Recurrent neural networks for rainfall-runoff modeling of small Amazon catchments

Recurrent neural networks for rainfall-runoff modeling of small Amazon catchments

The insufficiency of hydrological time series prejudices the management of water resources in the Amazon, especially in small catchments. Thus, for the first time, through the Nonlinear Autoregressive Recurrent Neural Network with Exogenous Inputs (RNN-NARX), an attempt is made to simulate daily str...

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Bibliographic Details
Published in:Modeling earth systems and environment Vol. 9; no. 2; pp. 2517 - 2531
Main Authors: de Mendonça, Leonardo Melo, Blanco, Claudio Jose Cavalcante, de Oliveira Carvalho, Frede
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-06-2023
Springer Nature B.V
Subjects:
Algorithms
Autocorrelation
Autocorrelation functions
Catchment area
Catchments
Chemistry and Earth Sciences
Computer Science
Computer simulation
Correlation analysis
Cross correlation
Daily
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Ecosystems
Environment
Floods
Hydrologic data
Hydrologic models
Hydrology
Math. Appl. in Environmental Science
Mathematical Applications in the Physical Sciences
Neural networks
Original Article
Physics
Precipitation
Prejudice
Rainfall
Rainfall-runoff relationships
Recurrent neural networks
Resolution
Rivers
Sensitivity analysis
Statistics for Engineering
Stream discharge
Stream flow
Temporal resolution
Temporal variations
Time series
Water availability
Water management
Water resources
Water resources management
Rainfall-runoff models
Hydrological modeling
Small Amazon catchments
Machine learning
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Summary:The insufficiency of hydrological time series prejudices the management of water resources in the Amazon, especially in small catchments. Thus, for the first time, through the Nonlinear Autoregressive Recurrent Neural Network with Exogenous Inputs (RNN-NARX), an attempt is made to simulate daily streamflow time series with a temporal resolution of 365 days, for five small Amazon catchments. A sensitivity analysis of the models was also performed to identify the lowest temporal resolution of the input to obtain satisfactory results. Since it is data-driven model, it is expected that these models have the ability to reproduce learning characteristics with less temporal variability, and make it possible to estimate daily streamflow time series with 365-day temporal resolution. For this objective, daily lagged rainfall and streamflow data were implemented with the support of the Cross-Correlation Function (CCF) and partial autocorrelation function (PACF) at the 5% significance level. Based on five statistical criteria, satisfactory results were obtained with supervised training based on 2 years of rainfall and streamflow data in four of the five analyzed basins (Igarapé of Prata, Piranhas River, Caeté River and Capivara River). According Garson’s algorithm, lagged rainfall is important for these simulations. In general, there are lower percentage errors in the dry periods, and overestimation of floods. In the practical context, the models developed and analyzed are applicable, mainly, for the simulation of average and minimum daily streamflows of small catchments in the Amazon, becoming a tool that should be used for sustainable evaluation purposes of the water availability of these catchments. However, in the case of simulating floods, it is necessary to apply hourly and lagged rainfall and streamflow data to the models.
ISSN:2363-6203
2363-6211
DOI:10.1007/s40808-022-01626-w