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Action potential initial dynamical analysis of neuron spiking adaptation

机译：神经元尖峰适应的动作潜在初始动态分析

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摘要

Neuron is the basic unit of neuron system and information processing. The response property and information coding style of neuron to external stimulus is realized essentially through change of neurons physiological characteristics. Some important properties of neuron, such as adaptability, sensitivity and reliability, are both closely related to neural coding. During sustained stimulation, neuron spiking frequency may decrease, which is called neuron spiking adaptation. Former researches have shown that neuron spiking adaptation is decided by action potential initial dynamical mechanism of the interaction among various ion currents. In this paper, we set to study the influence of adaptation on action potential initial dynamical mechanism. Combining the result with the corresponding relationship between action potential initial dynamical mechanism and neural coding, we can further reveal the physiological mechanism of the impact of neuron spiking adaptation on neural coding.

机译：神经元是神经元系统的基本单元和信息处理。基本上通过改变神经元生理特性来实现神经元对外部刺激的响应性能和信息编码风格。神经元的一些重要特性，例如适应性，灵敏度和可靠性，都与神经编码密切相关。在持续刺激期间，神经元尖峰频率可能降低，这被称为神经元尖峰适应。前研究表明，神经元尖峰适应由各种离子电流之间的相互作用的动作潜在的初始动态机制来决定。本文设定了研究适应对动作潜在初始动力机制的影响。将结果与作用潜在初始动态机制和神经编码之间的相应关系相结合，我们可以进一步揭示神经元尖刺适应对神经编码的影响的生理机制。

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《Chinese Control Conference》|2011年||共6页
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作者
Jin Qitao; Wang Jiang; Jia Qiuju; Deng Bin; Wei Xile; Che Yanqiu;
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中图分类 TP273-53;
关键词
Action Potential Initial Dynamical; Neuron Coding; Neuron Spiking Adaptation; Physiological Mechanism;

机译：动作潜在的初始动态;神经元编码;神经元尖刺适应;生理机制;

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1. Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Advantage of time step adaptation, using example of current spikes in linear potential sweep voltammograms for the E_(qrev)E_(qrev)-DISP reaction mecha [J] . L. K. Bieniasz Electrochemistry communications . 2002,第1期

机译：使用动态自适应网格技术求解电化学动力学方程。使用E_（qrev）E_（qrev）-DISP反应机理的线性电势扫描伏安图中的电流尖峰示例的时间步自适应优势
2. Sodium entry during action potentials of mammalian neurons: incomplete inactivation and reduced metabolic efficiency in fast-spiking neurons. [J] . Carter BC, Bean BP Neuron . 2009,第6期

机译：钠离子进入哺乳动物神经元的动作电位期间：不完全灭活并降低了快速加标神经元的代谢效率。
3. On the sensitive dependence on initial conditions of the dynamics of networks of spiking neurons [J] . Arunava Banerjee Journal of Computational Neuroscience . 2006,第3期

机译：尖峰神经元网络动力学对初始条件的敏感依赖
4. Action potential initial dynamical analysis of neuron spiking adaptation [C] . Jin Qitao, Wang Jiang, Jia Qiuju, 2011 30th Chinese Control Conference . 2011

机译：神经元突触适应的动作电位初始动力学分析
5. Statistical optimizations of muscle action potentials based on modeling and analysis of ion channel dynamics [D] . kim, GyuTae 2011

机译：基于离子通道动力学建模和分析的肌肉动作电位的统计优化
6. Sodium entry during action potentials of mammalian central neurons: incomplete inactivation and reduced metabolic efficiency in fast-spiking neurons [O] . Brett C. Carter, Bruce P. Bean -1

机译：在哺乳动物中枢神经元的动作电位钠项：不完全失活并在快速扣球神经元减少的代谢效率
7. Sodium Entry during Action Potentials of Mammalian Neurons: Incomplete Inactivation and Reduced Metabolic Efficiency in Fast-Spiking Neurons [O] . Carter Brett C., Bean Bruce P. 2009

机译：哺乳动物神经元动作电位期间的钠进入：不完全失活和快速加标神经元的代谢效率降低。
8. Spiking Excitable Semiconductor Laser as Optical Neurons: Dynamics, Clustering and Global Emerging Behaviors. [R] . Masoller, C. 2014

机译：激发可激发的半导体激光作为光学神经元：动力学，聚类和全球新兴行为。

Action potential initial dynamical analysis of neuron spiking adaptation

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