机器人
扭矩
磁共振成像
弯曲
谐波
计算机科学
步进电机
谐波分析
医学影像学
谐波传动
机器人学
谐波
生物医学工程
工程类
二次谐波成像显微术
超声波电动机
机械臂
声学
图像质量
步进电动机
介入性磁共振成像
直流电动机
机器人末端执行器
电子工程
磁铁
机械共振
模拟
人工智能
控制器(灌溉)
医学物理学
转子(电动)
自动测试设备
执行机构
计算机视觉
作者
Haipeng Liang,Tristan Barrett,Yanbo Feng,Christopher J. Shepherd,Wellington Chishaya,Zion Tsz Ho Tse
标识
DOI:10.1109/tbme.2025.3623237
摘要
The superior image quality and excellent contrast offered by Magnetic Resonance Imaging (MRI) make it an ideal tool for guiding interventional procedures, particularly in targeting tumors within soft tissues. This paper presents an innovative robotic system, tailored for Magnetic Resonance (MR) environments, leveraging the benefits of MRI's high-resolution imaging capabilities for precise tumor targeting. The robot, designed with four degrees of freedom (DOFs), is driven by four novel Harmonic Pneumatic Motors, ensuring Magnetic Resonance (MR) compatibility. This motor utilizes a harmonic gearbox mechanism, incorporating a pair of flex and circular splines, with torque generated through the deformation of the flex spline. It achieves a step size of 0.9° and delivers a maximum measured output torque of 825 mN·m. The robot's design includes a dual-stage needle guide, each stage is supported by two arms, enhancing its targeting accuracy. Experimental tests have demonstrated the robot's high positioning accuracy of 1.56 mm. Furthermore, MR testing confirms that the robot's presence results in a negligible signal-to-noise ratio (SNR) reduction, well within acceptable limits. The introduction of the Harmonic Pneumatic Motor-Driven Robot presents an improvement of compact MRI robots in the field, providing a potent combination of precision, safety, and compatibility in MRI-guided interventional procedures.
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