Open AccessAggregation of Variables and System Decomposition: Applications to Fitness Landscape Analysis
Author(s) -
Max Shpak,
Peter F. Stadler,
Günter P. Wagner,
Joachim Hermisson
Publication year - 2004
Publication title -
theory in biosciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.345
H-Index - 37
eISSN - 1611-7530
pISSN - 1431-7613
DOI - 10.1016/j.thbio.2004.02.001
Subject(s) - fitness landscape , philosophy of biology , decomposition , selection (genetic algorithm) , class (philosophy) , property (philosophy) , computer science , variable (mathematics) , aggregate (composite) , mathematics , theoretical computer science , biology , ecology , artificial intelligence , population , philosophy , mathematical analysis , materials science , demography , epistemology , sociology , composite material , philosophy of science
In this paper we present general results on aggregation of variables, specifically as it applies to decomposable (partitionable) dynamical systems. We show that a particular class of transition matrices, namely, those satisfying an equitable partitioning property, are aggregable under appropriate decomposition operators. It is also shown that equitable partitions have a natural application to the description of mutation-selection matrices (fitness landscapes) when their fitness functions have certain symmetries concordant with the neighborhood relationships in the underlying configuration space. We propose that the aggregate variable descriptions of mutation-selection systems offer a potential formal definition of units of selection and evolution.
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