Selection of Temporal Lags for Predicting Riverflow Series from Hydroelectric Plants Using Variable Selection Methods

Selection of Temporal Lags for Predicting Riverflow Series from Hydroelectric Plants Using Variable Selection Methods

The forecasting of monthly seasonal streamflow time series is an important issue for countries where hydroelectric plants contribute significantly to electric power generation. The main step in the planning of the electric sector’s operation is to predict such series to anticipate behaviors and issu...

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Bibliographic Details
Published in:Energies (Basel) Vol. 13; no. 16; p. 4236
Main Authors: Siqueira, Hugo, Macedo, Mariana, Tadano, Yara de Souza, Alves, Thiago Antonini, Stevan, Sergio L., Oliveira, Domingos S., Marinho, Manoel H.N., Neto, Paulo S.G. de Mattos, Oliveira,  João F. L. de, Luna, Ivette, Filho, Marcos de Almeida Leone, Sarubbo, Leonie Asfora, Converti, Attilio
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-08-2020
Subjects:
Accuracy
Alternative energy sources
autoregressive model
Autoregressive models
bio-inspired metaheuristics extreme learning machines neural networks
Computer applications
Electric filters
Electric power
Electric power generation
Electricity distribution
Feature selection
Filters
Fluid filters
Forecasting
Genetic algorithms
Hydroelectric plants
Hydroelectric power
Learning algorithms
Linear filters
Model accuracy
monthly forecasting
Neural networks
Nonlinear filters
Optimization
Power plants
Principal components analysis
River flow
Stream discharge
Stream flow
Time series
Variables
wrapper
Brazil
Canada
United States > US
China
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Summary:The forecasting of monthly seasonal streamflow time series is an important issue for countries where hydroelectric plants contribute significantly to electric power generation. The main step in the planning of the electric sector’s operation is to predict such series to anticipate behaviors and issues. In general, several proposals of the literature focus just on the determination of the best forecasting models. However, the correct selection of input variables is an essential step for the forecasting accuracy, which in a univariate model is given by the lags of the time series to forecast. This task can be solved by variable selection methods since the performance of the predictors is directly related to this stage. In the present study, we investigate the performances of linear and non-linear filters, wrappers, and bio-inspired metaheuristics, totaling ten approaches. The addressed predictors are the extreme learning machine neural networks, representing the non-linear approaches, and the autoregressive linear models, from the Box and Jenkins methodology. The computational results regarding five series from hydroelectric plants indicate that the wrapper methodology is adequate for the non-linear method, and the linear approaches are better adjusted using filters.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13164236