The Resonance-Based Subspace Dynamics (RBS-D) framework provides a unified structural approach to physical systems in which observable phenomena emerge from resonance-organized configurations of coupled state spaces. This Publication No. 0 / 24 serves as the consolidated reference point of the entire RBS-D series, summarizing foundational principles, phase structure, and the transition from theoretical formulation (Publications 1–14) to applied resonance engineering (Publications 15–24). In this framework, physical systems are interpreted not as isolated objects but as dynamically coupled subspace structures governed by resonance conditions, phase relationships, invariance classes, and stability constraints. The applied phase introduces regime-dependent behavior, threshold phenomena, and order-parameter-driven transitions, enabling controlled modulation of system responses in coupled multi-mode systems. This document defines the structural backbone of the RBS-D series and provides a citable entry point for all current and future developments.
Tobias Wolfelsperger (Thu,) studied this question.