期刊文献+

无损伤医用肠道机器人驱动机理 被引量:2

A Low Invasive Locomotion Method of a Medical Intestine Micro-Robot
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摘要 提出了一种结构简单的医用肠道机器人的驱动机构.利用弹性流体动压润滑理论,详细分析计算了肠道机器人在不同弹性模量、不同半径和不同粘液粘度的肠道内的轴向运行速度和形成的粘液膜厚度.肠道实验研究结果表明,该肠道机器人能以较快速度在肠道内悬浮运行. A medical micro-robot moving in human intestine was proposed. The locomotion speed of the micro-robot and hydrodynamic mucus film thickness formed when the medical micro-robot is moving in intestine with various diameters, various viscosity mucus and various modulus of elasticity were calculated according to the elastohydrodynamic lubrication theory. The experimental results indicate that the medical micro-robot can be suspended to move quickly into intestine.
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2004年第8期1314-1317,共4页 Journal of Shanghai Jiaotong University
基金 国家自然科学基金资助项目(50375143 59805017)
关键词 医用微型机器人 微创外科手术 无损伤驱动 内窥镜 medical micro-robot minimal invasive surgery low invasive locomotion endoscope
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  • 1Tondu B, Lopez P. Modeling and control of McKibben artificial muscle robot actuators [J]. IEEE Control Systems Magazine, 2000, 20(2):15-38.
  • 2Mangan E V, Dan A K, Roger D Q, et al. Development of a peristaltic endoscope [J]. IEEE Robotics and Automation, 2002, 5(1):347-352.
  • 3Ikuta K, Tsukamoto M, Hirose S. Mathematical model and experiment verification of shape memory alloy for designing micro actuator[J]. IEEE Micro Electro Mechanical Systems, 1991,2(2): 103-108.
  • 4Hirose S. Biologically inspired robots: snake-like locomotors and manipulators [M]. London: Oxford University Press, 1993.
  • 5Hoeg H D, Slatkin A B, Burdick J W. et al. Biomechanical modeling of the small intestine as required for the design and operation of a robotic endoscope [A]. IEEE International Conference on Robotics and Automation[C]. San Francisco, CA, USA: ICRA, 2000.
  • 6Dario P, Carrozza M C, Pietrabissa A. Development and in vitro testing of a miniature robotic system for computer-assisted colonoscopy[J]. Comput Aided Surg, 1999, 4(1):1-14.
  • 7Asari V K, Kumar S,Kassim I. A fully autonomous microrobotic endoscopy system [J]. Journal of International Robot System, 2000, 28(1):325-341.
  • 8Dario P, Carrozza M C, Allotta B. Micro-mechatronics in medicine [J]. IEEE/ASME Transactions on Mechatronics, 1996, 2(1):137-148.
  • 9Powell R L, Aharonson E F, Schwarz W H, et al. Rheological behavior of normal tracheobronchial mucus of canines [J].Journal of Applied Physiology, 1974, 37(3):447-451.
  • 10周银生,李立新,赵东福.一种新型的微型机器人[J].机械工程学报,2001,37(1):11-13. 被引量:28

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同被引文献26

  • 1简小云,梅涛,汪小华.胶囊内窥镜机器人的外磁场驱动方法[J].机器人,2005,27(4):367-372. 被引量:24
  • 2G Iddan,G Meron,A Glukhovsky,et al.Wireless capsule endoscopy[J].Nature,2000,405(6785):405-417.
  • 3P Dario,R Dillman.EURON-Technology Roadmaps[M].E.R.R.Network,Editor,2004.
  • 4http://www.stereotaxis.com/[OL].
  • 5W Zhang,Y J Chen,P Huang.Study on the system of a capsule endoscope driven by an outer rotational magnetic field[C].The 2nd IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications(MESA06),2006.
  • 6M Sendoh,A Yamazaki,A Chiba,et al.Spiral Type Magnetic Micro Actuators for Medical Applications[C].International Symposium on Micro-NanoMecahtronics and Human Science,2004.
  • 7M Sendoh,K Ishiyama,K I Arai.Fabrication of Magnetic Actuator for Use in a Capsule Endoscope[J].IEEE Transactions on Magnetics,2003,39(5):3232-3234.
  • 8K Ishiyama,M Sendoh,A Yamazaki,et al.Swimming of Magnetic Micro-Machines under a Very Wide-Range of Reynolds Number Conditions[J].IEEE Transactions on Magnetics,2001,37(4):2868-2870.
  • 9黄平,张炜,陈英俊,等.外磁场控制微机器人运动及位姿系统:中国,实用新型申请号:200620065761.6[P].
  • 10黄平,张炜,陈英俊,等.外磁场控制微机器人运动及位姿系统及其控制方法与应用:中国,发明专利申请号:200610122796.3[P].

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