SPECT二次方向导数边界检测方法的比较

IEEE Conference on Nuclear Science Symposium and Medical Imaging Pub Date : 1992-10-25 DOI:10.1109/NSSMIC.1992.301076

T. Pan, M. Gennert, J. Gauch, M. King

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引用次数: 7

摘要

作者研究了三种计算第二方向导数(SDD)算子的图像导数的方法，M.A. Gennert等人(1991)已经证明了这一点，以提高体积定量的准确性。这三种方法分别是Zucker-Hummel有限脉冲响应(ZH-FIR)滤波、Monga-Deriche有限脉冲响应(MD-IIR)滤波和高斯导数傅里叶变换(GD-FT)法。当应用于一组球形源的模拟图像时，这三种方法产生了非常相似的体积。采用插值背景减法技术，可以显著提高低对比度球的定量精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comparison of second directional derivative boundary detection methods for SPECT

The authors investigate three methods of calculating the derivative of an image for the second directional derivative (SDD) operator, which has been shown by M.A. Gennert et al. (1991) to provide improved accuracy of volume quantitation. The three methods are Zucker-Hummel finite-impulse-response (ZH-FIR) filtering, Monga-Deriche finite-impulse-response (MD-IIR) filtering, and the Gaussian-derivative Fourier transform (GD-FT) method. The three methods resulted in very similar volumes when applied to the simulated images of a set of spherical sources. It is also found that, by using an interpolative background subtraction technique, the quantitation accuracy of the low-contrast spheres can be significantly improved.<>

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IEEE Conference on Nuclear Science Symposium and Medical Imaging

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