The Shiwhare Cosmology: Pre–Big Bang Dynamics and the Emergence of Fluctuations

This study introduces The Shiwhare Cosmology, a theoretical framework describing the pre-Big Bang origin of the universe through the algebraic dynamics of fundamental logical entities termed v-entities. These entities, defined by nullity-preserving contraction-expansion operations, constitute an infinite-dimensional background structure in which alternating configurations maintain overall equilibrium. A spontaneous transformation among same-parity v-entities generates NB-entities, representing localized nullity breaks (NB-events) that disrupt equilibrium and initiate the earliest form of cosmic fluctuation. The resulting interactions among NB-entities lead to effective dimensional reduction, entropy redistribution, and large-scale clustering-interpreted as precursors to cosmic inflation and structure formation. The model formalizes these processes through interaction functionals, lattice-based neighbourhood analysis, and twist transformations within infinite-dimensional vector spaces. The Shiwhare framework thus provides a mathematically consistent and conceptually unified mechanism linking a pre-Planckian null background to the emergence of a dynamically evolving universe.