基于三频三相移的伽玛预校正及相位误差补偿方法

IF 1.8 4区物理与天体物理 Q3 OPTICS

International Journal of Optics Pub Date : 2021-09-21 DOI:10.1155/2021/8315101

Wei Feng, Shaojing Tang, Shinan Xu, Tong Qu, Daxing Zhao

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引用次数: 2

摘要

数字条纹投影测量技术已广泛应用于计算机视觉和光学三维测量中。考虑到伽马失真和非线性误差引起的相位误差，设计了基于三相移三频的有源伽马预校正和相位误差补偿方法，以反向求解初始相位，精确补偿相位误差。一方面，测量系统的伽马系数取决于对两组具有不同伽马系数的条纹序列进行预编码，以计算相应的谐波分量比例系数。另一方面，设计了相位误差补偿方法来补偿相位误差，提高伽玛校正后相位计算的准确性和速度。实验表明，所提出的预校准伽玛系数方法可以有效地将正弦误差降低近80%，只需要较少的条纹图案。与传统的三频四相移方法相比，该方法不仅具有更高的相位精度和更好的抗噪性，而且具有良好的鲁棒性和灵活性，不局限于伽马失真模型。

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Gamma Precorrection and Phase Error Compensation Methods Based on Three-Frequency with Three-Phase Shift

Digital fringe projection measurement technology has been widely used in computer vision and optical three-dimensional (3D) measurement. Considering the phase error caused by the gamma distortion and nonlinear error, the active gamma precorrection and phase error compensation methods based on the three-frequency with three-phase shifts are designed to reversely solve the initial phase and accurately compensate phase error. On the one hand, the gamma coefficient of the measurement system depends on precoding two groups of fringe sequences with different gamma coefficients to calculate the corresponded proportional coefficient of harmonic component. On the other hand, the phase error compensation method is designed to compensate the phase error and improve the accuracy and speed of phase calculation after gamma correction. Experiments show that the proposed precalibration gamma coefficient method can effectively reduce the sinusoidal error in nearly 80 percent which only needs fewer fringe patterns. Compared with the traditional three-frequency with four-phase shift method, the proposed method not only has higher phase accuracy and better noise resistance but also has good robustness and flexibility, which is not limited to the gamma distortion model.

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来源期刊

International Journal of Optics Physics and Astronomy-Atomic and Molecular Physics, and Optics

CiteScore

3.40

自引率

5.90%

发文量

审稿时长

13 weeks

期刊介绍： International Journal of Optics publishes papers on the nature of light, its properties and behaviours, and its interaction with matter. The journal considers both fundamental and highly applied studies, especially those that promise technological solutions for the next generation of systems and devices. As well as original research, International Journal of Optics also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.