最近的研究也表明,脑细胞死亡后,脑电活动和血液流通仍在继续,只不过还不足以作用于整个身体。
Recent studies have also suggested that some electrical activity and blood flow continues after brain cell death, just not enough to allow for the whole body to function.
神经芯片技术是一种将神经元或脑组织与场效应晶体管技术结合起来研究神经元电活动和大脑学习记忆等高级功能的新技术。
Neurochip is a new technology of studying the electrical activities of nerve cells and advanced functions of brain, such as learning and memory by combining with field-effect transistor technique.
一项研究的结果提示,电刺激脑可改善阿尔茨海默病老年患者的记忆和认知的功能。
Electrical stimulation of the brain may improve memory and recognition in elderly people who suffer from Alzheimer's disease, results of a study hint.
事件相关脑电的量化表征对于研究意识任务识别和认识大脑思维机制具有重要意义。
The quantification of event-related EEG is important in identifying mental tasks and study brain thinking mechanism.
脑电研究对探索脑神经活动规律、研究脑的认知功能具有重要的科学意义和临床应用价值。
The research of EEG is of grat significance and clinical importance in studying the cognitive function and neural activity of the brain.
脑电研究包括脑电正问题和脑电逆问题研究。
The study of electroencephalogram (EEG) includes forward solution of EEG and inverse problem of EEG.
目的研究视觉空间记忆和抽象几何图形记忆的工作记忆负荷对脑电事件相关同步化和去同步化的影响。
Objective To examine the effect of visual working memory load on the event related EEG synchronization and desynchronization.
由此我们可以得到对于睡眠剥夺疲劳模型的脑电参数评价指标,建立对疲劳程度的脑电参数评价指标体系,并且进一步用于评价药物和进行药物作用机理的研究。
Parameters, for rat sleep deprivation weariness model, and build a system for assessment. Furthermore, the system can be used to evaluate medicine and analysis the mechanism of it.
本研究试图从行为和脑电实验两个方面探索问题空间影响抑制效应的认知神经机制。
The aim of present study is to explore the cognitive and brain mechanism of the problem space affecting suppression effect from both behavioural and ERP experiments.
本文在对小波神经网络及其算法研究的基础上,提出了一种对脑电信号压缩表达和痫样脑电棘波识别的新方法。
A novel method of EEG signals compression representation and epileptiform spikes recognition based on wavelet neural network and its algorithm is presented in this paper.
本文介绍和研究了一种新型的脑电反馈方法,该方法将脑电生物反馈和电磁场生物效应有机结合。
A new EEG feedback method is introduced. This method makes use of biofeedback and the biological effects of electromagnetic field.
脑电研究领域的两个关键问题是脑电正问题和脑电逆问题。
There are two key problems in the field of EEG, EEG forward problem and EEG inverse problem.
脑电研究领域的两个关键问题是脑电正问题和脑电逆问题。
There are two key problems in the field of EEG, EEG forward problem and EEG inverse problem.
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