Restoration of Whole Body Movement: Toward a Noninvasive Brain-Machine Interface System

Contreras-Vidal J.L.; Presacco A.; Agashe H.; Paek A.

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Restoration of Whole Body Movement: Toward a Noninvasive Brain-Machine Interface System

机译：恢复全身运动：走向无创的脑机接口系统

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This article highlights recent advances in the design of noninvasive neural interfaces based on the scalp electroencephalogram (EEG). The simplest of physical tasks, such as turning the page to read this article, requires an intense burst of brain activity. It happens in milliseconds and requires little conscious thought. But for amputees and stroke victims with diminished motor-sensory skills, this process can be difficult or impossible. Our team at the University of Maryland, in conjunction with the Johns Hopkins Applied Physics Laboratory (APL) and the University of Maryland School of Medicine, hopes to offer these people newfound mobility and dexterity. In separate research thrusts, were using data gleaned from scalp EEG to develop reliable brainmachine interface (BMI) systems that could soon control modern devices such as prosthetic limbs or powered robotic exoskeletons.

机译：本文重点介绍了基于头皮脑电图（EEG）的无创神经接口设计的最新进展。最简单的身体任务，例如翻页阅读本文，需要剧烈的大脑活动。它发生在毫秒内，几乎不需要有意识的思考。但是对于运动感觉技能下降的截肢者和中风患者来说，这个过程可能是困难的或不可能的。我们位于马里兰大学的团队与约翰·霍普金斯大学应用物理实验室（APL）和马里兰大学医学院一起，希望为这些人提供新发现的灵活性和灵活性。在单独的研究重点中，正在使用从头皮脑电图收集的数据来开发可靠的脑机接口（BMI）系统，该系统可以很快控制现代设备，例如假肢或动力性机器人外骨骼。

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《Pulse, IEEE》 |2012年第1期|p.34-37|共4页
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Contreras-Vidal J.L.; Presacco A.; Agashe H.; Paek A.;
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Department of Electrical and Computer Engineering, University of Houston, Texas.;

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1. Motor Restoration Based on the Brain-Machine Interface Using Brain Surface Electrodes: Real-Time Robot Control and a Fully Implantable Wireless System [J] . Masayuki Hirata, Kojiro Matsushita, Takufumi Yanagisawa, Advanced Robotics: The International Journal of the Robotics Society of Japan . 2012,第3a4期

机译：使用脑表面电极基于脑机接口的运动恢复：实时机器人控制和完全植入式无线系统
2. Closed-Loop Brain-Machine-Body Interfaces for Noninvasive Rehabilitation of Movement Disorders [J] . Broccard Frederic D., Mullen Tim, Chi Yu Mike, Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2014,第8期

机译：闭环脑机体接口用于无障碍运动障碍康复
3. Invasive or Noninvasive: Understanding Brain-Machine Interface Technology [Conversations in BME] [J] . del R. Milan J., Carmena J.M. Engineering in Medicine and Biology Magazine, IEEE . 2010,第1期

机译：有创或无创：了解脑机接口技术[BME中的会话]
4. Towards a whole body brain-machine interface system for decoding expressive movement intent Challenges and Opportunities [C] . Jose L Contreras-Vidal, Jesus Cruz-Garcia, Anastasiya Kopteva International Workshop on Brain-Computer Interface . 2017

机译：面向全身脑机接口系统以解码表达运动意图的挑战和机遇
5. Development of a Brain-Machine Interface for the Restoration of Limb Motor Control and Proprioception. [D] . Ruiz-Torres, Ricardo. 2016

机译：开发用于恢复肢体运动控制和本体感觉的脑机接口。
6. Restoration of Whole Body Movement: Toward a Noninvasive Brain-Machine Interface System [O] . José L. Contreras-Vidal, Alessandro Presacco, Harshavardhan Agashe, -1

机译：全身运动的恢复：迈向无创脑 - 机接口系统
7. Restoration of Whole Body Movement: Toward a Noninvasive Brain-Machine Interface System [O] . J. L. Contreras-Vidal, A. Presacco, H. Agashe, 2012

机译：恢复全身运动：朝向非侵入性脑机接口系统

Restoration of Whole Body Movement: Toward a Noninvasive Brain-Machine Interface System

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