SEAS Colloquium in Climate Science (SCiCS)
Thursday,
October 17, 2019
2:45 PM - 3:45 PM
Noah Brenowitz
Vulcan, Inc.
"Coupling Neural Networks to GCMs"
Abstract: One of the most obvious ways to improve climate models is to reduce the errors made by sub-grid-scale parameterizations. While there have been steady improvements to traditional sub-grid-scale parametrizations over the past decades, machine learning presents a much more direct path to reducing these errors based on realistic datasets. However, ML parameterization is not a straightforward prediction problem (e.g image classification) because any scheme must interact well when coupled with the dynamical core of a GCM. For instance, the ML schemes should avoid numerical instability. In this talk, I will discuss our efforts to couple a neural network parametrization of moist physics to a GCM. To help solve the numerical stability problem, we use a linearized framework to study the sensitivity of the neural network to its inputs.
Biography: Noah Brenowitz is a Senior Machine Learning Scientist for Climate Modeling at Vulcan Inc.. He was a Moore/Sloan & WRF Innovation in Data Science Postdoctoral Fellow at the University of Washington (UW) and is jointly mentored by Christopher Bretherton in Atmospheric Science and Nathan Kutz in Applied Mathematics. In 2011, he received his BS degree in Statistics from the Stern School of Business at New York University (NYU). After one year as a postbaccalaureate trainee at the National Institutes of Health (NIH) working on functional MRI, he began a Ph.D. in Atmosphere-ocean Science and Mathematics at NYUs Courant Institute of Mathematics with Andrew Majda as his advisor and recently graduated in May 2017.
Noah’s research lies at the intersection of applied mathematics, machine learning, and atmospheric science. He is interested in applying machine learning techniques to improve the representation of sub-grid-scale processes in coarse resolution atmospheric models. In addition, he also studies the fundamental dynamics behind the organization of large-scale moist convective processes in the tropics.
Host: Pierre Gentine
Vulcan, Inc.
"Coupling Neural Networks to GCMs"
Abstract: One of the most obvious ways to improve climate models is to reduce the errors made by sub-grid-scale parameterizations. While there have been steady improvements to traditional sub-grid-scale parametrizations over the past decades, machine learning presents a much more direct path to reducing these errors based on realistic datasets. However, ML parameterization is not a straightforward prediction problem (e.g image classification) because any scheme must interact well when coupled with the dynamical core of a GCM. For instance, the ML schemes should avoid numerical instability. In this talk, I will discuss our efforts to couple a neural network parametrization of moist physics to a GCM. To help solve the numerical stability problem, we use a linearized framework to study the sensitivity of the neural network to its inputs.
Biography: Noah Brenowitz is a Senior Machine Learning Scientist for Climate Modeling at Vulcan Inc.. He was a Moore/Sloan & WRF Innovation in Data Science Postdoctoral Fellow at the University of Washington (UW) and is jointly mentored by Christopher Bretherton in Atmospheric Science and Nathan Kutz in Applied Mathematics. In 2011, he received his BS degree in Statistics from the Stern School of Business at New York University (NYU). After one year as a postbaccalaureate trainee at the National Institutes of Health (NIH) working on functional MRI, he began a Ph.D. in Atmosphere-ocean Science and Mathematics at NYUs Courant Institute of Mathematics with Andrew Majda as his advisor and recently graduated in May 2017.
Noah’s research lies at the intersection of applied mathematics, machine learning, and atmospheric science. He is interested in applying machine learning techniques to improve the representation of sub-grid-scale processes in coarse resolution atmospheric models. In addition, he also studies the fundamental dynamics behind the organization of large-scale moist convective processes in the tropics.
Host: Pierre Gentine
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