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  • 1. Federici, Diego
    et al.
    Ziemke, Tom
    University of Skövde, School of Humanities and Informatics.
    Why are evolved developing organisms also fault-tolerant?2006In: FROM ANIMALS TO ANIMATS 9, PROCEEDINGS, Springer Berlin/Heidelberg, 2006, p. 449-460Conference paper (Refereed)
    Abstract [en]

    It has been suggested that evolving developmental programs instead of direct genotype-phenotype mappings may increase the scalability of Genetic Algorithms. Many of these Artificial Embryogeny (AE) models have been proposed and their evolutionary properties are being investigated. One of these properties concerns the fault-tolerance of at least a particular class of AE, which models the development of artificial multicellular organisms. It has been shown that such AE evolves designs capable of recovering phenotypic faults during development, even if fault-tolerance is not selected for during evolution. This type of adaptivity is clearly very interesting both for theoretical reasons and possible robotic applications. In this paper we provide empirical evidence collected from a multicellular AE model showing a subtle relationship between evolution and development. These results explain why developmental fault-tolerance necessarily emerges during evolution.

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