Part I: Inference and Learning Machines
1. A Statistical Machine Learning Framework
2. Set Theory for Concept Modeling
3. Formal Machine Learning Algorithms
Part II: Deterministic Learning Machines
4. Linear Algebra for Machine Learning
5. Matrix Calculus for Machine Learning
6. Convergence of Time-Invariant Dynamical Systems
7. Batch Learning Algorithm Convergence
Part III: Stochastic Learning Machines
8. Random Vectors and Random Functions
9. Stochastic Sequences
10. Probability Models of Data Generation
11. Monte Carlo Markov Chain Algorithm Convergence
12. Adaptive Learning Algorithm Convergence
Part IV: Generalization Performance
13. Statistical Learning Objective Function Design
14. Simulation Methods for Evaluating Generalization
15. Analytic Formulas for Evaluating Generalization
16. Model Selection and Evaluation
Biography
Richard M. Golden (Ph.D., M.S.E.E., B.S.E.E.) is Professor of Cognitive Science and Participating Faculty Member in Electrical Engineering at the University of Texas at Dallas. Dr. Golden has published articles and given talks at scientific conferences on a wide range of topics in the fields of both statistics and machine learning over the past three decades. His long-term research interests include identifying conditions for the convergence of deterministic and stochastic machine learning algorithms and investigating estimation and inference in the presence of possibly misspecified probability models.
"This textbook is not only suitable for graduate students but also useful for professionals, scientists and others in the areas of statistics, applied mathematics, computer science and/or electrical engineering. Several statistical learning textbooks have been written to provide comprehensive descriptions of algorithms, use of software tools or support and evaluation of machine learning architectures. From a varying perspective, this textbook presents a statistical machine learning framework based on the assumption that machine learning algorithms learn a best-approximating probability distribution for representing the true data generating process."
-Shuangzhe Liu: in International Statistical Review, March 2021
