A zero-crossing-based optimal three-dimensional edge detector

Shiming Zhan, R. Mehrotra
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引用次数: 18

Abstract

Abstract Three-dimensional (3D) image processing and interpretation is very important in many medical and industrial applications. Detection of 3D boundaries is an essential step in most of the 3D image analysis tasks. In this paper a new computational approach to 3D edge detection is proposed. Optimality criteria such as signal-to-noise ratio, localization, and spurious response for zero-crossing-based, rotationally invariant 3D step edge detectors are derived. An optimal 3D step edge detector is obtained by optimizing a penalty function which combines all the three criteria. The closed form solution to the optimization problem yields the optimal detector. The detector is the Laplacian of a rotationally invariant function, which has a finite spatial support. The behavior of the proposed detector is theoretically analyzed and compared to that of the 3D Laplacian of Gaussian detector. Experimental results with some synthetic and real images are presented.
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基于零交叉的最优三维边缘检测器
三维(3D)图像处理和解释在许多医疗和工业应用中非常重要。在大多数三维图像分析任务中,三维边界检测是必不可少的一步。本文提出了一种新的三维边缘检测计算方法。优化标准,如信噪比,定位和杂散响应的零交叉为基础,旋转不变的三维阶跃边缘检测器导出。通过对三个准则结合的罚函数进行优化,得到了最优的三维阶跃边缘检测器。优化问题的封闭解产生最优检测器。检测器是具有有限空间支持的旋转不变函数的拉普拉斯算子。从理论上分析了该探测器的性能,并与三维拉普拉斯高斯探测器的性能进行了比较。给出了合成图像和真实图像的实验结果。
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