A Neuronal Model of the Primary Visual Cortex: Simulation of Visual Evoked Potentials

机译：主要视觉皮层的神经元模型：视觉诱发电位的模拟

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The paper describes a theoretical model for simulating electrical signals in specialized cortical areas using artificial neuron connections. The study focuses on the structure of the visual cortex and the development of an elementary neural model of the primary visual cortex (V1) responsible for processing contrast visual stimuli type. It’s proposed a basic artificial neural structure composed by connecting representative neurons in V1 capable of generating visual evoked potentials (VEP) responses. The reference response model utilized is the P100 wave that appears unconditionally at people with normal vision to visual stimuli such as flashes or contrast reversal. It was considered that the electrical activity of the primary visual cortex is due to the functioning of a set of excitatory and inhibitory neurons and so, it was simulated the VEP signal with simple type neurons.

机译：本文介绍了使用人工神经元连接模拟专用皮质区域中电信号的理论模型。该研究侧重于视觉皮层的结构以及负责处理对比视觉刺激类型的主要视觉皮质（V1）的基本神经模型的开发。它提出了一种基本的人工神经结构，通过在能够产生可视诱发电位（VEP）响应的V1中连接代表神经元组成。所使用的参考响应模型是P100波，其在具有正常视觉的人们对视觉刺激等视觉诸如闪光或对比反转的人的人们出现。被认为是主要视觉皮层的电活动是由于一组兴奋性和抑制性神经元的功能，因此用简单的神经元模拟VEP信号。

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《International Conference on Electronics, Computers and Artificial Intelligence》|2021年|1-4|共4页
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Coman Andreea Daniela; Ionita Silviu; Lita Ioan;
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Computers; Visualization; Electric potential; Biological system modeling; Computational modeling; Neurons; Parallel processing;

机译：计算机;可视化;电势;生物系统建模;计算建模;神经元;并行处理;

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1. Rapid visual stimulation increases extrasynaptic glutamate receptor expression but not visual-evoked potentials in the adult rat primary visual cortex [J] . EckertM.J., GuévremontD., WilliamsJ.M., The European Journal of Neuroscience . 2013,第3a4期

机译：快速的视觉刺激会增加成年大鼠初级视觉皮层中突触外谷氨酸受体的表达，但不会增加视觉诱发电位
2. Evidence of an increased neuronal activation-to-resting glucose uptake ratio in the visual cortex of migraine patients: a study comparing 18FDG-PET and visual evoked potentials [J] . Marco Lisicki, Kevin D’Ostilio, Gianluca Coppola, The journal of headache and pain . 2018,第1期

机译：偏头痛患者的视觉皮层中神经元激活 - 休息葡萄糖摄取比增加的证据：一项比较18FDG-PET和视觉诱发电位的研究
3. Exploiting individual primary visual cortex geometry to boost steady state visual evoked potentials [J] . M Isabel Vanegas, Annabelle Blangero, Simon P Kelly Journal of neural engineering . 2013,第3期

机译：利用单个初级视觉皮层的几何形状来提高稳态视觉诱发电位
4. Extraction of Visual-evoked Potentials in Rat Primary Visual Cortex Based on Independent Component Analysis [C] . Zhizhong Wang, Li Shi, Hong Wan, 2010 International conference on bio-inspired systems and signal processing. . 2010

机译：基于独立成分分析的大鼠初级视觉皮层视觉诱发电位的提取
5. Disambiguating electrical activity in early visual cortex by combining multifocal evoked potentials and functional magnetic resonance imaging [D] . Ales, Justin Michael 2007

机译：通过结合多焦点诱发电位和功能性磁共振成像消除早期视觉皮层的电活动
6. Evidence of an increased neuronal activation-to-resting glucose uptake ratio in the visual cortex of migraine patients: a study comparing 18FDG-PET and visual evoked potentials [O] . Marco Lisicki, Kevin D’Ostilio, Gianluca Coppola, 2018

机译：偏头痛患者视皮层神经元活化与静息葡萄糖摄取比率增加的证据：一项比较18FDG-PET和视觉诱发电位的研究
7. Neuronal Generators of Visual Evoked Potentials in Humans: Visual Processing in the Human Cortex [O] . Santiago Arroyo, Ronald P. Lesser, Wai-Tat Poon, 1997

机译：人类视觉诱发电位的神经元发生器：人皮层中的视觉处理
8. Focal Lesions of Visual Cortex: Effects on Visual Evoked Potentials in Rats [R] . Dyer, R. S. , Jensen, K. F. , Boyes, W. K. 1987

机译：视皮层局灶性病变：对大鼠视觉诱发电位的影响

A Neuronal Model of the Primary Visual Cortex: Simulation of Visual Evoked Potentials

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