强度-曲率函数的脉冲传递函数:在人脑磁共振血管造影中的应用

IF 2.4 Q2 ENGINEERING, MULTIDISCIPLINARY Innovation and Emerging Technologies Pub Date : 2022-01-01 DOI:10.1142/s2737599422500013
Carlo Ciulla
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引用次数: 0

摘要

本文报道了强度曲率泛函(ICF)高通滤波特性的附加证据。人脑磁共振血管造影(MRA)用于计算其ICF。MRA和ICF是直接的z变换。ICF的脉冲传递函数(PTF)定义为ICF的z -空间与MRA的z -空间之比的z -逆变换。对PTF的图像空间进行直接的z变换。通过对ICF的z空间与PTF的z空间之比进行反z变换,重构MRA。MRA重建证明了近似方法的正确性,并为ICF是高通滤波器的假设增加了证据。本研究提供了两个新颖之处:(1)ICF是高通滤波器的额外证据;(2)一种医学图像处理技术证明了高通滤波器(ICF)的PTF可以通过ICF的z空间与MRA的z空间之比来近似。因此,可以利用ICF的z -空间与PTF的z -空间之比的z -逆变换来重建MRA。
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Pulse-transfer function of the intensity-curvature functional: Applications in magnetic resonance angiography of the human brain
This paper reports additional evidence of the high-pass filtering properties of the intensity-curvature functional (ICF). Magnetic resonance angiography (MRA) of the human brain is used to calculate its ICF. MRA and ICF are direct Z-transformed. The pulsetransfer function (PTF) of the ICF is defined as the inverse Z-transform of the ratio between Z-space of ICF and Z-space of MRA. The image space of PTF is calculated and is direct Z-transformed. MRA is reconstructed through inverse Z-transform of the ratio between Z-space of ICF and Z-space of PTF. MRA reconstruction proves correctness of the approximated approach and adds evidence to the assumption that ICF is a high-pass filter. This research provides two novelties: (1) additional evidence that ICF is a high-pass filter and (2) a medical image processing technique that proves correct that the PTF of a high-pass filter (ICF) can be approximated by the ratio between Z-space of ICF and Z-space of MRA. It follows that MRA can be reconstructed using the inverse Z-transform of the ratio between Z-space of ICF and Z-space of PTF.
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