is completely mitigated when using this method. Additionally, a self-adaptive windowed Fourier transform is used to eliminate all color crosstalk components. Theoretical analyses and experiments have shown that the proposed coding method solves the problems of color crosstalk and chromatic aberration effectively. Additionally, the method guarantees high measurement accuracy which is very close to the measurement accuracy using monochromatic coded patterns.

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KW - chromatic aberration

KW - color crosstalk

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KW - self-adaptive windowed Fourier transform

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A two-level space-time color-coding method for 3D measurements using structured light

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Keywords

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