一种基于光学非接触测量系统的新型数字幻影

Xiaodong Yang;Aifeng Ren;Tianqiao Zhu;Fangming Hu
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引用次数: 0

摘要

数字模型对各种生物医学研究至关重要。传统的体模包括理论模型和从医学图像重建的体素模型。已经证明,填充均匀组织的均匀体模对于可穿戴天线设计、以身体为中心的通道建模等来说足够准确。因此,研究使用光学非接触测量系统生成数字体模的新方法是有趣和必要的。在这封信中,首先获得了点云数据;然后,通过主成分分析对它们进行简化;最后,应用曲面重建和网格简化技术,建立了一个数字中文体模。为了验证体模的可用性,进行了数值计算,以检查身体上不同位置的电场。结果充分证明了本文思路的可行性。
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A Novel Digital Phantom Using an Optical Noncontact Measurement System
Digital phantoms are vital for various biomedical researches. Traditional phantoms include theoretical models and voxel models reconstructed from medical images. It has been demonstrated that the homogeneous phantom filled with uniform tissue is accurate enough for wearable antenna design, body-centric channel modeling, etc. Therefore, it is interesting and necessary to investigate the novel approach of generating digital phantoms using an optical noncontact measurement system. In this letter, the point cloud data are first obtained; then, they are simplified via principal component analysis; finally, by applying surface reconstruction and mesh simplification techniques, a digital Chinese phantom is established. To verify the usability of the phantom, numerical calculation is performed to check E-fields at different positions on the body. Results sufficiently prove the feasibility of the train of thought presented in this letter.
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