Virtual environment for robotic tele-rehabilitation

J. Tang, C. Carignan, S. Gattewar
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引用次数: 17

Abstract

Haptic and visual displays are combined to realize cooperative, force-feedback tasks over the Internet. The operators "exert" forces on a virtual object which in turn generates a set of reaction forces to be displayed on the haptic devices. A novel cooperative control architecture based on wave variables is implemented to realize stable operation in the presence of time delays. The control scheme is validated experimentally for a manipulation task over the Internet using a pair of InMotion2 robots. Preliminary results are also presented for 3D tasks rendered on a head-mounted display equipped with a head tracker for changing viewing angles.
机器人远程康复的虚拟环境
触觉和视觉显示相结合,在互联网上实现协作,力反馈任务。操作者在虚拟物体上“施加”力,从而产生一组反作用力,显示在触觉设备上。提出了一种基于波动变量的新型协同控制体系结构,实现了系统在时滞条件下的稳定运行。通过一对InMotion2机器人在互联网上的操作任务实验验证了该控制方案。初步结果还提出了3D任务呈现的头戴式显示器配备了头部跟踪器来改变视角。
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