Benchmarking AI-based data assimilation to advance data-driven global weather forecasting
This addresses the problem of fair comparison and evaluation of AI-based data assimilation methods for researchers in weather forecasting, though it is incremental as it builds on existing frameworks.
The authors tackled the lack of a benchmark for AI-based data assimilation in weather forecasting by introducing DABench, which integrates real-world observations and demonstrates that AI-based DA achieves performance competitive with state-of-the-art methods in global weather data assimilation and medium-range forecasting metrics.
Research on Artificial Intelligence (AI)-based Data Assimilation (DA) is expanding rapidly. However, the absence of an objective, comprehensive, and real-world benchmark hinders the fair comparison of diverse methods. Here, we introduce DABench, a benchmark designed for contributing to the development and evaluation of AI-based DA methods. By integrating real-world observations, DABench provides an objective and fair platform for validating long-term closed-loop DA cycles, supporting both deterministic and ensemble configurations. Furthermore, we assess the efficacy of AI-based DA in generating initial conditions for the advanced AI-based weather forecasting model to produce accurate medium-range global weather forecasting. Our dual-validation, utilizing both reanalysis data and independent radiosonde observations, demonstrates that AI-based DA achieves performance competitive with state-of-the-art AI-driven four-dimensional variational frameworks across both global weather DA and medium-range forecasting metrics. We invite the research community to utilize DABench to accelerate the advancement of AI-based DA for global weather forecasting.