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虚拟针刺人体软组织建模仿真 被引量:2

Modeling and simulating the virtual needle insertion of human body's soft tissue
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摘要 针刺人体软组织是医疗诊断中比较普遍使用的治疗手段,然而细微的针刺操作对医生的能力提出较高的要求。医生可采用虚拟现实技术来进行大量的训练,获得宝贵的经验。虚拟针刺过程中的软组织变形是重要研究内容。文章采用有限元方法建立软组织模型,使用GPU加速仿真的方法,实现针刺软组织的仿真。实验结果表明,软组织模型在针刺作用下,能产生局部的、小区域的变形。 Needle insertion of human soft tissue is a traditional treatment;however subtle manipulation of needle insertion demands more for doctors.Doctors can use virtual reality technology for extensive training,in order to get the valuable experience.The deformation of soft tissues is a vital research in the needle insertion.In this paper,the model for soft tissue is established with FEM,and the simulation is accelerated by GPU to realize the simulation of virtual needle insertion of body's soft tissue.The result shows that during the process of needle insertion,soft tissue can make local and small area deformation.
作者 武卫翔 王杰华 高瞻 Wu Weixiang;Wang Jiehua;Gao Zhan(College of Xinglin,Nantong University,Qidong,Jiangsu 226236,China;School of Information Science and Technology,Nantong University)
机构地区 南通大学杏林学院 南通大学信息科学技术学院
出处 《计算机时代》 2022年第3期19-21,23,共4页 Computer Era
基金 南通市基础科学研究计划项目“基于区块链技术的多阶段级联无线身份认证方案研究”(JC2020143)。
关键词 针刺 软组织 有限元方法 GPU needle insertion soft tissues FEM(Finite Element Method) GPU
分类号 TP391.9 [自动化与计算机技术—计算机应用技术]
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  • 1杨宇航,李志忠,任晓丹,何鑫,苏曼迪.基于虚拟现实技术的中医针灸教学系统[J].系统仿真学报,2007,19(10):2379-2383. 被引量:20
  • 2O Gerovich, P Marayong, A M Okamura. The effect of visual and haptic feedback on computer-assisted needle insertion [J]. Computer- Aided Surgery (S1092-9088), 2004, 9(6): 243-249.
  • 3J Hing, A Brooks, J P Desai. Reality-based estimation of Needle and soft-tissue interaction for accurate haptic feedback in prostate brachytherapy simulation [R]// International Symposium of RoboticsResearch, San Francisco, CA, USA, 2005. Thousand Oaks, CA, USA: Sage Publications, Inc., 2005: 34-48.
  • 4E Gobbetti. Catheter Insertion Simulation with Co-registered Direct Volume Rendering and Haptic Feedback [J]. Studies in Health Technology and Informatics (S0926-9630), 2000, 70: 96-98.
  • 5Heng PA, Xie YM, Wang XH, et al. Virtual Acupuncture Human Based on Chinese Visible Human Dataset [J]. Studies in Health Technology and Informatics (S0926-9630), 2006, 119:194-197.
  • 6S P DiMaio, S E Salcudean. Needle insertion modeling and simulation [J]. IEEE Transactions on Robotics and Automation (S1042-296X), 2003, 19(5): 864-875.
  • 7Hiemenz Holton, Leslie L. Force Models for Needle Insertion Created from Measured Needle Puncture Data [J]. Studies in Health Technology and Informatics (S0926-9630), 2001, 81 : 180-186.
  • 8S P DiMaio, S E Salcudean. Simulated interactive needle insertion [C]// Proc. 10th Syrup. Haptic Interfaces for Virtual Environment, Teleoperator Systems, Mar. 24-25, 2002. Washington, DC, USA: IEEE Computer Society, 2002:344-351.
  • 9H-W Nienhuys, A F van der Stappen. Interactive Needle Insertions in 3-D Nonlinear Material. Inst. Inform. Comput. Sci., Utrecht Univ., Utrecht, The Netherlands. [EB/OL]. (2003) [2011-6-22]. www.cs.uu.nl.
  • 10L Hiemenz, A Litsky, P Schmalbrock. Puncture mechanics for the insertion of an epidural needle [C]// Proc. 21st Annul Meeting American Society of Biomechanics. USA: Clemson University South Carolina, September 24-27, 1997: 36-37.

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