Optimal System Alignment (OSA): A Conceptual Framework for Endogenous System Stability (Version 1.0) This record presents Version 1.0 of the Optimal System Alignment (OSA) framework, a conceptual systems science model designed to examine systemic stability as an emergent property of endogenous alignment conditions. The framework introduces the Optimal System Alignment Index (OSAI), a normalized composite indicator derived from six conceptual variables: structural coherence, normative legitimacy, alignment state, adaptive feedback capacity, behavioral cohesion, and coercive dependency. OSA conceptualizes systemic stability as a probabilistic function of endogenous alignment coherence. Collapse susceptibility is modeled using a logistic probability function, reflecting nonlinear stability dynamics observed in feedback-regulated systems. The framework includes a formal mathematical definition of OSAI, a probabilistic collapse function, an interpretive alignment scale, and an operational survey instrument designed to enable empirical measurement in team and organizational contexts. Version 1.0 is explicitly presented as a conceptual and diagnostic framework. It is limited to endogenous, feedback-regulated systems and does not claim deterministic prediction. Empirical validation, parameter calibration, and domain-specific operational refinement are identified as areas for future research. This record represents the initial formal conceptual release of the OSA framework and is provided to support open scientific discussion, empirical testing, and further theoretical development.
Danang Puspa Wijaya (Wed,) studied this question.