Introduction to Convex Optimization I

Lecture Description

Introduction, Examples, Solving Optimization Problems, Least-Squares, Linear Programming, Convex Optimizations, How To Solve?, Course Goals

Course Description

Concentrates on recognizing and solving convex optimization problems that arise in engineering.

Topics include: Convex sets, functions, and optimization problems. Basics of convex analysis. Least-squares, linear and quadratic programs, semidefinite programming, minimax, extremal volume, and other problems. Optimality conditions, duality theory, theorems of alternative, and applications. Interiorpoint methods. Applications to signal processing, control, digital and analog circuit design, computational geometry, statistics, and mechanical engineering.

Prerequisites: Good knowledge of linear algebra. Exposure to numerical computing, optimization, and application fields helpful but not required; the engineering applications will be kept basic and simple.

Related Resources

Transcript   |  Introduction

Course Index

1. Introduction to Convex Optimization I
2. Guest Lecturer: Jacob Mattingley
3. Logistics
4. Vector Composition
5. Optimal And Locally Optimal Points
6. (Generalized) Linear-Fractional Program
7. Generalized Inequality Constraints
8. Lagrangian
9. Complementary Slackness
10. Applications Section of Course
11. Statistical Estimation
12. Continue On Experiment Design
13. Linear Discrimination (Cont.)
14. LU Factorization (Cont.)
15. Algorithm Section Of The Course
16. Continue On Unconstrained Minimization
17. Newton's Method (Cont.)
18. Logarithmic Barrier
19. Interior-Point Methods (Cont.)