9.1 A Simple Modeling Illustration9.2 Notational Style9.3 Modeling Time9.4 The States of Our System9.4.1 Defining the State Variable9.4.2 The Three States of Our System9.4.3 Initial State S0 vs. Subsequent States St t > 0 > 09.4.4 Lagged State Variables*9.4.5 The Post-decision State Variable*9.4.6 A Shortest Path Illustration9.4.7 Belief States*9.4.8 Latent Variables*9.4.9 Rolling Forecasts*9.4.10 Flat vs. Factored State Representations*9.4.11 A Programmer’s Perspective of State Variables9.5 Modeling Decisions9.5.1 Types of Decisions9.5.2 Initial Decision x0 vs. Subsequent Decisions xt, t > 09.5.3 Strategic, Tactical, and Execution Decisions9.5.4 Constraints9.5.5 Introducing Policies9.6 The Exogenous Information Process9.6.1 Basic Notation for Information Processes9.6.2 Outcomes and Scenarios9.6.3 Lagged Information Processes*9.6.4 Models of Information Processes*9.6.5 Supervisory Processes*9.7 The Transition Function9.7.1 A General Model9.7.2 Model-free Dynamic Programming9.7.3 Exogenous Transitions9.8 The Objective Function9.8.1 The Performance Metric9.8.2 Optimizing the Policy9.8.3 Dependence of Optimal Policy on S09.8.4 State-dependent Variations9.8.5 Uncertainty Operators9.9 Illustration: An Energy Storage Model9.9.1 With a Time-series Price Model9.9.2 With Passive Learning9.9.3 With Active Learning9.9.4 With Rolling Forecasts9.10 Base Models and Lookahead Models9.11 A Classification of Problems*9.12 Policy Evaluation*9.13 Advanced Probabilistic Modeling Concepts**9.13.1 A Measure-theoretic View of Information**9.13.2 Policies and Measurability9.14 Looking Forward9.15 Bibliographic NotesExercisesBibliography