Two Computational Regimes of a Single-Compartment Neuron Separated by a Planar Boundary in Conductance Space

Brian Nils Lundstrom; Sungho Hong; Matthew H. Higgs; Adrienne L. Fairhall

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Two Computational Regimes of a Single-Compartment Neuron Separated by a Planar Boundary in Conductance Space

机译：电导空间中平面边界分隔的单格神经元的两种计算方式

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Recent in vitro data show that neurons respond to input variance with varying sensitivities. Here we demonstrate that Hodgkin-Huxley (HH) neurons can operate in two computational regimes: one that is more sensitive to input variance (differentiating) and one that is less sensitive (integrating). A boundary plane in the 3D conductance space separates these two regimes. For a reduced HH model, this plane can be derived analytically from the V nullcline, thus suggesting a means of relating biophysical parameters to neural computation by analyzing the neuron's dynamical system.

机译：最近的体外数据显示，神经元以不同的敏感性对输入方差做出反应。在这里，我们证明霍奇金-赫克斯利（HH）神经元可以在两种计算方式下运行：一种对输入方差更敏感（微分），另一种对输入方差更不敏感（积分）。 3D电导空间中的边界平面将这两种状态分开。对于简化的HH模型，可以从V nullcline解析地得出该平面，从而提出了一种通过分析神经元的动力学系统将生物物理参数与神经计算相关联的方法。

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《Neural computation》 |2008年第5期|1239-1260|共22页
作者
Brian Nils Lundstrom; Sungho Hong; Matthew H. Higgs; Adrienne L. Fairhall;
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收录信息美国《科学引文索引》(SCI);美国《化学文摘》(CA);
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正文语种 eng
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6. Two computational regimes of a single-compartment neuron separated by a planar boundary in conductance space [O] . Brian Nils Lundstrom, Sungho Hong, Matthew H Higgs, -1

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7. Two Computational Regimes of a Single-Compartment Neuron Separated by a Planar Boundary in Conductance Space [O] . Brian Nils Lundstrom, Sungho Hong, Matthew H. Higgs, 2008

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Two Computational Regimes of a Single-Compartment Neuron Separated by a Planar Boundary in Conductance Space

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