Your search keyword '"Lago, Jesus"' showing total 4 results

1. Forecasting spot electricity prices: Deep learning approaches and empirical comparison of traditional algorithms.

Author

Lago, Jesus, De Ridder, Fjo, and De Schutter, Bart

Subjects

*ELECTRIC utility costs, *DEEP learning, *ALGORITHMS, *PREDICTION models, *ELECTRIC power management

Abstract

In this paper, a novel modeling framework for forecasting electricity prices is proposed. While many predictive models have been already proposed to perform this task, the area of deep learning algorithms remains yet unexplored. To fill this scientific gap, we propose four different deep learning models for predicting electricity prices and we show how they lead to improvements in predictive accuracy. In addition, we also consider that, despite the large number of proposed methods for predicting electricity prices, an extensive benchmark is still missing. To tackle that, we compare and analyze the accuracy of 27 common approaches for electricity price forecasting. Based on the benchmark results, we show how the proposed deep learning models outperform the state-of-the-art methods and obtain results that are statistically significant. Finally, using the same results, we also show that: (i) machine learning methods yield, in general, a better accuracy than statistical models; (ii) moving average terms do not improve the predictive accuracy; (iii) hybrid models do not outperform their simpler counterparts. [ABSTRACT FROM AUTHOR]

Published

2018

2. Forecasting day-ahead electricity prices in Europe: The importance of considering market integration.

Author

Lago, Jesus, De Ridder, Fjo, Vrancx, Peter, and De Schutter, Bart

Subjects

*ELECTRIC utility costs, *FEATURE selection, *ALGORITHMS, *ELECTRIC utilities, *ARTIFICIAL neural networks

Abstract

Motivated by the increasing integration among electricity markets, in this paper we propose two different methods to incorporate market integration in electricity price forecasting and to improve the predictive performance. First, we propose a deep neural network that considers features from connected markets to improve the predictive accuracy in a local market. To measure the importance of these features, we propose a novel feature selection algorithm that, by using Bayesian optimization and functional analysis of variance, evaluates the effect of the features on the algorithm performance. In addition, using market integration, we propose a second model that, by simultaneously predicting prices from two markets, improves the forecasting accuracy even further. As a case study, we consider the electricity market in Belgium and the improvements in forecasting accuracy when using various French electricity features. We show that the two proposed models lead to improvements that are statistically significant. Particularly, due to market integration, the predictive accuracy is improved from 15.7% to 12.5% sMAPE (symmetric mean absolute percentage error). In addition, we show that the proposed feature selection algorithm is able to perform a correct assessment, i.e. to discard the irrelevant features. [ABSTRACT FROM AUTHOR]

Published

2018

3. Forecasting day-ahead electricity prices: A review of state-of-the-art algorithms, best practices and an open-access benchmark.

Author

Lago, Jesus, Marcjasz, Grzegorz, De Schutter, Bart, and Weron, Rafał

Subjects

*ELECTRICITY pricing, *BEST practices, *FORECASTING, *STATISTICAL learning, *ALGORITHMS

Abstract

While the field of electricity price forecasting has benefited from plenty of contributions in the last two decades, it arguably lacks a rigorous approach to evaluating new predictive algorithms. The latter are often compared using unique, not publicly available datasets and across too short and limited to one market test samples. The proposed new methods are rarely benchmarked against well established and well performing simpler models, the accuracy metrics are sometimes inadequate and testing the significance of differences in predictive performance is seldom conducted. Consequently, it is not clear which methods perform well nor what are the best practices when forecasting electricity prices. In this paper, we tackle these issues by comparing state-of-the-art statistical and deep learning methods across multiple years and markets, and by putting forward a set of best practices. In addition, we make available the considered datasets, forecasts of the state-of-the-art models, and a specifically designed python toolbox, so that new algorithms can be rigorously evaluated in future studies. • A set of guidelines for electricity price forecasting (EPF) research are suggested. • A review of state-of-the-art algorithms in EPF is presented. • Two open-source forecasting models for EPF are made publicly available. • An open-access benchmark dataset for evaluation of future EPF studies is provided. • An open-source toolbox to advance the field of EPF is proposed. [ABSTRACT FROM AUTHOR]

Published

2021

4. Erratum to "Forecasting spot electricity prices: Deep learning approaches and empirical comparison of traditional algorithms" [Appl. Energy 221 (2018) 386–405].

Author

Lago, Jesus, De Ridder, Fjo, and De Schutter, Bart

Subjects

*DEEP learning, *ALGORITHMS

Published

2018