EEG-based brain-controlled lower extremity exoskeleton rehabilitation robot

机译：基于脑电图的脑控制下肢外骨骼康复机器人

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摘要

Brain-computer interfaces (BCIs), based on electroencephalography (EEG), have been proved to play an important role in motor rehabilitation, motor replacement, prosthesis control, and assistive technologies. BCIs can classify EEG signals and translate the brain activities into useful commands for external devices. This paper presents a brain-controlled lower extremity exoskeleton rehabilitation robot with a motor-imagery (MI)-based BCI to enhance active rehabilitation participation. Four healthy individuals performed MI tasks of left and right hand movements to control the speed of gait training. The proposed paradigm could be further implemented by adding motor tasks and promoting MI classification accuracy.

机译：基于脑电图（EEG）的脑机接口（BCI）已被证明在运动康复，运动置换，假体控制和辅助技术中起着重要作用。 BCI可以对EEG信号进行分类，并将大脑活动转化为对外部设备有用的命令。本文介绍了一种基于脑控制的下肢外骨骼康复机器人，该机器人具有基于运动图像（MI）的BCI，可以增强积极的康复参与。四名健康个体执行左手和右手运动的MI任务，以控制步态训练的速度。可以通过添加运动任务并提高MI分类的准确性来进一步实现所提出的范例。

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来源
《2017 IEEE International Conference on Cybernetics and Intelligent Systems and IEEE Conference on Robotics, Automation and Mechatronics》|2017年|763-767|共5页
会议地点 Ningbo(CN)
作者
Gaojie Yu; Jianhua Wang; Weihai Chen; Jianbin Zhang;
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作者单位

School of Automation Science and Electrical Engineering, Beihang University, Beijing 100191, China;

School of Automation Science and Electrical Engineering, Beihang University, Beijing 100191, China;

School of Automation Science and Electrical Engineering, Beihang University, Beijing 100191, China;

School of Mechanical Engineering Automation, Beihang University, Beijing 100191, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Training; Exoskeletons; Rehabilitation robotics; Electroencephalography; Task analysis; Extremities;

机译：培训;外骨骼;康复机器人;脑电图;任务分析;四肢;;

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1. The safety and feasibility of a new rehabilitation robotic exoskeleton for assisting individuals with lower extremity motor complete lesions following spinal cord injury (SCI): an observational study [J] . Spinal cord: the official journal of the International Medical Society of Paraplegia . 2020,第7期

机译：新的康复机器人外骨骼的安全性和可行性，用于巩固脊髓损伤后脊髓损伤（SCI）后患有下肢电机的个体的个体：一个观察性研究
2. A Review of Lower Extremity Assistive Robotic Exoskeletons in Rehabilitation Therapy [J] . Gong Chen, Chow Khuen Chan, Zhao Guo, Critical Reviews in Biomedical Engineering . 2013,第4a5期

机译：下肢辅助机器人外骨骼在康复治疗中的综述。
3. Kinematics analysis and three-dimensional simulation of the rehabilitation lower extremity exoskeleton robot [J] . Jiangcheng Chen, Xiaodong Zhang, Lei Zhu International Journal of Soft Computing and Software Engineering . 2013,第3期

机译：下肢康复外骨骼机器人的运动学分析和三维仿真
4. EEG-based brain-controlled lower extremity exoskeleton rehabilitation robot [C] . Gaojie Yu, Jianhua Wang, Weihai Chen, IEEE Conference on Robotics, Automation and Mechatronics . 2017

机译：基于EEG的脑控制下肢外骨骼康复机器人
5. Comparison of robotic-virtual reality lower extremity training with robotic lower extremity training alone for rehabilitation of gait of individuals post-stroke. [D] . Mirelman, Anat. 2007

机译：机器人虚拟现实下肢训练与仅机器人下肢训练对中风后个体步态康复的比较。
6. NeuroRex: A Clinical Neural Interface Roadmap for EEG-based Brain Machine Interfaces to a Lower Body Robotic Exoskeleton [O] . Jose L. Contreras-Vidal, Robert G. Grossman -1

机译：NeuroRex：基于EEG的下肢机器人外骨骼的脑机接口的临床神经接口路线图
7. Comparisons between end-effector and exoskeleton rehabilitation robots regarding upper extremity function among chronic stroke patients with moderate-to-severe upper limb impairment [O] . Stephanie Hyeyoung Lee, Gyulee Park, Duk Youn Cho, 2020

机译：慢性脑卒中患者中度至重度上肢损伤患者上肢功能的末端效应和外骨骼康复机器人的比较

EEG-based brain-controlled lower extremity exoskeleton rehabilitation robot

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