Physics-constrained deep learning postprocessing of temperature and humidity

Autor: Zanetta, Francesco, Nerini, Daniele, Beucler, Tom, Liniger, Mark A.
Rok vydání: 2022
Předmět:
Druh dokumentu: Working Paper
Popis: Weather forecasting centers currently rely on statistical postprocessing methods to minimize forecast error. This improves skill but can lead to predictions that violate physical principles or disregard dependencies between variables, which can be problematic for downstream applications and for the trustworthiness of postprocessing models, especially when they are based on new machine learning approaches. Building on recent advances in physics-informed machine learning, we propose to achieve physical consistency in deep learning-based postprocessing models by integrating meteorological expertise in the form of analytic equations. Applied to the post-processing of surface weather in Switzerland, we find that constraining a neural network to enforce thermodynamic state equations yields physically-consistent predictions of temperature and humidity without compromising performance. Our approach is especially advantageous when data is scarce, and our findings suggest that incorporating domain expertise into postprocessing models allows to optimize weather forecast information while satisfying application-specific requirements.
Comment: 12 pages, 6 figures + supplemental material. Submitted to AMS AI4ES journal on May 17th, 2023
Databáze: arXiv