Modelling Evolution of Regulatory Networks in Artificial Bacteria
Résumé
Studying the evolutive and adaptative mechanisms of prokaryotes is a complicated task. As these mechanisms cannot be easily studied ``in vivo'', it is necessary to consider other methods.
We have therefore developed the RAevol model, a model designed to study the evolution of
bacteria and their adaptation to the environment.
Our model simulates the evolution of a population
of artificial bacteria in a changing environment, providing us with an
insight into the strategies that digital organisms develop to adapt to
new conditions.
In this paper we describe the principles and architecture of the
model, focusing on the mechanisms of the regulatory networks of artificial organisms.
Experiments were conducted on populations of artificial bacteria under
conditions of stress. We study the ways in which organisms adapt to
environmental changes and examine the strategies they adopt. An
analysis of these adaptation strategies is presented and a brief
overview was proposed concerning the patterns and topological
characteristics of the evolved regulatory networks.
Domaines
Informatique [cs]Origine | Fichiers éditeurs autorisés sur une archive ouverte |
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