用于泌尿外科手术训练的触觉装置的设计与实现

K. Vlachos, E. Papadopoulos, D. Mitropoulos
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引用次数: 47

摘要

虚拟现实在培训外科医生进行各种手术方面变得非常重要。用户与虚拟训练环境的接口需要一个适当设计的触觉设备的存在。本文设计并实现了一种具有五自由度的力反馈触觉机构,并将其应用于泌尿外科手术训练模拟器。该机构由一个2自由度、5杆连杆机构和一个3自由度球面关节组成,旨在呈现低摩擦、惯性和质量,并实现静平衡。该装置适用于小的力和力矩的精确应用。触觉装置的所有五个执行器都是安装在基座上的直流电机,并使用基于绞盘驱动器、滑轮和肌腱的力传输系统。本文描述了整体设计和尺寸考虑,由此产生的运动学和动力学,力反馈控制算法,以及所采用的硬件。给出了实验结果。
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Design and implementation of a haptic device for training in urological operations
Virtual reality is becoming very important for training medical surgeons in various operations. Interfacing users with a virtual training environment requires the existence of a properly designed haptic device. This paper presents the design and implementation of a new force feedback haptic mechanism with five active degrees of freedom (DOFs), which is used as part of a training simulator for urological operations. The mechanism consists of a 2-DOF, 5-bar linkage, and a 3-DOF spherical joint, designed to present low friction, inertia and mass, and to be statically balanced. The device is suitable for the accurate application of small forces and moments. All five actuators of the haptic device are base-mounted dc motors and use a force transmission system based on capstan drives, pulleys, and tendons. The paper describes the overall design and sizing considerations, the resulting kinematics and dynamics, the force feedback control algorithm, and the hardware employed. Experimental results are provided.
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