Abstract: This article examines the expanding role of artificial intelligence (AI) in augmenting human decision-making across diverse domains, presenting a comprehensive framework that integrates advanced computational techniques with real-time and historical data inputs. The approach leverages machine learning, predictive analytics, and adaptive algorithms to capture complex cognitive, behavioral, and contextual factors influencing human choices. By systematically analyzing patterns, dependencies, and emergent dynamics within decision environments, the framework provides actionable insights that enhance strategic, operational, and policy-level decision-making. AI-driven tools automate data interpretation, scenario exploration, and risk assessment, thereby reducing cognitive overload and mitigating biases inherent in human judgment. The framework’s adaptive architecture enables continuous learning, allowing models to refine predictions, respond to evolving conditions, and support decision-makers in dynamic, uncertain contexts. Empirical evaluations across case studies illustrate the framework’s capacity to improve decision accuracy, resilience, and responsiveness, while offering interpretable outputs that facilitate stakeholder understanding and trust. Performance metrics highlight robustness across heterogeneous datasets, predictive reliability, and practical utility in guiding complex human-centric decisions. In conclusion, this study underscores the transformative potential of AI in enhancing decision-making processes by providing scalable, flexible, and evidence-driven tools that empower individuals and organizations to navigate uncertainty and optimize outcomes.
Godfrey Wandwi (Mon,) studied this question.