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A New Tactile Transfer Cell Using Magnetorheological Materials for Robot-Assisted Minimally Invasive Surgery

机译：一种新的触觉转移细胞用于机器人辅助微创的微创手术

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摘要

This paper proposes a new type of tactile transfer cell which can be effectively applied to robot-assisted minimally invasive surgery (RMIS). The proposed tactile device is manufactured from two smart materials, a magnetorheological fluid (MRF) and a magnetorheological elastomer (MRE), whose viscoelastic properties are controllable by an external magnetic field. Thus, it can produce field-dependent repulsive forces which are equivalent to several human organs (or tissues) such as a heart. As a first step, an appropriate tactile sample is made using both MRF and MRE associated with porous foam. Then, the microstructures of these materials taken from Scanning Electron Microscope (SEM) images are presented, showing the particle distribution with and without the magnetic field. Subsequently, the field-dependent repulsive force of the sample, which is equivalent to the stress relaxation property of viscoelastic materials, are measured at several compressive deformation depths. Then, the measured values are compared with the calculated values obtained from Young’s modulus of human tissue data via the finite element method. It is identified from this comparison that the proposed tactile transfer cell can mimic the repulsive force (or hardness) of several human organs. This directly indicates that the proposed MR materials-based tactile transfer cell (MRTTC in short) can be effectively applied to RMIS in which the surgeon can feel the strength or softness of the human organ by just changing the magnetic field intensity. In this work, to reflect a more practical feasibility, a psychophysical test is also carried out using 20 volunteers, and the results are analyzed, presenting the standard deviation.

机译：本文提出了一种新型触觉转移细胞，可有效地应用于机器人辅助微创手术（RMI）。所提出的触觉装置由两个智能材料，磁流变流体（MRF）和磁流变的弹性体（MRE）制成，其粘弹性是由外部磁场控制的。因此，它可以产生现场依赖性的排斥力，其等同于几种人体器官（或组织），例如心脏。作为第一步，使用与多孔泡沫相关的MRF和MRE制备适当的触觉样品。然后，提出了从扫描电子显微镜（SEM）图像的这些材料的微观结构，示出了具有和不具有磁场的颗粒分布。随后，在几种压缩变形深度下测量样品的野外依赖性力量，其等于粘弹性材料的应力松弛性。然后，将测量值与通过有限元方法从人体组织数据的杨氏模量获得的计算值进行比较。从该比较中鉴定出所提出的触觉转移细胞可以模拟几种人机的排斥力（或硬度）。这直接表明所提出的基于MR材料的触觉转移细胞（MRTTC简称）可以有效地应用于RMI，即通过改变磁场强度，外科医生能够感受人器官的强度或柔软度。在这项工作中，为了反映更实际的可行性，使用20志愿者还进行了一个心理物理测试，并分析了结果，呈现标准偏差。

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期刊名称 Sensors (Basel Switzerland)
作者
Yu-Jin Park; Seung-Bok Choi;
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年(卷),期 2021(21),9
年度 2021
页码 3034
总页数 23
原文格式 PDF
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机译：磁流变（MR）材料;触觉转移细胞;令人厌恶的力;多孔结构;人体组织;应力松弛;粘弹性;粘弹性模型;心理物理学;

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专利

1. Advances in Haptics, Tactile Sensing, and Manipulation for Robot-Assisted Minimally Invasive Surgery, Noninvasive Surgery, and Diagnosis [J] . Abbi Homed, Sai Chun Tang, Hongliang Ren, Journal of robotics . 2012,第1期

机译：机器人辅助微创手术，无创手术和诊断的触觉，触觉和操纵方面的进展
2. Advances in Haptics, Tactile Sensing, and Manipulation for Robot-Assisted Minimally Invasive Surgery, Noninvasive Surgery, and Diagnosis [J] . AbbiHamed, Sai ChunTang, HongliangRen, Journal of robotics . 2012,第1期

机译：机器人辅助的微创手术，无创手术和诊断的触觉，触觉和操纵方面的进展
3. A new visual feedback-based magnetorheological haptic master for robot-assisted minimally invasive surgery [J] . Choi Seung-Hyun, Kim Soomin, Kim Pyunghwa, Smart Materials & Structures . 2015,第6期

机译：基于视觉反馈的新型磁流变学触觉大师，用于机器人辅助微创手术
4. A Variable-Impedance Tactile Sensor With Online Performance Tuning for Tissue Hardness Palpation in Robot-Assisted Minimally Invasive Surgery [C] . Feng Ju, Yahui Yun, Zhao Zhang, Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2018

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5. Tactile sensing and display for robot-assisted minimally invasive surgery: Detecting lumps in soft tissue. [D] . Gwilliam, James C. 2013

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A New Tactile Transfer Cell Using Magnetorheological Materials for Robot-Assisted Minimally Invasive Surgery

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