自主反馈与大脑活动

Shu-Hui Tsai, Yue-Der Lin
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引用次数: 0

摘要

本研究的重点是脑夹带的自主反馈,特别是通过心脏自主功能的变化来控制脑波夹带的用户友好界面。结合脑电波的产生,该设备将能够为用户减轻压力。该平台包括几项关键技术,例如该设备可以使用测量的心脏节律变化来控制多通道振荡器,从而将大脑带入特定的娱乐状态。通过心律变化反映的自主神经活动的兴奋状态,包括自主神经活动的总电位水平、交感神经分支的电位和副交感神经活动,可以作为身体状态的生物反馈和相互作用的证据,为更个性化的适应提供依据。这个平台可以嵌入在床、椅子甚至地板上,以提供逼真的互动体验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Autonomie feedback with brain entrainment
The study focused on the autonomous feedback with brain entrainment, specifically involving an user-friendly interface to control brainwave entrainment by variation in cardiac autonomie function. In combination with generation of brainwave entrainment, the device would be capable of delivering relief from pressure for user. The platform included several key technologies, such that the device could use measured cardiac rhythmic variation to control a multi-channel oscillators to bring the brain to a specific entrainment state. The excitatory state of autonomie activity, which was reflected by the cardiac rhythmic variation, including the overall potential level of autonomie activity, the potential from the sympathetic branch, and the parasympathetic activity, could be used as biofeedback of body status and an evidence of interaction for more personalized adaptation. This platform could be embedded in beds, chairs, or even the floors to provide a realistic interactive experience.
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