Using Deep Learning to Nowcast the Spatial Coverage of Convection from Himawari-8 Satellite Data

Lagerquist, Ryan; Stewart, Jebb Q.; Ebert-Uphoff, Imme; Kumler, Christina

doi:10.1175/mwr-d-21-0096.1

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Using Deep Learning to Nowcast the Spatial Coverage of Convection from Himawari-8 Satellite Data

2021
By Lagerquist, Ryan ; Stewart, Jebb Q. ; Ebert-Uphoff, Imme ; ...
Source: Monthly Weather Review, 149(12), 3897-3921

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Journal Title:

Monthly Weather Review
Personal Author:

Lagerquist, Ryan ; Stewart, Jebb Q. ; Ebert-Uphoff, Imme ; Kumler, Christina

Lagerquist, Ryan ; Stewart, Jebb Q. ; Ebert-Uphoff, Imme ; Kumler, Christina Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; GSL (Global Systems Laboratory) ; CIRA (Cooperative Institute for Research in the Atmosphere)

OAR (Oceanic and Atmospheric Research) ; GSL (Global Systems Laboratory) ; CIRA (Cooperative Institute for Research in the Atmosphere) Less -
Description:

Predicting the timing and location of thunderstorms (“convection”) allows for preventive actions that can save both lives and property. We have applied U-nets, a deep-learning-based type of neural network, to forecast convection on a grid at lead times up to 120 min. The goal is to make skillful forecasts with only present and past satellite data as predictors. Specifically, predictors are multispectral brightness-temperature images from the Himawari-8 satellite, while targets (ground truth) are provided by weather radars in Taiwan. U-nets are becoming popular in atmospheric science due to their advantages for gridded prediction. Furthermore, we use three novel approaches to advance U-nets in atmospheric science. First, we compare three architectures—vanilla, temporal, and U-net++—and find that vanilla U-nets are best for this task. Second, we train U-nets with the fractions skill score, which is spatially aware, as the loss function. Third, because we do not have adequate ground truth over the full Himawari-8 domain, we train the U-nets with small radar-centered patches, then apply trained U-nets to the full domain. Also, we find that the best predictions are given by U-nets trained with satellite data from multiple lag times, not only the present. We evaluate U-nets in detail—by time of day, month, and geographic location—and compare them to persistence models. The U-nets outperform persistence at lead times ≥ 60 min, and at all lead times the U-nets provide a more realistic climatology than persistence. Our code is available publicly.
Source:

Monthly Weather Review, 149(12), 3897-3921
DOI:

https://doi.org/10.1175/mwr-d-21-0096.1
ISSN:

0027-0644;1520-0493;
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PDF
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American Meteorological Society
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Journal Article
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Grant no. NA19OAR4320073
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urn:sha-512:0e7a4d8bdf8c0673cd10863d917335c6a3aec61f36d14e6b6ba2275a80eca814f017a790a644c3a3814d75e1dcdbfde19936bc4ce5b0940a38726435127d781c
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https://repository.library.noaa.gov/view/noaa/65083/noaa_65083_DS1.pdf
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Using Deep Learning to Nowcast the Spatial Coverage of Convection from Himawari-8 Satellite Data

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