Md Motaleb Hossen Manik, William Muldowney, Md Zabirul Islam, Ge Wang
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引用次数: 0
Abstract
Computed tomography (CT) is a powerful imaging modality widely used in medicine, research, and industry for noninvasive visualization of internal structures. However, conventional CT systems rely on X-rays, which involve radiation exposure, high equipment costs, and complex regulatory requirements, making them unsuitable for educational or low-resource settings. To address these limitations, we developed a compact, low-cost, optically emulated CT scanner that uses visible light to image semi-transparent specimens. The system consists of a rotating stage enclosed within a light-isolated box, backlight illumination, and a fixed digital single-lens reflex camera. A Teensy 2.0 microcontroller regulates the rotation of the stage, while MATLAB is used to process the captured images using the inverse Radon transform and visualize the reconstructed volume using the Volumetric 3D MATLAB toolbox. Experimental results using a lemon slice demonstrate that the scanner can resolve internal features such as the peel, pulp, and seeds in both 2D and 3D renderings. This system offers a safe and affordable platform for demonstrating CT principles, with potential applications in education, industrial inspection, and visual computing.
计算机断层扫描(CT)是一种强大的成像方式,广泛应用于医学、研究和工业中,用于内部结构的无创可视化。然而,传统的CT系统依赖于x射线,这涉及到辐射暴露、高设备成本和复杂的监管要求,使其不适合教育或低资源环境。为了解决这些限制,我们开发了一种紧凑、低成本、光学模拟的CT扫描仪,它使用可见光对半透明标本进行成像。该系统由一个封闭在光隔离盒内的旋转舞台、背光照明和一个固定的数字单镜头反光相机组成。一个Teensy 2.0微控制器调节舞台的旋转,而MATLAB使用反Radon变换对捕获的图像进行处理,并使用Volumetric 3D MATLAB工具箱将重建的体积可视化。使用柠檬切片的实验结果表明,扫描仪可以在2D和3D渲染中解析内部特征,如果皮,果肉和种子。该系统为演示CT原理提供了一个安全且经济实惠的平台,在教育、工业检测和视觉计算方面具有潜在的应用前景。
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