一种用于OCT图像斑点噪声降低的两步滤波机制

Xiaojun Yu, Chenkun Ge, Zixuan Fu, Muhammad Zulkifal Aziz, Linbo Liu
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引用次数: 3

摘要

光学相干层析成像(OCT)以其非侵入性和高分辨率的特点被广泛应用于各个领域。然而,由于OCT具有低相干干涉性质,因此不可避免地存在散斑噪声,散斑噪声隐藏了OCT图像中的结构信息,从而降低了临床诊断的准确性。目前已经提出了各种OCT散斑去噪算法,但很少有研究评估散斑噪声分布对去噪效果的影响。本文研究了散斑噪声分布对OCT去斑过程的影响,提出了一种两步滤波机制,即增广拉格朗日函数最小化和瑞利alpha-trim滤波(AR)方案。首先建立和估计散斑噪声分布模型,然后分别针对这些散斑噪声分布设计了两种不同的滤波机制。用合成图像和OCT图像进行了仿真,验证了AR方案的有效性。结果表明,AR方法可以有效抑制OCT散斑噪声,在不同情况下优于现有的最佳方法,且计算时间更少。
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A two-step filtering mechanism for speckle noise reduction in OCT images
Optical coherence tomography (OCT) has been widely adopted in various areas for its noninvasive and high-resolution properties. Due to it low-coherence interferometry nature, however, OCT inevitably suffers from speckle noise, which hides structural information in OCT images and thus degrades the clinical diagnosis accuracy. So far various algorithms have been proposed for OCT speckle denoising, yet few studies have evaluated the influences of speckle noise distributions on the denoising effects. This paper studies the influences of speckle noise distributions in OCT despeckling process, and a twostep filtering mechanism, namely, Augmented Lagrange function minimization and Rayleigh alpha-trimmed filtering (AR) scheme, is proposed for OCT speckle noise reductions. The speckle noise distribution models are established and estimated first, and then two different filtering mechanisms are designed for those noise distributions, respectively. Simulations with both synthetic and OCT images are conducted to verify the effectiveness of the AR scheme. Results show that AR method can suppress OCT speckle noises effectively, and outperforms the best existing methods in different cases, yet with less time computations.
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