Telepresence control of humanoid robot via high-frequency phase-tagged SSVEP stimuli

机译：通过高频相位标记SSVEP刺激的拟人机器人的智临控制

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This paper presents a high-frequency steady-state visual evoked potential-based model for a brain-controlled humanoid robot. An advantage of this model is to reduce subjects' fatigue by using visual stimuli with a frequency of 30Hz. This study optimizes the stimulus patterns to increase the brain signals and applies a fuzzy-based classification approach to identify human mental activities and convert them into control commands. Seven subjects successfully navigated a NAO humanoid robot to walk through a map with obstacle avoidance based on live video feedback. The on-line robot navigation experiment reached the average control success rate of 94.26% and an average collision of 1.8 times during a mission.

机译：本文提出了一种基于高频稳态视觉诱发电位的大脑控制人形机器人模型。该模型的优点是通过使用频率为30Hz的视觉刺激来减轻受试者的疲劳。这项研究优化了刺激模式以增加大脑信号，并应用了基于模糊的分类方法来识别人类的心理活动并将其转换为控制命令。七个受试者成功导航了NAO人形机器人，并根据实时视频反馈在避开障碍物的地图上行走。在线机器人导航实验在一次任务中平均控制成功率为94.26％，平均碰撞次数为1.8次。

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来源
《2016 IEEE 14th International Workshop on Advanced Motion Control》|2016年|214-219|共6页
会议地点 Auckland(NZ)
作者
Hong Hu; Jing Zhao; Hongbo Li; Wei Li; Genshe Chen;
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作者单位

School of Electrical Engineering and Automation, Tianjin University, China;

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会议组织
原文格式 PDF
正文语种 eng
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关键词
brain-robot interaction; fuzzy feedback classification; high-frequency steady-state visual evoked potentials; humanoid robot;

机译：人机交互；模糊反馈分类；高频稳态视觉诱发电位；人形机器人;

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专利

1. Combination of high-frequency SSVEP-based BCI and computer vision for controlling a robotic arm [J] . Chen Xiaogang, Zhao Bing, Wang Yijun, Journal of neural engineering . 2019,第2期

机译：结合基于高频SSVEP的BCI和计算机视觉来控制机械臂
2. Comparison of SSVEP BCI and Eye Tracking for Controlling a Humanoid Robot in a Social Environment [J] . Kishore S, González-Franco M, Hintemüller C, Presence . 2014,第3期

机译：在社会环境中控制人形机器人的SSVEP BCI和眼动追踪的比较
3. An Event-Related Potential-Based Adaptive Model for Telepresence Control of Humanoid Robot Motion in an Environment Cluttered With Obstacles [J] . Mengfan Li, Wei Li, Linwei Niu, Industrial Electronics, IEEE Transactions on . 2017,第2期

机译：障碍物拥挤环境中基于事件相关电位的仿人机器人运动智临控制模型
4. Telepresence control of humanoid robot via high-frequency phase-tagged SSVEP stimuli [C] . Hong Hu, Jing Zhao, Hongbo Li, IEEE International Workshop on Advanced Motion Control . 2016

机译：通过高频相位标记的SSVEP刺激来控制人形机器人的远程呈现控制
5. Estimation-Based Control for Humanoid Robots [D] . Rotella, Nicholas. 2017

机译：类人机器人的基于估计的控制
6. Comparative Study of SSVEP- and P300-Based Models for the Telepresence Control of Humanoid Robots [O] . Jing Zhao, Wei Li, Mengfan Li -1

机译：基于SSVEP和P300的人形机器人远程呈现控制模型的比较研究
7. Comparative Study of SSVEP- and P300-Based Models for the Telepresence Control of Humanoid Robots. [O] . Jing Zhao, Wei Li, Mengfan Li 2015

机译：基于ssVEp和p300的仿人机器人远程呈现控制模型的比较研究。
8. Robotic Telepresence: Applications of Human Controlled Robots in Air Force Maintenance [R] . Julian, R. G., Anderson, T. R. 1988

机译：机器人远程呈现：人控机器人在空军维修中的应用

Telepresence control of humanoid robot via high-frequency phase-tagged SSVEP stimuli

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