PlanetPhysics/Biogroupoids and Mathematical Models of Species Evolution

Biogroupoids and mathematical models of species evolution[edit | edit source]

Introduction[edit | edit source]

Biogroupoids , ${\displaystyle {\mathcal {G_{B}}}}$, were introduced as mathematical \htmladdnormallink{representations {http://planetphysics.us/encyclopedia/CategoricalGroupRepresentation.html} of evolving biological species} (^[1]) that are defined by (or `consist of') weakly equivalent classes of living organisms , ${\displaystyle E_{O}}$, specified by inter-breeding organisms;in this case, the weak equivalence relation, ${\displaystyle \sim _{w}}$, is defined on the set of evolving organisms modeled in terms of functional, isomorphic genome networks , ${\displaystyle G_{iso}^{N}}$, such as those described by ${\displaystyle LM_{n}}$-logic networks in \L{}ukasiewicz-Moisil, ${\displaystyle {\mathcal {L}}M}$ topoi (^[1]).

AT-Formulation[edit | edit source]

This biogroupoid concept allows an algebraic topology formulation of the origin of species and biological evolution both at organismal/organismic and biomolecular levels; it represents a new approach to biological evolution from the standpoint of super-complex systems biology.

All Sources[edit | edit source]

^{[1] [2]}

References[edit | edit source]

1. ↑ ^{1.0 1.1 1.2} Baianu I. C., Brown R., Georgescu G. and J. F. Glazebrook: 2006, Complex Nonlinear Biodynamics in Categories, Higher Dimensional Algebra and \L ukasiewicz-Moisil Topos: Transformations of Neuronal, Genetic and Neoplastic Networks., Axiomathes , 16 Nos. 1-2: 65-122.
2. ↑ Baianu, I.C., R. Brown and J.F. Glazebrook. : 2007, Categorical Ontology of Complex Spacetime Structures: The Emergence of Life and Human Consciousness, Axiomathes, \textbf {17}: 35-168.