LEC # | TOPICS | KEY DATES |
---|---|---|
Introduction, Optimization Concepts | ||
1 |
Introduction Example: Irrigation and Salination |
|
2 | Linear Algebra Review | Student survey due |
3 | General Optimization Concepts | |
4 | General Optimization Concepts (cont.) | Problem set 1 due |
5 | Optimality Conditions | |
6 | Optimality Conditions (cont.) | Problem set 2 due |
Optimization Methods | ||
7 | Linear Programming Overview | |
8 | Duality, Linear Programming Solution Strategies | |
9 | Linear Programming Sensitivity Analysis | Problem set 3 due |
10 | Quadratic Programming | |
11 | Differential Constraints | Problem set 4 due |
12 | Nonlinear Programming Algorithms | |
13 | Nonlinear Programming Algorithms (cont.) | |
Economic Aspects | ||
14 | Optimization over Time, Discounting | |
15 | Multiobjective Optimization, Utility, Risk Aversion | |
16 | Supply and Demand, Groundwater Management | Team project proposal due |
Water Resource Applications/Case Studies | ||
17 | River Basin Planning - Screening | |
18 | River Basin Planning - Simulation | |
19 | Real-time Optimization, Dynamic Programming | |
20 | Real-time Optimization, Dynamic Programming (cont.) | |
21 | Capacity Expansion | |
22 | Common Pool Problems | |
23 | Variational and Adjoint Methods, Data Assimilation | |
24 | Review | |
25 | Project Presentations | |
26 | Project Presentations (cont.) | Final team report due |