Complete all courses and requirements listed below unless otherwise indicated.
Core Requirements
Code | Title | Hours |
---|---|---|
Probability | ||
Complete 4 semester hours from the following: | 4 | |
Probability 1 | ||
Probability 2 | ||
Probabilistic Operation Research | ||
Statistics | ||
MATH 7342 | Mathematical Statistics | 4 |
or MATH 7343 | Applied Statistics | |
Operations Research | ||
OR 6205 | Deterministic Operations Research | 4 |
Optimization and Complexity | ||
MATH 7234 | Optimization and Complexity | 4 |
Electives
Code | Title | Hours |
---|---|---|
Complete 16 semester hours from the following: | 16 | |
Algorithms | ||
Machine Learning | ||
Complexity Theory | ||
Concepts of Object-Oriented Design | ||
Concepts of Object-Oriented Design with C++ | ||
Engineering Project Management | ||
Economic Decision Making | ||
Financial Management for Engineers | ||
Customer-Driven Technical Innovation for Engineers | ||
Product Development for Engineers | ||
Healthcare Systems Modeling and Analysis | ||
Systems Engineering in Public Programs | ||
Lean Concepts and Applications | ||
Biosensor and Human Behavior Measurement | ||
Manufacturing Systems Design | ||
Supply Chain Engineering | ||
Simulation Analysis | ||
Data Mining in Engineering | ||
Statistical Methods in Engineering | ||
Statistical Quality Control | ||
Reliability Analysis and Risk Assessment | ||
Human Factors Engineering | ||
Numerical Analysis 1 | ||
Numerical Analysis 2 | ||
Riemannian Optimization | ||
Graph Theory | ||
Machine Learning and Statistical Learning Theory 1 | ||
Machine Learning and Statistical Learning Theory 2 | ||
Regression, ANOVA, and Design | ||
Integer and Nonlinear Optimization | ||
Logistics, Warehousing, and Scheduling |
Program Credit/GPA Requirements
32 total semester hours required
Minimum 3.000 GPA required