A novel multi-view X-ray digital imaging stitching algorithm.

IF 1.7 3区 医学 Q3 INSTRUMENTS & INSTRUMENTATION
Yang Kang, Rui Wu, Sen Wu, Kun Cao, Tingting Tan, Yingrui Li, Gangqiang Zha
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引用次数: 1

Abstract

Background: In fan beam X-ray imaging applications, several X-ray images sometimes need to be stitched together into a panoramic image because of the size limitations of the detector.

Objective: This study aims to propose a novel multi-view X-ray digital imaging stitching algorithm (MVS) based on the CdZnTe photon counting linear array detectors to solve the problem of fan beam X-ray stitching deformation.

Methods: The panoramic image is generated in four steps including (1) multi-view projection data acquisition, (2) overlapping positioning, (3) weighted fusion and (4) projected pixel value calculation. Images of a globe and foot are scanned by fan beam X-rays and a CdZnTe detector. The proposed method is applied to stitch together the scanned images of the globe. Three other methods are also used for comparison. Finally, this MVS algorithm is also used in the stitching of scanned images of the foot.

Results: Compared with the 50% stitching accuracy of other methods, the new MVS algorithm reached a stitching accuracy of 94.4%. Image distortion on the globe and feet is also eliminated and thus image quality is significantly improved.

Conclusions: This study proposes a new multi-view X-ray digital imaging stitching algorithm. Study results demonstrate the superiority of this new algorithm and its feasibility in practical applications.

一种新的多视点x射线数字成像拼接算法。
背景:在扇束x射线成像应用中,由于探测器的尺寸限制,有时需要将多个x射线图像拼接在一起形成全景图像。目的:提出一种基于CdZnTe光子计数线阵探测器的多视点x射线数字成像拼接算法(MVS),解决扇形束x射线拼接变形问题。方法:全景图像的生成分为四个步骤:(1)多视图投影数据采集,(2)重叠定位,(3)加权融合,(4)投影像素值计算。球体和脚部的图像由扇形x射线束和CdZnTe探测器扫描。将该方法应用于地球扫描图像的拼接。另外三种方法也用于比较。最后,将该算法应用于足部扫描图像的拼接。结果:与其他方法50%的拼接精度相比,新的MVS算法的拼接精度达到了94.4%。同时消除了地球和脚上的图像失真,从而显著提高了图像质量。结论:本研究提出了一种新的多视点x线数字成像拼接算法。研究结果证明了该算法的优越性和在实际应用中的可行性。
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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来源期刊
CiteScore
4.90
自引率
23.30%
发文量
150
审稿时长
3 months
期刊介绍: Research areas within the scope of the journal include: Interaction of x-rays with matter: x-ray phenomena, biological effects of radiation, radiation safety and optical constants X-ray sources: x-rays from synchrotrons, x-ray lasers, plasmas, and other sources, conventional or unconventional Optical elements: grazing incidence optics, multilayer mirrors, zone plates, gratings, other diffraction optics Optical instruments: interferometers, spectrometers, microscopes, telescopes, microprobes
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