Stephen Wright: Fundamentals of Optimization in Signal Processing
Offered By: Hausdorff Center for Mathematics via YouTube
Course Description
Overview
Explore the third lecture in a series on optimization techniques for signal processing, delivered by Stephen Wright. Delve into essential optimization formulations and algorithms crucial for solving signal processing problems. Gain insights into key topics including first-order methods, regularized optimization, forward-backward methods, stochastic gradient methods, coordinate descent methods, conditional gradient / Frank-Wolfe methods, asynchronous parallel implementations, matrix optimization (including matrix completion), and Augmented Lagrangian methods / ADMM. Enhance your understanding of these fundamental concepts and their applications in the field of signal processing over the course of this 1 hour and 13 minute lecture presented by the Hausdorff Center for Mathematics.
Syllabus
Stephen Wright: Fundamentals of Optimization in Signal Processing (Lecture 3)
Taught by
Hausdorff Center for Mathematics
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