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NeuroRex: A Clinical Neural Interface Roadmap for EEG-based Brain Machine Interfaces to a Lower Body Robotic Exoskeleton

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

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摘要

In this communication, a translational clinical brain-machine interface (BMI) roadmap for an EEG-based BMI to a robotic exoskeleton (NeuroRex) is presented. This multi-faceted project addresses important engineering and clinical challenges: It addresses the validation of an intelligent, self-balancing, robotic lower-body and trunk exoskeleton (Rex) augmented with EEG-based BMI capabilities to interpret user intent to assist a mobility-impaired person to walk independently. The goal is to improve the quality of life and health status of wheelchair-bounded persons by enabling standing and sitting, walking and backing, turning, ascending and descending stairs/curbs, and navigating sloping surfaces in a variety of conditions without the need for additional support or crutches.

机译：在此交流中，提出了基于EEG的BMI到机器人外骨骼（NeuroRex）的翻译临床脑机接口（BMI）路线图。这个多方面的项目解决了重要的工程和临床挑战：解决了智能，自平衡，机器人下身和躯干外骨骼（Rex）的验证，并增强了基于EEG的BMI功能，以解释用户意图以帮助实现移动性-有障碍的人要独立行走。目标是通过允许在各种情况下站立和坐着，行走和后坐，转弯，上升和下降楼梯/路缘以及在倾斜的路面上导航来改善轮椅使用者的生活质量和健康状况支持或拐杖。

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期刊名称 other
作者
Jose L. Contreras-Vidal; Robert G. Grossman;
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年(卷),期 -1(2013),-1
年度 -1
页码 1579–1582
总页数 9
原文格式 PDF
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入库时间 2022-08-21 11:21:39

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专利

1. Brain state-dependent robotic reaching movement with a multi-joint arm exoskeleton: combining brain-machine interfacing and robotic rehabilitation [J] . Daniel Brauchle, Mathias Vukeli?, Robert Bauer, Frontiers in Human Neuroscience . 2015,第1期

机译：具有多关节手臂外骨骼的依赖于大脑状态的机器人伸手运动：将脑机接口与机器人康复相结合
2. Brain state-dependent robotic reaching movement with a multi-joint arm exoskeleton: combining brain-machine interfacing and robotic rehabilitation [J] . Daniel Brauchle, Mathias Vukeli?, Robert Bauer, Frontiers in Human Neuroscience . 2015,第1期

机译：具有多关节手臂外骨骼的依赖于大脑状态的机器人伸手运动：将脑机接口与机器人康复相结合
3. Adaptive Neural Control of a Kinematically Redundant Exoskeleton Robot Using Brain–Machine Interfaces [J] . Neural Networks and Learning Systems, IEEE Transactions on . 2019,第12期

机译：使用脑机接口的运动学冗余外骨骼机器人的自适应神经控制
4. NeuroRex: A clinical neural interface roadmap for EEG-based brain machine interfaces to a lower body robotic exoskeleton [C] . Contreras-Vidal Jose L., Grossman Robert G. Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2013

机译：NeuroRex：基于EEG的脑机与下半身机器人外骨骼的接口的临床神经接口路线图
5. Human control of robots over discrete noisy channels with high latency: Toward efficient EEG-based brain-robot interfaces. [D] . Akce, Abdullah. 2013

机译：人为控制机器人在离散噪声通道上的高延迟：建立高效的基于EEG的脑机器人接口。
6. Brain state-dependent robotic reaching movement with a multi-joint arm exoskeleton: combining brain-machine interfacing and robotic rehabilitation [O] . Daniel Brauchle, Mathias Vukelić, Robert Bauer, 2015

机译：具有多关节手臂外骨骼的依赖于大脑状态的机器人触及运动：将脑机接口与机器人康复相结合
7. Brain-state dependent robotic reaching movement with a multi-joint arm exoskeleton: combining brain-machine interfacing and robotic rehabilitation [O] . Daniel eBrauchle, Mathias eVukelić, Robert eBauer, 2015

机译：依赖于脑状态的机器人通过多关节臂外骨骼进行运动：结合脑机接口和机器人康复

NeuroRex: A Clinical Neural Interface Roadmap for EEG-based Brain Machine Interfaces to a Lower Body Robotic Exoskeleton

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