This work proposes a structural reinterpretation of quantum mechanics through the lens of complex adaptive systems. Rather than treating observability as a direct access to reality, the paper examines the conditions under which observable states emerge from latent configurations shaped by memory, constraints, selection mechanisms, and regime dynamics. The framework integrates UCQ (Unified Cosmology–Quantum Framework), DUAL (Dual-Substrate Framework), and Crowd-Based Dynamics (CBD) into a unified architecture of constrained observability. The study introduces a regime-based reading of quantum phenomena, where superposition, collapse, uncertainty, and entanglement are interpreted as manifestations of broader structural processes governing complex systems. Memory is considered an active operator influencing future trajectories, while observability emerges as a conditional stabilization under constraint rather than an intrinsic property of objects. The paper serves as the entry point of a larger research program dedicated to the unified analysis of physical, cognitive, informational, and collective systems. It establishes the conceptual foundations for a general theory of constrained reality, memory-driven dynamics, and regime formation across domains.
Wilson John Sterking LAURET (Sat,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: