现在你已经创建了一个可能的脑图。
这样非常易于添加新的信息到思维脑图的分枝上。
It is also very easy to add new information on lines anywhere in the map.
我们是世界上第一个记录婴儿在脑磁图显示机下的学习的脑图。
We're the first in the world to record babies in an MEG machine while they are learning.
我熟悉脑图的使用,能够使用软件或者纸笔在合适的时候做脑图。
I am familiar with mind mapping, and either use software or paper to do mind maps when useful.
在早期尝试脑映射的方法中,这种方法用符号和脑图来解释脑不同器官的不同功能。
In an early attempt at brain mapping, this etching of a symbolic head and phrenological chart aims to explain the functions designated to the different "organs" of the brain.
对于讨论的关键的主题会在每周的结束后作为讨论的总结会以脑图的形式总结给大家。
Mind maps of key discussion topics will be co-created with participants at the conclusion of each week.
另一方面,如果你以学习脑图的方式来记笔记,你就能跟随自然的思考模式并在你的思维需要跳跃时发生跳跃。
On the other hand, if you take notes in the form of a learning map you will follow the natural thinking process and make leaps when your thoughts leap.
笔者利用托尼·布赞的“脑图”模式,制作出了一套2 11张《运动解剖学》“脑图”幻灯演示片,并用于教学过程中。
We produce 211 pieces of slide with the Mind Map and try to use in the Sports Anatomy teaching.
OmniGraffle提供了许多工具用于快速创建流程图、图示、网站原型、页面布局、网络对话、脑图(哈哈!)以及其他可视化的图形。
OmniGraffle provides you with a set of tools to quickly and easily make diagrams, charts, website mockups, page-layouts, network diagrams, mind maps (huh!) and other things visual.
脑磁图扫描技术已经具有一种医疗上的用途。
这种技术被称为脑皮层电图学,简称ECoG。它主要是通过在大脑皮层上分布电极,来侦测从大脑内部发出的电流信号。
The technology is called electrocorticography, or ECoG, and it uses electrodes placed on the surface of the brain to detect electrical signals coming from the brain itself.
尽管这张错觉图不能事实上确定你是“左脑型”还是“右脑型”,但我们感兴趣的是,在观察这张错觉图时事实上影响人们对这张图感知的因素是什么。
While the illusion can't actually determine whether you're "right-brained" or "left-brained," we were curious about what actually affects people's perception of the illusion.
脑磁图扫描是一个冗长的词汇,但它却是用来探查微小变化的方法。
MAGNETOENCEPHALOGRAPHY is a big word for a technique that measures tiny changes.
脑地形图也显示,这两种刺激的引起的电位分布相似。
The brain topography also shows that both stimuli have similar potential distribution.
图7:轴位CT脑池造影显示硬膜下造影剂沿着中隔渗漏到扩张的右侧蝶窦腔内。
Figure 7: Axial image from CT cisternogram demonstrates intrathecal contrast leaking into the expanded right sphenoid sinus along the septum (orange arrow).
功能性MRI图在脑血流方面会有所改变,从而容许研究者观察针对特定的刺激,大脑中哪一个部分变得更加活跃。
Functional MRI charts changes in brain blood flow, allowing researchers to see which brain areas become more active in response to a particular stimulus.
本文探讨30例老年高血压病脑电阻图特点及兴城矿泉浴对其血压和脑血管机能的影响。
The REG feature of 30 cases of senile vascular hypertension and effect of Xingcheng mineral spring both on blood pressure were studied in this paper.
目的研究脑CT检查为阴性的轻型颅脑损伤的脑电图(EEG)、脑电地形图(BEAM)变化特点及其临床价值。
Objective To investigate the image features and clinical values of electroencephalogram(EEG)and brain electrical activity map(BEAM)for the mild brain injury without positive presentation on CT scan.
目的:探讨脑电地形图与CT在常见神经系统疾病中的对比应用。
Objective: To explore contrast application on BA and ct in common diseases of nervous system.
结论;小儿眩晕症影响脑功能并致脑电地形图异常。
Conclusion: Childhood vertigo effect function of brain and abnormal changes of BEAM.
图像资料经处理后获得脑区激活图。
Brain activation map was obtained after data postprocessing.
目的:为了分析脑电地形图在伴有脑功能改变的小儿眩晕症中的意义。
Objectives: To analyse clinical significance of BEAM in childhood vertigo with changes of function of brain.
目的:观察腔隙性脑梗死脑电地形图、脑电图改变的特点及临床诊断意义。
Objective: To observe the change of BEAM, EEG and ct in lacunar infarction, and their clinical diagnoses significance.
目的:通过观察脑肿瘤病人的脑电图及脑电地形图特点,以探讨脑电地形图对于脑肿瘤的诊断价值。
Objective: To explore the diagnostic value of BEAM by observing the characteristics of EEG and BEAM in patients with brain tumors.
目的:通过观察脑肿瘤病人的脑电图及脑电地形图特点,以探讨脑电地形图对于脑肿瘤的诊断价值。
Objective: To explore the diagnostic value of BEAM by observing the characteristics of EEG and BEAM in patients with brain tumors.
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