智能源于耗散结构优化自身不确定性的自指耗散 "Intelligence arises from dissipative structures optimizing their own uncertainty through self-referential dissipation."

VNAE: A geometric approach to global stability in massive multi-agent systems with asymmetric dissipation, validated at scale.

Foundational papers for the Symmetrical Convergence (SymC) framework. Establishes χ ≈ 1 as a universal stability boundary governing quantum-classical transitions, parameter emergence, and adaptive system behavior. The theoretical core from which all domain-specific applications derive.

Cosmological applications of the SymC framework. Applies χ ≈ 1 stability principles to universe-scale phenomena including cosmic acceleration onset, black hole thermodynamics, and cyclical cosmology. Demonstrates framework consistency from quantum boundaries to cosmic structure.Retry

Geometric model of asymmetric coordination in biological systems under the Victoria-Nash Asymmetric Equilibrium (VNAE) framework.

Abstract power grid dynamics under asymmetric dissipation, illustrating geometric stability in the VNAE framework.

Interactive Monte Carlo simulation of the VNAE framework. A visual playground to test how Theta and Beta parameters influence win rates in asymmetric systems.

Practical example of the Victoria-Nash Asymmetric Equilibrium (VNAE) applied to multi-agent drone control. Paper: "Riemmanian Manifolds of Asymmetric Equilibria: The Victoria-Nash Geometry".

Abstract model of rhythm synchronization driven by asymmetric dissipation under VNAE.

Asymmetric liquidity flow dynamics in financial networks, interpreted via effective geometry and stability under the Victoria-Nash Asymmetric Equilibrium (VNAE).

Architecture d'IA Topologique exploitant les réseaux Kagomé, les Cristaux Temporels de Floquet et le Calcul Rétrocausal pour atteindre la complexité PSPACE au-delà des limites NISQ

Étude théorique sur la création de "Cristaux Temporels Chimiques" : comment la frustration géométrique, la topologie et le confinement photonique peuvent stabiliser des réactions hors équilibre sans dissipation excessive

This repository explores the geometric stability of complex biochemical networks using the VNAE framework.

Victoria-Nash Asymmetric Equilibrium (VNAE) framework for massive multi-agent systems. Scalable stability analysis for 10,000+ agents using Riemannian geometry and structural curvature K.

🛠️ Develop a coordination model using VNAE to analyze asymmetric protocols for stable global behavior in complex systems.