We present PHILIA-EcoSensory Swarm v38–v38. 2, a unified experimental arc establishing the first empirical demonstration within the PHILIA framework of Living Control in a dual-channel Router system (19+ configurations, 5 seeds × 80, 000 steps each). Building on v37's diagnosis of Input Bandwidth Limitation, the v38 series systematically resolved the scale mismatch problem and introduced structured trend-deviation perturbation. The central achievement: simultaneous satisfaction of F5' (Agility Index ≥ 0. 008) and F8 (fftₗowᵣatio < 0. 80), defining Living Control as the first empirically confirmed regime of bounded, responsive, eigenstate-preserving dynamics. Key progression: - v38: Scale mismatch identified — raw derivative injection insufficient- v38. 1: Dual-channel structural breakthrough — F8/F9 first achieved- v38. 2: Trend-deviation perturbation — Living Control achieved twice independently (S1-LT95: F5'=0. 00801, S2-AD12: F5'=0. 00804) Best configuration: λₜrend = 0. 95, α = 0. 05, ad = 1. 2. A critical gain window ad* = 1. 2 is identified, analogous to a phase transition at the boundary between order and disorder. Formal Lyapunov stability (Appendix B), continuous-time ODE analysis (Appendix C), and Fisher information analysis (Appendix D) confirm bounded-input bounded-output stability and maximum information transmission at the critical gain. All results executed on local hardware (AMD Ryzen 7 9800X3D, RTX 4080 SUPER 16GB). No AI-generated proxy values used. Trinity AI Research Team | 2026. 04— PHILIA OS | 0∞1∞0. 5∞
신두섭 (Fri,) studied this question.