An Endoscopic Grasper Tool with Integrated Tactile Sensors for use in Minimally Invasive Surgery

机译：具有集成触觉传感器的内窥镜抓取工具，用于微创手术

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In this paper, we report on the design, testing, fabrication, and modeling of a semiconductor-based microstrain gauge endoscopic tactile sensor. This sensor is capable of measuring both the magnitude and the position of an applied load on a commercial endoscopic grasper tool. It consists of two microstrain gauge sensors, placed on the prototype endoscopic grasper. A light emitting diode device is used to visually see the intensity of the applied force. In total, 20 different force magnitudes for 7 different locations on the endoscopic grasper are tested experimentally. The range of force magnitude changes in the domain of 0.5 N to 10 N. The in-house electrical amplification system for the microstrain gauges is also designed, fabricated, and tested. The sensor is insulated and can operate safely in wet environments. The designed sensor assembly exhibits high force sensitivity, good linearity, and large dynamic range. A three-dimensional finite element modeling (FEM) is employed to predict the behavior of the designed system. Based on FEM results, there is a good agreement between these data the results obtained experimentally.

机译：在本文中，我们报告了基于半导体的微应变计内窥镜触觉传感器的设计，测试，制造和建模。该传感器能够测量在商用内窥镜抓紧工具上施加的负载的大小和位置。它由两个微应变仪传感器组成，放置在原型内窥镜抓紧器上。发光二极管装置用于视觉地观察所施加的力的强度。总共，对内窥镜抓取器上7个不同位置的20种不同的力大小进行了实验测试。力大小范围在0.5 N到10 N范围内变化。还设计，制造和测试了用于微应变仪的内部电放大系统。该传感器是绝缘的，可以在潮湿环境中安全运行。设计的传感器组件具有很高的力敏感度，良好的线性度和较大的动态范围。使用三维有限元建模（FEM）来预测设计系统的行为。根据FEM结果，这些数据与实验获得的结果之间有很好的一致性。

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来源
《7th Biennial Conference on Engineering Systems Design and Analysis 2004(ESDA 2004) vol.3: Design Engineering; Maintenance Engineering; Manufacturing Engineering; ...》|2004年|P.421-426|共6页
会议地点 Manchester(GB)
作者
Javad Dargahi; Siamak Najarian;
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作者单位

Mechanical and Industrial Eng., CONCAVE Research Centre, CR-200,m Concordia University, Dept. of Mechanical and Industrial Eng., 1445 de Maisonneuve Blvd. West, Montreal, Quebec, Canada H3G 1M8;

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正文语种 eng
中图分类机械设计、计算与制图;
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1. Advances in Bio-Tactile Sensors for Minimally Invasive Surgery Using the Fibre Bragg Grating Force Sensor Technique: A Survey [J] . A. Ashrif, A. Bakar, Abdulfatah A.G. Abushagur, Sensors . 2014,第4期

机译：利用光纤布拉格光栅力传感器技术进行微创手术的生物触觉传感器的研究进展
2. Force controlled and teleoperated endoscopic grasper for minimally invasive surgery-experimental performance evaluation [J] . Rosen J., Hannaford B. IEEE Transactions on Biomedical Engineering . 1999,第10期

机译：力控制和远距离内窥镜抓取器，用于微创手术-实验性能评估
3. Force controlled and teleoperated endoscopic grasper for minimally invasive surgery-experimental performance evaluation [J] . Rosen J., Hannaford B., MacFarlane M.P., IEEE Transactions on Biomedical Engineering . 1999,第10期

机译：力控制和远距离内窥镜抓取器，用于微创手术-实验性能评估
4. An Endoscopic Grasper Tool with Integrated Tactile Sensors for use in Minimally Invasive Surgery [C] . Javad Dargahi, Siamak Najarian Biennial ASME Conference on Engineering Systems Design and Analysis . 2004

机译：具有集成触觉传感器的内窥镜克拉钳工具，用于微创手术
5. Micromachined multifunctional polyvinylidene fluoride tactile sensor for minimally invasive surgery graspers [D] . Sokhanvar, Saeed 2007

机译：微机械多功能聚偏二氟乙烯触觉传感器，用于微创手术抓取器
6. Advances in Bio-Tactile Sensors for Minimally Invasive Surgery Using the Fibre Bragg Grating Force Sensor Technique:A Survey [O] . Abdulfatah A.G. Abushagur, Norhana Arsad, Mamun Ibne Reaz, 2014

机译：光纤布拉格光栅力传感器技术在微创外科生物触觉传感器中的研究进展
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An Endoscopic Grasper Tool with Integrated Tactile Sensors for use in Minimally Invasive Surgery

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