Related papers: Graph Neural Networks and Spatial Information Learning for Post-Processing Ensemble Weather Forecasts

Graph Neural Networks and Spatial Information Learning for Post-Processing Ensemble Weather Forecasts

URL: http://arxiv.org/abs/2407.11050v1
Date: Mon, 8 Jul 2024 18:39:44 GMT
Title: Graph Neural Networks and Spatial Information Learning for Post-Processing Ensemble Weather Forecasts
Authors: Moritz Feik, Sebastian Lerch, Jan Stühmer,
Abstract summary: We propose a graph neural network architecture for ensemble post-processing. In a case study on 2-m temperature forecasts over Europe, the graph neural network model shows substantial improvements over a highly competitive neural network-based post-processing method.
Score: 1.474723404975345
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Ensemble forecasts from numerical weather prediction models show systematic errors that require correction via post-processing. While there has been substantial progress in flexible neural network-based post-processing methods over the past years, most station-based approaches still treat every input data point separately which limits the capabilities for leveraging spatial structures in the forecast errors. In order to improve information sharing across locations, we propose a graph neural network architecture for ensemble post-processing, which represents the station locations as nodes on a graph and utilizes an attention mechanism to identify relevant predictive information from neighboring locations. In a case study on 2-m temperature forecasts over Europe, the graph neural network model shows substantial improvements over a highly competitive neural network-based post-processing method.

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