基于方向图变换的快速不连续相位展开

Fast discontinuous phase unwrapping based on orientation diagram transformation

  • 摘要: 几何突变导致的相位不连续一直是相位展开中具有挑战的问题。针对这一问题,提出基于方向与变换的快速不连续相位展开算法。在提出的算法中,利用图像的结构张量估计包裹相位图的方向,将方向图进行变换和差分计算得到的可靠的权重系数图作为加权最小二乘法的权重,并使用预处理共轭梯度法迭代求解。该算法可以快速地找出不连续位置,并在不连续分割后的区域进行单独的相位展开,具有很好的识别和展开效果。详细地描述了算法的原理和实现步骤,并对算法进行仿真和实验数据验证。实验结果表明:其相位展开的均方根误差为0.36,证明该算法能够快速、准确地对不连续的包裹相位进行展开。

     

    Abstract: The phase discontinuity caused by the geometric mutation has always been a challenging problem in phase unwrapping. To solve this problem, a fast discontinuous phase unwrapping algorithm based on orientation and transformation was proposed. In the proposed algorithm, the structure tensor of the image was used to estimate the orientation of the wrapped phase diagram. The reliable weight coefficient diagram obtained from transformation and difference calculation of the orientation diagram was taken as the weight of the weighted least square method, and used the preprocessed conjugate gradient method to solve iteratively. This algorithm could quickly find the discontinuous regions, and performed a separate phase unwrapping in the discontinuous regions, which had good recognition and unwrapping effect. The principle and implementation steps of the algorithm were described in detail, and the algorithm was verified by simulation and experimental data. The experimental results show that the root mean square error of phase unwrapping is 0.36, which proves that this algorithm can quickly and accurately unwrap the discontinuous wrapped phase.

     

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