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Debiasing Coarse-Scale Climate Models Using Statistically Consistent Neural Networks

Kavli Institute for Theoretical Physics via YouTube

Overview

Explore debiasing techniques for coarse-scale climate models using statistically consistent neural networks in this conference talk from the Machine Learning for Climate KITP conference. Dive into the challenges of informing society about future climate changes at regional and local scales, and discover how big data and machine learning algorithms can provide new opportunities for descriptive inference and causal questions in climate science. Learn about the framework for discrete representation of spatial scales, properties of spherical wavelets, and the cross-trained multi-model architecture used to address unresolved scales in climate modeling. Examine the strengths of the ML architecture, statistics of reconstructed fields, and the implementation of statistics and physics-based loss functions to improve climate model accuracy.

Syllabus

Intro
Debiasing Coarse-Scale Climate Models Using Statistically consistent Neural Networks
Catastrophe (CAT) modeling industry needs better models
Unresolved scales
Higher-resolution GCMs are not the solution
Overview of framework
Discrete representation of spatial scales
Properties of spherical wavelets
Climate datasets
Problem formulation
Cross-trained multi-model architecture
Strengths of the ML architecture
Statistics of reconstructed field
Conclusions
Statistics and physics-based loss functions

Taught by

Kavli Institute for Theoretical Physics

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