Subseasonal Forecasts of Opportunity Identified by an Explainable Neural Network

Kirsten J. Mayer; Elizabeth A. Barnes

doi:10.1029/2020GL092092

Subseasonal Forecasts of Opportunity Identified by an Explainable Neural Network

Kirsten J. Mayer, Elizabeth A. Barnes

Earth System Predictability

Colorado State University

Research output: Contribution to journal › Article › peer-review

69 Scopus citations

Abstract

Midlatitude prediction on subseasonal timescales is difficult due to the chaotic nature of the atmosphere and often requires the identification of favorable atmospheric conditions that may lead to enhanced skill (“forecasts of opportunity”). Here, we demonstrate that an artificial neural network (ANN) can identify such opportunities for tropical-extratropical circulation teleconnections within the North Atlantic (40°N, 325°E) at a lead of 22 days using the network's confidence in a given prediction. Furthermore, layer-wise relevance propagation (LRP), an ANN explainability technique, pinpoints the relevant tropical features the ANN uses to make accurate predictions. We find that LRP identifies tropical hot spots that correspond to known favorable regions for midlatitude teleconnections and reveals a potential new pattern for prediction in the North Atlantic on subseasonal timescales.

Original language	English
Article number	e2020GL092092
Journal	Geophysical Research Letters
Volume	48
Issue number	10
DOIs	https://doi.org/10.1029/2020GL092092
State	Published - May 28 2021

Keywords

explainable neural networks
forecasts of opportunity
subseasonal prediction
tropical-extratropical teleconnections

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10.1029/2020GL092092

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title = "Subseasonal Forecasts of Opportunity Identified by an Explainable Neural Network",

abstract = "Midlatitude prediction on subseasonal timescales is difficult due to the chaotic nature of the atmosphere and often requires the identification of favorable atmospheric conditions that may lead to enhanced skill (“forecasts of opportunity”). Here, we demonstrate that an artificial neural network (ANN) can identify such opportunities for tropical-extratropical circulation teleconnections within the North Atlantic (40°N, 325°E) at a lead of 22 days using the network's confidence in a given prediction. Furthermore, layer-wise relevance propagation (LRP), an ANN explainability technique, pinpoints the relevant tropical features the ANN uses to make accurate predictions. We find that LRP identifies tropical hot spots that correspond to known favorable regions for midlatitude teleconnections and reveals a potential new pattern for prediction in the North Atlantic on subseasonal timescales.",

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AU - Barnes, Elizabeth A.

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N2 - Midlatitude prediction on subseasonal timescales is difficult due to the chaotic nature of the atmosphere and often requires the identification of favorable atmospheric conditions that may lead to enhanced skill (“forecasts of opportunity”). Here, we demonstrate that an artificial neural network (ANN) can identify such opportunities for tropical-extratropical circulation teleconnections within the North Atlantic (40°N, 325°E) at a lead of 22 days using the network's confidence in a given prediction. Furthermore, layer-wise relevance propagation (LRP), an ANN explainability technique, pinpoints the relevant tropical features the ANN uses to make accurate predictions. We find that LRP identifies tropical hot spots that correspond to known favorable regions for midlatitude teleconnections and reveals a potential new pattern for prediction in the North Atlantic on subseasonal timescales.

AB - Midlatitude prediction on subseasonal timescales is difficult due to the chaotic nature of the atmosphere and often requires the identification of favorable atmospheric conditions that may lead to enhanced skill (“forecasts of opportunity”). Here, we demonstrate that an artificial neural network (ANN) can identify such opportunities for tropical-extratropical circulation teleconnections within the North Atlantic (40°N, 325°E) at a lead of 22 days using the network's confidence in a given prediction. Furthermore, layer-wise relevance propagation (LRP), an ANN explainability technique, pinpoints the relevant tropical features the ANN uses to make accurate predictions. We find that LRP identifies tropical hot spots that correspond to known favorable regions for midlatitude teleconnections and reveals a potential new pattern for prediction in the North Atlantic on subseasonal timescales.

KW - explainable neural networks

KW - forecasts of opportunity

KW - subseasonal prediction

KW - tropical-extratropical teleconnections

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DO - 10.1029/2020GL092092

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JO - Geophysical Research Letters

JF - Geophysical Research Letters

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Subseasonal Forecasts of Opportunity Identified by an Explainable Neural Network

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