Article In: cienciavitae

Deep Learning Prediction of Streamflow in Portugal

Hydrology

Rafael Francisco; José Pedro Matos2024MDPI

Key information

Authors:

Rafael Francisco (Rafael Da Silva Francisco); José Pedro Matos (José Pedro Gamito de Saldanha Calado Matos)

Published in

12/19/2024

Abstract

The transformative potential of deep learning models is felt in many research fields, including hydrology and water resources. This study investigates the effectiveness of the Temporal Fusion Transformer (TFT), a deep neural network architecture for predicting daily streamflow in Portugal, and benchmarks it against the popular Hydrologiska Byråns Vattenbalansavdelning (HBV) hydrological model. Additionally, it evaluates the performance of TFTs through selected forecasting examples. Information is provided about key input variables, including precipitation, temperature, and geomorphological characteristics. The study involved extensive hyperparameter tuning, with over 600 simulations conducted to fine–tune performances and ensure reliable predictions across diverse hydrological conditions. The results showed that TFTs outperformed the HBV model, successfully predicting streamflow in several catchments of distinct characteristics throughout the country. TFTs not only provide trustworthy predictions with associated probabilities of occurrence but also offer considerable advantages over classical forecasting frameworks, i.e., the ability to model complex temporal dependencies and interactions across different inputs or weight features based on their relevance to the target variable. Multiple practical applications can rely on streamflow predictions made with TFT models, such as flood risk management, water resources allocation, and support climate change adaptation measures.

Publication details

Authors in the community:

Publication version

AO - Author's Original

Publisher

MDPI

Link to the publisher's version

https://www.mdpi.com/2306-5338/11/12/217

Title of the publication container

Hydrology

Volume

11(12),

Issue

127

DOI

10.3390/hydrology11120217

Fields of Science and Technology (FOS)

civil-engineering - Civil engineering

Keywords

  • streamflow
  • hydrological prediction
  • hydrological model
  • deep learning
  • temporal fusion transformer
  • probabilistic prediction
  • forecasting

Publication language (ISO code)

eng - English

Rights type:

Open access