|
Digital Library of the
European Council for Modelling and Simulation |
Title: |
Artificial Genes Implementation Upon FPGA-Based Embryonic Network
Structure |
Authors: |
Virgil Chindriş, Csaba Szász |
Published in: |
(2011).ECMS
2011 Proceedings edited by: T. Burczynski, J. Kolodziej, A. Byrski, M. Carvalho. European Council for Modeling and Simulation. doi:10.7148/2011 ISBN:
978-0-9564944-2-9 25th
European Conference on Modelling and Simulation, Jubilee Conference Krakow,
June 7-10, 2011
|
Citation
format: |
Chindris, V., & Szasz,
C. (2011). Artificial Genes Implementation Upon FPGA-Based Embryonic Network
Structure. ECMS 2011 Proceedings edited by: T. Burczynski,
J. Kolodziej, A. Byrski, M. Carvalho (pp. 153-158).
European Council for Modeling and Simulation. doi:10.7148/2011-0153-0158 |
DOI: |
http://dx.doi.org/10.7148/2011-0153-0158 |
Abstract: |
This
paper presents the simulation and VLSI hardware implementation of a novel
bio-inspired architecture with self-healing and artificial immune properties
for high reliability industrial control applications. The basic idea is to
imitate the biological organism’s cell-based structure, which involves nearly
perfect selforganization and fault-tolerance
abilities in a wellorganized hierarchical
mechanism. Exploiting the generous hardware facilities offered by the FPGAs, a main property of living organisms like
self-replication is reproduced in digital structures. Particularly, the paper
describes the artificial genes implementation and cells’ self-replication
process upon FPGA-based embryonic network architecture (embryonic machine).
The presented theoretical approaches were tested through real-time
computer-aided simulations. |
Full
text: |