EMG-Based Interface for Position Tracking and Control in VR Environments and Teleoperation

IF 0.7 4区计算机科学 Q4 COMPUTER SCIENCE, CYBERNETICS

Presence-Teleoperators and Virtual Environments Pub Date : 1997-06-01 DOI:10.1162/pres.1997.6.3.282

S. Suryanarayanan, N. P. Reddy

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引用次数: 16

Abstract

Position tracking and control using bioelectric signals are emerging as promising techniques. Surface electromyographic (EMG) signals are being researched for tracking human movements, direct proportional control of teleoperators, and object manipulation in VR environments. This study investigates the use of surface EMG to track elbow joint angle during flexion-extension of the arm applied to control of a virtual environment or an anthropomorphic telemanipulator. An intelligent system based on neural networks and fuzzy logic has been developed to use the processed surface EMG signal and predict the joint angle. The intelligent system has been tested on normal subjects performing flexion-extension of the arm of various angles and at several speeds. The joint angles predicted by the intelligent system were input to a computer-simulated model of an elbow manipulator. Preliminary results show the average root mean squared (RMS) error between the actual elbow joint angle measured with a goniometer and the joint angle reproduced by the robot model to be less than 20%. The technique of using EMG as an interface for tracking and direct biocontrol has great potential in VR and telemanipulation.

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基于肌电图的虚拟现实环境和远程操作位置跟踪控制接口

利用生物电信号进行位置跟踪和控制是一种很有前途的技术。表面肌电图(EMG)信号正在研究用于跟踪人类运动，远程操作员的直接比例控制以及虚拟现实环境中的物体操作。本研究探讨了使用表面肌电图来跟踪肘关节角度在手臂屈伸过程中应用于控制虚拟环境或拟人遥控机械臂。开发了一种基于神经网络和模糊逻辑的智能系统，利用处理后的表面肌电信号预测关节角度。该智能系统已经在正常受试者身上进行了测试，以不同的角度和速度进行手臂的屈伸。将智能系统预测的关节角度输入到肘关节机械臂的计算机仿真模型中。初步结果表明，用测角仪测量的肘关节实际角度与机器人模型模拟的关节角度的均方根误差小于20%。利用肌电图作为跟踪和直接生物控制的接口技术在虚拟现实和远程操作中具有很大的潜力。

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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