Presentation 1993/12/14
A Realistic Simulation of Ventricles Excitation Propagation Using Amorphous Structure Units Model
Koji Oguri, Akira Iwata, Nobuo Suzumura, Mitsuharu Okajima,
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Abstract(in English) A new simulation models had been proposed so as to simulate the excitation propagation process in a human heart.It is difficult to simulate a realistic propagation process with a crystal structure. In order to overcome this difficulty,we proposed here a new type model in which the units are connected to other with amorphous structure.Characteristics of conduction velocity and action potential waveform in the myocardiumare assigned to each units with a few parameter.Reasonable excitation propagation which spread in round shape has been simulated by this model.Using this model simulation of excitation propagation process which is more simular in real human heart has been realized.This simulation may helps medical doctors evaluating the cause and effect of the re- entry.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) simulation / propagation process / amorphous / re-entry
Paper # MBE93-97
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Conference Information
Committee MBE
Conference Date 1993/12/14(1days)
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Paper Information
Registration To ME and Bio Cybernetics (MBE)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) A Realistic Simulation of Ventricles Excitation Propagation Using Amorphous Structure Units Model
Sub Title (in English)
Keyword(1) simulation
Keyword(2) propagation process
Keyword(3) amorphous
Keyword(4) re-entry
1st Author's Name Koji Oguri
1st Author's Affiliation Education Center for Information Processing,Nagoya Institute of Technology()
2nd Author's Name Akira Iwata
2nd Author's Affiliation Department of Electrical & Computer Engineering,Nagoya Institute of Technology
3rd Author's Name Nobuo Suzumura
3rd Author's Affiliation Faculty of Engineering,Chubu University
4th Author's Name Mitsuharu Okajima
4th Author's Affiliation Medical Electronics Fujita Health University
Date 1993/12/14
Paper # MBE93-97
Volume (vol) vol.93
Number (no) 375
Page pp.pp.-
#Pages 8
Date of Issue