Design of a 6 DoF Parallel Robot for MRI-guided Interventions

2021 International Symposium on Medical Robotics (ISMR) Pub Date : 2021-11-17 DOI:10.1109/ismr48346.2021.9661513

Mishek Musa, Saikat Sengupta, Yue Chen

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引用次数: 4

Abstract

In this work, the design, analysis, and characterization of a 6 DoF parallel robot for MRI guided applications is presented. The primary motivation for developing this robot is to create a general purpose robotic platform capable of producing accurate 6 DoF motion inside the MRI bore to perform needle-based interventional procedures (i.e., radio-frequency ablation, biopsy) or generate accurate motion for other MRI-based experiments (i.e., motion compensation imaging sequence development, HIFU probe manipulation). The robot is driven by 6 pneumatic cylinder actuators and controlled via a robust sliding mode controller. Pneumatic actuator tracking experiments indicate that the system is able to achieve an average error of 0.69 ± 0.14 mm and 0.67 ± 0.40 mm for step signal tracking and sinusoidal signal tracking respectively. To demonstrate the feasibility of the parallel robot for needle insertion interventions, a tissue-mimic phantom experiment was performed in the benchtop environment, which indicated an average position error of 1.20 0.43 mm and an average orientation error of 1.09 0.57°, respectively.

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六自由度mri引导干预并联机器人的设计

在这项工作中，设计、分析和表征了一种用于MRI引导应用的6自由度并联机器人。开发该机器人的主要动机是创建一个通用的机器人平台，能够在MRI孔内产生精确的6自由度运动，以执行基于针的介入手术(即射频消融，活检)或为其他基于MRI的实验(即运动补偿成像序列开发，HIFU探针操作)产生精确的运动。该机器人由6个气缸驱动，并通过鲁棒滑模控制器进行控制。气动执行器跟踪实验表明，该系统对阶进信号跟踪和正弦信号跟踪的平均误差分别为0.69±0.14 mm和0.67±0.40 mm。为了验证并联机器人进行针插干预的可行性，在实验台环境下进行了组织模拟仿真实验，实验结果表明，并联机器人的平均位置误差为1.20 0.43 mm，平均方向误差为1.09 0.57°。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Symposium on Medical Robotics (ISMR)

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