一种新型的基于视觉的机器人行走框架人机界面

J. Paulo, P. Peixoto, U. Nunes
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引用次数: 7

摘要

提出了一种新颖的机器人行走人机界面(HMI)。机器人助行器为使用者提供了维持活动能力的帮助,并有可能恢复他们的下肢。行动能力对人来说是一项至关重要的功能,这些辅助设备对于提高那些患有某种形式的行动障碍的人的独立性和生活质量至关重要。然而,成本和安全等重要因素使它们要么经常无法进入公众,要么由于对其操作缺乏信心而被丢弃。这项工作中采用的方法提供了直观的人机界面,并结合了创新的安全措施。这一结果之所以成为可能,要归功于低成本Leap Motion传感器的巧妙使用。实验评价分为两个阶段。首先,利用仿真环境对系统进行了测试,验证了人机界面的工作原理。在第二阶段,提议的人机界面在机器人平台上进行测试,以评估其在现实场景中的性能。在健康志愿者中进行的实验显示,该系统具有直观的用户交互和准确的用户意图判断功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel vision-based human-machine interface for a robotic walker framework
This paper presents an innovative Human-Machine Interface (HMI) for a robotic walker. Robotic walkers offer their users an aid for sustaining mobility and the potential to rehabilitate their lower limbs. Mobility is a crucial function for a human being and these aids are paramount for improving the independence and quality of life of those who suffer from some form of mobility impairment. However, important factors like cost and safety make them either frequently inaccessible to the public or discarded due to a lack of confidence in their operation. The approach adopted in this work offers an intuitive human-machine interface combined with innovative safety measures. This result was possible due to the resourceful use of the low-cost Leap Motion sensor. Experimental evaluation was divided into two stages. First the system was tested using a simulated environment which served to validate the principle of operation of the HMI. In the second stage the proposed HMI was tested on board a robotic platform to evaluate its performance in a real-world scenario. Experiments performed with healthy volunteers revealed an intuitive user interaction and accurate user intention determination.
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