Modeling Cable Theory at Marsha Shain blog

Modeling Cable Theory. Cable theory is fundamental to understand the electric behavior of neurons and their extended dendritic structure. Here we consider a generalised form of cable theory which takes into account both branching and tapering structures of dendritic trees. Cable theory has a prominent place in neuroscience as it forms the basis of models of single neurons, axons, and dendrites and has. Cable theory the e ects of passive conduction are most pronounced for long and narrow dendritic branches, which may be. A relevant mathematical tool to describe the bioelectricity in the neuronal dendrites is cable theory, which is based on. Neuronal cable theory is a set of assumptions and results relating to the propagation and interaction of electrical signals. The sections in this article are:

3D FE modeling of cablestayed bridge according to ICE code
from www.degruyter.com

A relevant mathematical tool to describe the bioelectricity in the neuronal dendrites is cable theory, which is based on. The sections in this article are: Here we consider a generalised form of cable theory which takes into account both branching and tapering structures of dendritic trees. Cable theory the e ects of passive conduction are most pronounced for long and narrow dendritic branches, which may be. Cable theory has a prominent place in neuroscience as it forms the basis of models of single neurons, axons, and dendrites and has. Cable theory is fundamental to understand the electric behavior of neurons and their extended dendritic structure. Neuronal cable theory is a set of assumptions and results relating to the propagation and interaction of electrical signals.

3D FE modeling of cablestayed bridge according to ICE code

Modeling Cable Theory Neuronal cable theory is a set of assumptions and results relating to the propagation and interaction of electrical signals. Neuronal cable theory is a set of assumptions and results relating to the propagation and interaction of electrical signals. Cable theory the e ects of passive conduction are most pronounced for long and narrow dendritic branches, which may be. Cable theory is fundamental to understand the electric behavior of neurons and their extended dendritic structure. The sections in this article are: Here we consider a generalised form of cable theory which takes into account both branching and tapering structures of dendritic trees. Cable theory has a prominent place in neuroscience as it forms the basis of models of single neurons, axons, and dendrites and has. A relevant mathematical tool to describe the bioelectricity in the neuronal dendrites is cable theory, which is based on.

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