Title:
Governing Cyber Physical Systems Under Conditions of Complexity: A Framework for Integrated Oversight in Adaptive Governance Architectures

Authors:
Dr. Robb Shawe, USA

Abstract:

Cyber‑physical systems (CPS) form the backbone of modern infrastructure, integrating computational intelligence with physical processes across energy, transportation, healthcare, manufacturing, and public services. These systems operate in dynamic, interconnected environments where disruptions propagate rapidly and unpredictably. Traditional governance models—designed for siloed, linear systems—are insufficient for managing the complexity, interdependence, and real-time operational demands of CPS. This manuscript introduces the Cyber‑Physical Governance Framework (CPGF), a cross‑sector governance architecture that integrates adaptive oversight, AI‑enabled sensing, event‑validated learning, and executive decision translation. The CPGF extends the Adaptive Governance Systems Framework (AGSF), the AI‑Enabled Governance Oversight Model (AIGOM), the Governance Maturity Model (GMM), and the Event‑Validated Governance (EVG) Framework by specifying governance mechanisms tailored to CPS environments. The model supports resilience, accountability, and real‑time performance alignment across critical cyber‑physical domains. The framework further establishes cyber-physical governance as a convergence architecture that integrates real-time operational intelligence, adaptive oversight, event-validated learning, executive synchronization, and resilience-oriented governance modernization across interconnected cyber-physical ecosystems operating amid complexity and rapid change.

DOI: http://dx.doi.org/10.51505/ijaemr.2026.11329