一种基于蒙特卡罗的变分辨率x射线CT模拟新方法:系统预采样MTF的测量

Hossein ARABI, A. K. Asl
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引用次数: 2

摘要

本工作的目的是测量变分辨率x射线(VRX) ct扫描仪的系统预采样MTF。本文利用实际VRX CTscanner的参数进行仿真,研究了不同焦斑大小对系统预采样MTF的影响。焦斑尺寸为0.6 mm,限制了系统在入射角低于170度时的空间分辨率为5.5 cy/mm。当焦斑尺寸为0.3 mm时,空间分辨率提高到11 cy/mm,在入射角小于90°时,焦斑尺寸的限制效应出现。0.3mm的焦斑尺寸可以在一定程度上提高空间分辨率,但由于放大倍率的不均匀性,1号单元与256号单元的空间分辨率相差10 cy/mm。0.1 mm的焦斑尺寸作为该系统的理想点源。空间分辨率增加到35 cy/mm以上,在所有入射角下,空间分辨率都是入射角的函数。通过该方法,焦点光斑尺寸为0.1 mm,最大限度地减少了放大倍率不均匀性的影响。
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A Novel Method Based on Monte Carlo for Simulation of Variable Resolution X-ray CT Scanner: Measurement of System Presampling MTF
The purpose of this work is measurement of the system presampling MTF of a variable resolution x-ray (VRX) CT scanner. In this paper, we used the parameters of an actual VRX CT scanner for simulation and study of effect of different focal spot sizes on system presampling MTF by Monte Carlo method (GATE simulation software). Focal spot size of 0.6 mm limited the spatial resolution of the system to 5.5 cy/mm at incident angles of below 17o for cell#1. By focal spot size of 0.3 mm the spatial resolution increased up to 11 cy/mm and the limiting effect of focal spot size appeared at incident angles of below 9o. The focal spot size of 0.3 mm could improve the spatial resolution to some extent but because of magnification non-uniformity, there is a 10 cy/mm difference between spatial resolution of cell#1 and cell#256. The focal spot size of 0.1 mm acted as an ideal point source for this system. The spatial resolution increased to more than 35 cy/mm and at all incident angles the spatial resolution was a function of incident angle. By the way focal spot size of 0.1 mm minimized the effect of magnification nonuniformity.
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