C S 412

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Linear Programming and Convex Optimization

Computer Science College of Physical and Mathematical Sciences

Course Description

Optimization, problem formulation, and solution algorithms, including simplex and interior point methods. Applications from control, data mining, finance, game theory, learning, network flow, operations research, and statistical estimation.

When Taught

Contact Department

Min

3

Fixed/Max

3

Fixed

3

Fixed

0

Other Prerequisites

or instructor's consent.

Title

Mathematical Foundations

Learning Outcome

Develop a fluency in the mathematical foundations needed to pose optimization problems, including an appreciation for the role of convexity in characterizing solvable problems.

Title

Simplex Method

Learning Outcome

Develop a fluency with the Simplex Method as a solution technique to Linear Programming problems. Understand how it exploits the linear nature of the problem to yield good average-case performance while failing to be efficient in the worst-case.

Title

Sensitivity Analysis

Learning Outcome

Be able to characterize how to perturb the data of an existing problem so that its solution remains optimal for the new, perturbed problem.

Title

Applications

Learning Outcome

Explore the role of Linear and Convex Programming in a variety of applications, including 1) Finance, 2) Game Theory, 3) Regression, and 4) Computer Networking.

Title

Interior Point Methods

Learning Outcome

Develop a fluency with interior point methods for solving Linear Programming problems and understand how these solutions may be extended to solve nonlinear, convex optimization problems.

Title

Duality Theory

Learning Outcome

Understand the meaning of weak and strong duality and their role in the design and verification of algorithmic solutions to optimization problems.