基于EOG的电动轮椅人机界面控制系统的开发

2014 Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD) Pub Date : 2014-07-24 DOI:10.1109/AICERA.2014.6908256

B. Champaty, Jobin Jose, K. Pal, A. Thirugnanam

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引用次数: 80

摘要

康复器材越来越多地被用于改善残疾人士的生活质量。人机界面(HMI)已被广泛研究，以控制机电康复辅助设备的生物信号。脑电信号是研究最多的信号之一，因为它具有明确的信号模式。即使是周围活动能力极度受限的人(例如截瘫或四肢瘫痪)也有协调眼球运动的能力。目前的项目重点是开发一个基于EOG的控制系统，用于驱动原型轮椅模型。作为这项工作的一部分，开发了一个EOG信号采集系统。然后对获取的EOG信号进行处理，生成轮椅模型运动的控制信号(取决于信号的振幅和持续时间)。

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Development of EOG based human machine interface control system for motorized wheelchair

Rehabilitation devices are increasingly being used to improve the quality of the life of differentially-abled persons. Human Machine Interface (HMI) has been extensively studied to control electromechanical rehabilitation aids using biosignals. Electroocculogram (EOG) signal is one of the most commonly studied signals due to the occurrence of definite signal patterns. Even the persons suffering from extremely limited peripheral mobility conditions (e.g. paraplegia or quadriplegia) have the ability to coordinate eye movements. The current project focuses on the development of an EOG based control system for driving a prototype wheelchair model. As a part of this work, an EOG signal acquisition system was developed. The acquired EOG signal was then processed to generate control signals (depending on the amplitude and duration of signals) for the movement of the wheelchair model.

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2014 Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD)

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