Previous Parts developed an emergent cosmological framework within Origin Geometry (OG), in which cosmological expansion is interpreted as a coarse-grained consequence of: topological relaxation, geometric stress redistribution, nonlinear collective dynamics, and bulk propagation within the dual–H₄ network. The present work synthesizes this framework into a unified model of self-organizing geometric cosmology. Within Origin Geometry, the Universe is not viewed as: a perfectly static metric background, nor a fully equilibrated continuum system. Instead, large-scale geometry is interpreted as a non-equilibrium dynamical system that continuously: redistributes obstruction, relaxes geometric stress, and evolves toward dynamically stable coarse-grained configurations. Expansion is therefore not regarded as a fundamental geometric postulate. Rather, it emerges as a collective response of the network to: obstruction accumulation, non-equilibrium topological dynamics, and collective stress imbalance. The present framework does not replace: General Relativity, or ΛCDM cosmology. Its objective is to provide a coarse-grained interpretation of large-scale cosmological evolution as a self-organizing relaxation process of the dual-sector network.
The Duy Tan Truong (Wed,) studied this question.