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Bibliographic Details
Main Authors: Chin, Seokhyun, Park, Junghwan, Cho, Woojin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.01062
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author Chin, Seokhyun
Park, Junghwan
Cho, Woojin
author_facet Chin, Seokhyun
Park, Junghwan
Cho, Woojin
contents Precipitation nowcasting, key for early warning of disasters, currently relies on computationally expensive and restrictive methods that limit access to many countries. To overcome this challenge, we propose precipitation nowcasting using satellite imagery with physics constraints for improved accuracy and physical consistency. We use a novel physics-informed dual neural operator (PIANO) structure to enforce the fundamental equation of advection-diffusion during training to predict satellite imagery using a PINN loss. Then, we use a generative model to convert satellite images to radar images, which are used for precipitation nowcasting. Compared to baseline models, our proposed model shows a notable improvement in moderate (4mm/h) precipitation event prediction alongside short-term heavy (8mm/h) precipitation event prediction. It also demonstrates low seasonal variability in predictions, indicating robustness for generalization. This study suggests the potential of the PIANO and serves as a good baseline for physics-informed precipitation nowcasting.
format Preprint
id arxiv_https___arxiv_org_abs_2512_01062
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle PIANO: Physics-informed Dual Neural Operator for Precipitation Nowcasting
Chin, Seokhyun
Park, Junghwan
Cho, Woojin
Machine Learning
Artificial Intelligence
Precipitation nowcasting, key for early warning of disasters, currently relies on computationally expensive and restrictive methods that limit access to many countries. To overcome this challenge, we propose precipitation nowcasting using satellite imagery with physics constraints for improved accuracy and physical consistency. We use a novel physics-informed dual neural operator (PIANO) structure to enforce the fundamental equation of advection-diffusion during training to predict satellite imagery using a PINN loss. Then, we use a generative model to convert satellite images to radar images, which are used for precipitation nowcasting. Compared to baseline models, our proposed model shows a notable improvement in moderate (4mm/h) precipitation event prediction alongside short-term heavy (8mm/h) precipitation event prediction. It also demonstrates low seasonal variability in predictions, indicating robustness for generalization. This study suggests the potential of the PIANO and serves as a good baseline for physics-informed precipitation nowcasting.
title PIANO: Physics-informed Dual Neural Operator for Precipitation Nowcasting
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2512.01062