Computer Simulation of Vestibuloocular Reflex Motor Learning Using a Realistic Cerebellar Cortical Neuronal Network Model

机译：使用逼真的小脑皮质神经网络模型的门穴反射电机学习计算机仿真

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The vestibuloocular reflex (VOR) is under adaptive control to stabilize our vision during head movements. It has been suggested that the acute VOR motor learning requires long-term depression (LTD) and potentiation (LTP) at the parallel fiber -^sPurkinje cell synapses in the cerebellar flocculus. We simulated the VOR motor learning basing upon the LTD and LTP using a realistic cerebellar cortical neuronal network model. In this model, LTD and LTP were induced at the parallel fiber -^sPurkinje cell synapses by the spike timing dependent plasticity rule, which considers the timing of the spike occurrence in the climbing fiber and the parallel fibers innervating the same Purkinje cell. The model was successful to reproduce the changes in eye movement and Purkinje cell simple spike firing modulation during VOR in the dark after low and high gain VOR motor learning.

机译：前庭曲线反射（VOR）是在适应性控制下，在头部运动期间稳定我们的视觉。有人建议，急性VOR电机学习需要长期凹陷（LTD）和平行纤维 - ^杀霉杂交细胞中的长期凹陷（LTP）在小脑絮凝物中突出。我们使用现实的小脑皮质神经元网络模型模拟了LTD和LTP的VOR Motor学习。在该模型中，LTD和LTP在平行的纤维 - ^ Spurkinje细胞突起通过尖峰定时依赖性可塑性规则，这考虑了爬光纤维中的尖峰发生的时序和接收相同的紫癜细胞的平行纤维。该模型成功地重现了在低高增益VOR电机学习后VOR中VOR中的眼球运动和PURKINJE细胞简单尖峰射击调制的变化。

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《International Confernece on Neural Information Processing》|2008年||共11页
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Kayichiro Inagaki; Yutaka Hirata; Pablo M. Blazquez; Stephen M. Highstein;
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中图分类 TP3-53;
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VOR motor learning; Spike neuron model; Spike timing dependent plasticity; Long-term depression; Long-term potentiation;

机译：VOR MOROR学习;尖峰神经元模型;尖峰时序依赖可塑性;长期抑郁;长期倾向;

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1. Combining machine learning and simulations of a morphologically realistic model to study modulation of neuronal activity in cerebellar nuclei during absence epilepsy [J] . Parimala Alva, Lieke Kros, Oscar H J Eelkman Rooda, BMC Neuroscience . 2014,第SUPPLEMENTa1期

机译：结合机器学习和形态学逼真的模型的模拟来研究失神癫痫期间小脑核神经元活动的调节
2. Combining machine learning and simulations of a morphologically realistic model to study modulation of neuronal activity in cerebellar nuclei during absence epilepsy [J] . Parimala Alva, Lieke Kros, Oscar H J Eelkman Rooda, BMC Neuroscience . 2014,第SUPPLEMENTa1期

机译：结合机器学习和形态学逼真的模型的模拟来研究失神癫痫期间小脑核神经元活动的调节
3. The origin of the frequency selectivity in VOR motor learning revealed by a realistic cerebellar spiking neuron network model. [J] . Keiichiro Inagaki, Seiichi Kobayashi, Yutaka Hirata BMC Neuroscience . 2010,第SUPPLEMENTa1期

机译：现实的小脑尖刺神经元网络模型揭示了VOR运动学习中频率选择性的起源。
4. Computer Simulation of Vestibuloocular Reflex Motor Learning Using a Realistic Cerebellar Cortical Neuronal Network Model [C] . Kayichiro Inagaki, Yutaka Hirata, Pablo M. Blazquez, International Conference on Neural Information Processing;ICONIP 2007 . 2008

机译：使用现实的小脑皮层神经网络模型的脑室反射运动学习的计算机模拟。
5. Cerebellar mechanisms for motor learning: Testing predictions from a large-scale computer simulation. [D] . Medina, Javier Francisco. 2000

机译：运动学习的小脑机制：测试来自大型计算机模拟的预测。
6. Combining machine learning and simulations of a morphologically realistic model to study modulation of neuronal activity in cerebellar nuclei during absence epilepsy [O] . Parimala Alva, Lieke Kros, Oscar H J Eelkman Rooda, 2014

机译：结合机器学习和形态学逼真的模型的模拟来研究失神癫痫期间小脑核神经元活动的调节
7. Combining machine learning and simulations of a morphologically realistic model to study modulation of neuronal activity in cerebellar nuclei during absence epilepsy [O] . 2014

机译：结合机器学习和形态学逼真的模型的模拟来研究失神癫痫期间小脑核神经元活动的调节
8. Mathematical Model of the Vestibuloocular Reflex. [R] . chun , kee soon 1977

机译：前庭反射的数学模型。

Computer Simulation of Vestibuloocular Reflex Motor Learning Using a Realistic Cerebellar Cortical Neuronal Network Model

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