| title: |
| Modeling the coupling of action potential and electrodes |
|
| contributing persons: |
| Revathi Appali[VerfasserIn] |
 |
1046184091 |
| Ursula van Rienen
, Prof. Dr.[AkademischeR BetreuerIn] |
|
Universität Rostock, Institut für Allgemein Elektrotechnik |
| Thomas Heimburg
, Prof. Dr.[AkademischeR BetreuerIn] |
|
Niels Bohr Institute, Membrane Biophysics Group |
| Lars Schwabe
, Prof. Dr.[AkademischeR BetreuerIn] |
|
141827793 |
|
Universität Rostock, Institute of Computer Science |
|
| contributing corporate bodies: |
| Universität Rostock, Fakultät für Informatik und Elektrotechnik[Grad-verleihende Institution] |
|
10085032-7 |
|
| |
| abstract: |
|
The present monograph is a study of pulse propagation in nerves. The main project
of this work is modeling and simulation of the action potential propagation in a neuron
and its interaction with the electrodes in the context of neurochip application. In
the first part, I work with an adapted model of FitzHugh-Nagumo derived from the Hodgkin-Huxley
model. The second part was the result of turning the spotlight-on onto the drawbacks
of Hodgkin-Huxley model and to bring forth, an alternative model: soliton model. The
purpose is to comprehend the role of membrane state in the pulse propagation.
[English] |
|
| document type: |
|
| institution: |
| Faculty of Computer Science and Electrical Engineering |
|
| language: |
|
| subject class (DDC): |
| 620 Engineering & allied operations |
|
| |
publication /
production: |
Rostock
|
Rostock: Universität Rostock
|
|
2014
|
|
| |
| identifiers: |
|
| |
| access condition: |
|
| license/rights statement: |
all rights reserved
This work may only be used under the terms of the German Copyright Law (Urheberrechtsgesetz). |
|
|
| RosDok id: |
rosdok_disshab_0000001079 |
| created / modified: |
14.01.2014 / 08.08.2023
|
| metadata license: |
The metadata of this document was dedicated to the public domain
(CC0 1.0 Universal Public Domain Dedication). |
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