基于相位线性展开的波前误差检测与图像复原
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Wavefront phase error detection and image restoration based on linear expansion
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    摘要:

    随着对分辨率需求的日益增加,合成孔径光学系统在空间观测领域占据越来越重要的地位,而其各子境的共焦共相成为制约其应用的主要因素,传统位相相异方法能够进行波前误差检测,但其目标函数结构复杂、精度低且计算复杂度高,因此不能满足实际需要。利用Zernike多项式的性质,通过构建位相相异模型,并对相位进行一阶泰勒展开,求解最小二乘问题以替代计算非线性优化问题,在波前误差较小的情况下可以准确恢复波前相位。实验证明,经过矫正后的相位误差优于1/60λ,同时能获得较好的图像复原结果。

    Abstract:

    With the increasing demand of the resolution, synthetic aperture optical system is more and more important in the field of space observations, the cophase of its sub exit has become the main factor that restricts its application, the traditional phase diversity method can detect wavefront error, but the complex structure of objective function, low precision and high computational complexity do not meet the practical needs. In this paper, we construct the phase diversity model by using the properties of Zernike polynomials, expand the phase by first order Taylor series and solve least squares problems to replace the nonlinear optimization problem. When the wavefront error is small this method can accurately recover the wavefront phase. Experiments show that the method can correct the phase error better than 1/60λ and achieve satisfactory image restoration results.

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武国梁,王刚,齐荔荔,王磊.基于相位线性展开的波前误差检测与图像复原[J].电子测量技术,2015,38(5):50-52

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  • 在线发布日期: 2015-06-05
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