All AI Models are Wrong, but Some are Optimal
This addresses a foundational issue in AI for decision-making, providing theoretical insights that could improve model design across applications.
The paper tackles the problem of suboptimal decision-making with predictive AI models by establishing formal necessary and sufficient conditions for a model to enable optimal policies, focusing on sequential decision-making.
AI models that predict the future behavior of a system (a.k.a. predictive AI models) are central to intelligent decision-making. However, decision-making using predictive AI models often results in suboptimal performance. This is primarily because AI models are typically constructed to best fit the data, and hence to predict the most likely future rather than to enable high-performance decision-making. The hope that such prediction enables high-performance decisions is neither guaranteed in theory nor established in practice. In fact, there is increasing empirical evidence that predictive models must be tailored to decision-making objectives for performance. In this paper, we establish formal (necessary and sufficient) conditions that a predictive model (AI-based or not) must satisfy for a decision-making policy established using that model to be optimal. We then discuss their implications for building predictive AI models for sequential decision-making.