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arxiv: 2505.01415 · v2 · pith:TGCJPDZN · submitted 2025-05-02 · cs.LG

How Effective are Large Time Series Models in Hydrology? A Study on Water Level Forecasting in Everglades

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classification cs.LG
keywords modelsseriestimeevergladesfoundationwaterlargeacross
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The Everglades play a crucial role in flood and drought regulation, water resource planning, and ecosystem management in the surrounding regions. However, traditional physics-based and statistical methods for predicting water levels often face significant challenges, including high computational costs and limited adaptability to diverse or unforeseen conditions. Recent advancements in large time series models have demonstrated the potential to address these limitations, with state-of-the-art deep learning and foundation models achieving remarkable success in time series forecasting across various domains. Despite this progress, their application to critical environmental systems, such as the Everglades, remains underexplored. In this study, we fill the gap by investigating twelve task-specific models and five time series foundation models across six categories for a real-world application focused on water level prediction in the Everglades. Our primary results show that the foundation model Chronos significantly outperforms all other models while the remaining foundation models exhibit relatively poor performance. We also noticed that the performance of task-specific models varies with the model architectures, and discussed the possible reasons. We hope our study and findings will inspire the community to explore the applicability of large time series models in hydrological applications. The code and data are available at https://github.com/rahuul2992000/Everglades-Benchmark.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Are Time-Series Foundation Models Ready for E-Nose Data? An Empirical Assessment of Their Embeddings

    cs.LG 2026-06 unverdicted novelty 5.0

    Empirical tests show TSFMs like Chronos-2 and MOMENT need fine-tuning for E-Nose data, with fusion to specialized models further improving gas identification and concentration prediction.