Sparse Identification of Nonlinear Dynamics - SINDy
Offered By: Steve Brunton via YouTube
Course Description
Overview
Explore the Sparse Identification of Nonlinear Dynamics (SINDy) algorithm in this 27-minute video lecture. Discover how machine learning, sparse regression, and dynamical systems are combined to identify nonlinear differential equations from measurement data alone. Learn about the Lorentz Attractor, sparse regression techniques, handling noisy data, and applications to parametrized dynamics and time delay coordinates. Gain insights into the algorithm's ability to uncover governing equations from data, as presented in the 2016 PNAS paper by Brunton, Proctor, and Kutz. Access the accompanying code and delve into additional resources for a deeper understanding of this innovative approach to dynamical systems analysis.
Syllabus
Introduction
Dynamical Systems
Lorentz Attractor
Sparse Regression
Noisy Data
Example Problem
Parametrized Dynamics
Time Delay Coordinates
Taught by
Steve Brunton
Related Courses
Introduction to Artificial IntelligenceStanford University via Udacity Natural Language Processing
Columbia University via Coursera Probabilistic Graphical Models 1: Representation
Stanford University via Coursera Computer Vision: The Fundamentals
University of California, Berkeley via Coursera Learning from Data (Introductory Machine Learning course)
California Institute of Technology via Independent