Genome-physics interaction as a new concept to reduce the number of genetic parameters in artificial evolution

This paper reports on investigations on the possible advantage of the coupling between genomes and physics of cells in artificial evolution. The idea is simple: evolution can rely on physical processes during development allowing to produce shapes without need to specify how exactly this shaping has...

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Bibliographic Details
Published inThe 2003 Congress on Evolutionary Computation, 2003. CEC '03 Vol. 1; pp. 191 - 198 Vol.1
Main Author Hotz, P.E.
Format Conference Proceeding
LanguageEnglish
Published IEEE 2003
Subjects
Adhesives
Artificial intelligence
Bioinformatics
Biological system modeling
Evolution (biology)
Genetics
Genomics
Laboratories
Physics
Shape
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Summary:This paper reports on investigations on the possible advantage of the coupling between genomes and physics of cells in artificial evolution. The idea is simple: evolution can rely on physical processes during development allowing to produce shapes without need to specify how exactly this shaping has to be done. Evolving a minimal energy surface such as soap bubbles would need only the specification of the boundary values and a homogenous interaction pattern between the cells. This paper shows that it is possible to link a genetic regulatory network to physics during development, that a reduction of parameters is indeed possible and that the understanding of what is going on in such a system is relatively easy to gain.
ISBN:0780378040
9780780378049
DOI:10.1109/CEC.2003.1299574