A Graphical Approach to a Model of Neuronal Tree with Variable Diameter

Marco Herrera-Valdez; Sergei K. Suslov

arXiv:1101.0296·q-bio.NC·January 4, 2011·2 cites

A Graphical Approach to a Model of Neuronal Tree with Variable Diameter

Marco Herrera-Valdez, Sergei K. Suslov

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TL;DR

This paper introduces a graphical method for analyzing steady state solutions of the cable equation in neuronal trees with tapering, providing a new approach to understanding dendritic structures.

Contribution

It presents a novel graphical approach to solve the cable equation for tapered dendritic trees, extending analysis capabilities beyond existing methods.

Findings

01

Effective graphical method for steady state solutions

02

Brief discussion on transient solutions

03

Applicable to complex dendritic geometries

Abstract

We propose a simple graphical approach to steady state solutions of the cable equation for a general model of dendritic tree with tapering. A simple case of transient solutions is also briefly discussed.

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Taxonomy

TopicsQuantum chaos and dynamical systems · Nonlinear Dynamics and Pattern Formation · stochastic dynamics and bifurcation