Cheng Zhuo, Wang Hai-sheng, Min You-jiang, Yan Zhen-guo, Hong Z Tan, Zhuang Tian-ge
Department of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai.
Zhongguo Yi Liao Qi Xie Za Zhi. 2007 Jan;31(1):5-9.
This paper discusses the application of virtual reality technology in the 3-D visible human body and acupuncture research. Based on the 3-D visible human fused with the localization information and hierarchy of acupoints, the paper analyzes the force against the needle and haptic rendering during the needle manipulation according to the physical properties of different tissues. A haptic model is constructed to demonstrate the force behaviors during acupuncture, and the force will be produced and passed to the manipulator by a force feedback device. It enriches the contents of 3-D visible human project, provides a dynamic simulation instrument for acupuncture teaching, and supplies a platform for acupuncture research.
本文探讨虚拟现实技术在三维可视人体及针灸研究中的应用。基于融合穴位定位信息和层次结构的三维可视人体,根据不同组织的物理特性,分析了针刺操作过程中的针体受力及触觉渲染。构建了一个触觉模型来演示针灸过程中的力行为,该力将由力反馈装置产生并传递给操纵者。它丰富了三维可视人体项目的内容,为针灸教学提供了动态模拟工具,并为针灸研究提供了一个平台。