ECoG factors underlying multimodal control of a brain-computer interface

Wilson J.A.; Felton E.A.; Garell P.C.; Schalk G.; Williams J.C.

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ECoG factors underlying multimodal control of a brain-computer interface

机译：脑电接口多模式控制的基础ECoG因素

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Most current brain-computer interface (BCI) systems for humans use electroencephalographic activity recorded from the scalp, and may be limited in many ways. Electrocorticography (ECoG) is believed to be a minimally-invasive alternative to electroencephalogram (EEG) for BCI systems, yielding superior signal characteristics that could allow rapid user training and faster communication rates. In addition, our preliminary results suggest that brain regions other than the sensorimotor cortex, such as auditory cortex, may be trained to control a BCI system using similar methods as those used to train motor regions of the brain. This could prove to be vital for users who have neurological disease, head trauma, or other conditions precluding the use of sensorimotor cortex for BCI control.

机译：当前，大多数用于人类的脑机接口（BCI）系统都使用从头皮记录的脑电图活动，并且可能在许多方面受到限制。皮层脑电图（ECoG）被认为是BCI系统的脑电图（EEG）的微创替代品，可产生出众的信号特性，可实现快速的用户培训和更快的通信速率。此外，我们的初步结果表明，可以使用与训练大脑运动区域相似的方法，训练除感觉运动皮质以外的其他大脑区域（如听觉皮层）来控制BCI系统。对于患有神经系统疾病，头部外伤或其他情况而无法使用感觉运动皮层进行BCI控制的使用者，这可能证明是至关重要的。

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《IEEE transactions on neural systems and rehabilitation engineering》 |2006年第2期|p.246-250|共5页
作者
Wilson J.A.; Felton E.A.; Garell P.C.; Schalk G.; Williams J.C.;
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正文语种 eng
中图分类电工技术;
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bioelectric phenomena; brain; handicapped aids; medical computing; medical control systems; BCI control; ECoG; auditory cortex; brain-computer interface; electroencephalography; fast communication rates; head trauma; multimodal Control; neurological disease; rapid use;

机译：生物电现象;脑;残障辅助工具;医学计算;医疗控制系统;BCI控制;ECoG;听觉皮层;脑-计算机接口;脑电图;快速通信率;头部创伤;多模式控制;神经疾病;快速使用;

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1. Spatial co-adaptation of cortical control columns in a micro-ECoG brain-computer interface [J] . A G Rouse, J J Williams, J J Wheeler, Journal of neural engineering . 2016,第5期

机译：微型ECoG脑机接口中皮层控制柱的空间共适应
2. Neuronal mechanisms underlying control of a brain-computer interface. [J] . Hinterberger T, Veit R, Wilhelm B, The European Journal of Neuroscience . 2005,第11期

机译：控制脑机接口的神经元机制。
3. Multi-way feature selection for ECoG-based Brain-Computer Interface [J] . Motrenko Anastasia, Strijov Vadim Expert Systems with Application . 2018,第DECa期

机译：基于ECoG的脑机接口的多向功能选择
4. On-chip implementation of ECoG signal data decoding in brain-computer interface [C] . Mradul Agrawal, Sandeep Vidyashankar, Ke Huang International Mixed-Signals Testing Workshop . 2016

机译：人机界面上ECoG信号数据解码的片上实现
5. Targeting the Brain in Brain-Computer Interfacing: The Effect of Transcranial Current Stimulation and Control of a Physical Effector on Performance and Electrophysiology Underlying Noninvasive Brain-Computer Interfaces [D] . Baxter, Bryan Scott. 2017

机译：靶向脑电脑界面中的大脑：经颅电流刺激和对性能和电生理学介绍的效果潜在的非侵入性大脑 - 计算机界面
6. PASS: A Multimodal Database of Physical Activity and Stress for Mobile Passive Body/ Brain-Computer Interface Research [O] . Mark Parent, Isabela Albuquerque, Abhishek Tiwari, 2020

机译：通过：移动被动体/脑电电脑界面研究的体力活动和压力的多模式数据库
7. Thinking penguin: Multimodal brain-computer interface control of a VR game [O] . Leeb, Robert, Lancelle, M., Kaiser, Vera, 2013

机译：思考企鹅：VR模拟游戏的多模式脑机接口控制

ECoG factors underlying multimodal control of a brain-computer interface

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