Self-correction of fringe order jump error induced by system nonlinearity based on phase-coding method

IF 1.1 4区 物理与天体物理 Q4 OPTICS Optical Review Pub Date : 2023-06-24 DOI:10.1007/s10043-023-00825-9
Ze-Bo Wu, Wei Tao, Na Lv, Hui Zhao
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Abstract

Temporal phase unwrapping based on phase-encoding is a technique widely used in 3D measurement for its high-speed advantage. However, eliminating fringe order jump error induced by the system’s luminance nonlinearity is still a key challenge. We propose a fringe order jump error self-correction method to address this issue. First, we encode the shifting phase and stair phase separately and combine them into the same pattern based on four-step phase shifting. This allows us to calculate the fringe order and wrapped phase simultaneously and avoid the overlapping of two set phases. Then, we add auxiliary patterns to obtain information on the order-located period’s odd-evenness characteristic. Theoretically, we demonstrate that under the influence of the nonlinear effect, the order calculation value for a particular period fluctuates between the ideal values of two adjacent orders. Thus, the correct order value can be directly determined by acquiring the period characteristic information, without the need for complex error compensation. Simulations demonstrate that the method performs good robustness where random noise and luminance saturation exist simultaneously in addition to system nonlinearity. Our experiments confirm the effectiveness of this method for high-accurate and fast fringe order determination.

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基于相位编码的系统非线性条纹阶跃误差自校正
基于相位编码的时序相位展开技术以其高速的优点在三维测量中得到了广泛的应用。然而,消除由系统亮度非线性引起的条纹阶跃误差仍然是一个关键的挑战。我们提出了一种边缘阶跃误差自校正方法来解决这个问题。首先,我们分别对移动相位和阶梯相位进行编码,并基于四步相移将它们组合成相同的模式。这使我们能够同时计算条纹阶数和包裹相位,避免了两个固定相位的重叠。然后,我们加入辅助模式来获取定位周期的奇偶特征信息。从理论上证明了在非线性效应的影响下,特定周期的阶数计算值在两个相邻阶数的理想值之间波动。因此,可以通过获取周期特征信息直接确定正确的阶数值,而无需进行复杂的误差补偿。仿真结果表明,该方法在随机噪声和亮度饱和同时存在以及系统非线性的情况下具有良好的鲁棒性。实验结果表明,该方法能够高精度、快速地确定条纹阶数。
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来源期刊
Optical Review
Optical Review 物理-光学
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
2 months
期刊介绍: Optical Review is an international journal published by the Optical Society of Japan. The scope of the journal is: General and physical optics; Quantum optics and spectroscopy; Information optics; Photonics and optoelectronics; Biomedical photonics and biological optics; Lasers; Nonlinear optics; Optical systems and technologies; Optical materials and manufacturing technologies; Vision; Infrared and short wavelength optics; Cross-disciplinary areas such as environmental, energy, food, agriculture and space technologies; Other optical methods and applications.
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