Open repository with code and data supporting the subjective physics hypothesis: multi-level computational model of macro-consciousness with self-organizing networks and predictive adaptation.

Open repository containing code, simulations, and LaTeX materials supporting the Subjective Physics hypothesis: modeling cognitive phase transitions, synchronization, and order parameters in adaptive networks of agents with fully reproducible experiments.

Numerical simulations validating the observer entropy framework: demonstrating emergent thermodynamics from quantum information loss. Code reproduces monotonic entropy growth and temperature emergence for qubit-bath systems under Lindblad dynamics.

Reproducible simulation and theoretical framework of Thermodynamic Cognitive Homeostasis (TCH) — a thermodynamic model of self-regulating cognition within Subjective Physics. Includes Python code, figures, and validation scripts.

KL-Geometric Structure of Observer Entropy. Bridge Theorem: S_obs = ½ε²vᵀI(θ)v + O(ε³). Fisher–Rao metric, sufficient conditions, dissipation functional. Two worked examples (4-point and 5-point spaces). Python verification script and figures.

⚙️ Implement self-regulating cognitive systems using the Thermodynamic Cognitive Homeostasis model for robust AI development and simulation.