Novel Deconvolution of Noisy Gaussian Filters with a Modified Hermite Expansion

Konstantopoulos C., Hohlfeld R., Sandri G.
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引用次数: 1

Abstract

We have shown (J. Appl. Phys., 1990, 1415-1420) that deconvolving an image which was blurred by a Gaussian filter is equivalent to antidiffusing the image for an appropriate duration of time. However, the antidiffusion algorithm used to show this, based on backward integration of the diffusion equation, is extremely sensitive to noise with numerical errors increasing exponentially with time. Thus, an extremely high signal to noise ratio is required for reconstruction of a blurred image via antidiffusion. In this paper, we introduce a new antidiffusion algorithm which is substantially more robust with respect to noise. This is because each functional component in the series of the reconstructed image is obtained analytically from a corresponding component of the blurred image. We show that the algorithm yields accurate reconstructions of Gaussian-smeared signals and images with extremely low signal to noise ratios.

基于改进Hermite展开的高斯滤波器反卷积算法
我们已经证明了(J.阿普尔)。理论物理。[j], 1990, 1415-1420),对经过高斯滤波器模糊的图像进行反卷积相当于在适当的时间内对图像进行反扩散。然而,用于显示这一点的反扩散算法基于扩散方程的后向积分,对噪声非常敏感,数值误差随时间呈指数增长。因此,通过反扩散重建模糊图像需要极高的信噪比。在本文中,我们引入了一种新的反扩散算法,它对噪声具有更强的鲁棒性。这是因为重构图像序列中的每个功能分量都是从模糊图像的对应分量解析得到的。我们表明,该算法产生精确的重建高斯涂抹信号和图像具有极低的信噪比。
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