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