2005 | OriginalPaper | Chapter
Self-repair Ability of a Toroidal and Non-toroidal Cellular Developmental Model
Authors : Can Öztürkeri, Mathieu S. Capcarrere
Published in: Advances in Artificial Life
Publisher: Springer Berlin Heidelberg
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This paper is part of a larger project whose main objective is to demonstrate experimentally that the following hypothesis holds:
computational developmental systems on a cellular structure are a) naturally fault-tolerant and b) evolvable
. By naturally we mean that the system is not fault-tolerant by explicit design nor due to evolutionary pressure, but rather that the framework insures a high probability of fault-tolerance as an emergent property. In this paper, we propose to study the self-repair capacities of a specific developmental cellular system introduced in [13]. More specifically we compare the toroidal and the non-toroidal cases. Their evolvability is to be presented in details in a further article. All the examples studied here have been evolved to configure an abstract digital circuit. The evolved organisms are subjected to a series of different fault models and their self-repair abilities are reported. From the results exposed here, it can be concluded that, while not systematic, perfect self-repair, and hence fault-tolerance is a highly probable property of these organisms and that many of them even exhibit fully perfect self-repair behaviour under all tests performed.