Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control

Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control

Electrical load forecasting plays a crucial role in the proper scheduling and operation of power systems. To ensure the stability of the electrical network, it is necessary to balance energy generation and demand. Hence, different very short-term load forecast technologies are being designed to impr...

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Bibliographic Details
Main Authors: Fermín Rodríguez, Fernando Martín, Luis Fontán, Ainhoa Galarza
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Energies
Subjects:
smart grid
energy demand
very short-term forecaster
Online Access:https://www.mdpi.com/1996-1073/13/19/5210
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spelling doaj-d04684e144c74eab8edd3691aee475472020-11-25T04:00:30ZengMDPI AGEnergies1996-10732020-10-01135210521010.3390/en13195210Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid ControlFermín Rodríguez0Fernando Martín1Luis Fontán2Ainhoa Galarza3Ceit-Basque Research and Technology Alliance (BRTA), Manuel Lardizabal 15, 20018 Donostia/San Sebastián, SpainCeit-Basque Research and Technology Alliance (BRTA), Manuel Lardizabal 15, 20018 Donostia/San Sebastián, SpainCeit-Basque Research and Technology Alliance (BRTA), Manuel Lardizabal 15, 20018 Donostia/San Sebastián, SpainCeit-Basque Research and Technology Alliance (BRTA), Manuel Lardizabal 15, 20018 Donostia/San Sebastián, SpainElectrical load forecasting plays a crucial role in the proper scheduling and operation of power systems. To ensure the stability of the electrical network, it is necessary to balance energy generation and demand. Hence, different very short-term load forecast technologies are being designed to improve the efficiency of current control strategies. This paper proposes a new forecaster based on artificial intelligence, specifically on a recurrent neural network topology, trained with a Levenberg–Marquardt learning algorithm. Moreover, a sensitivity analysis was performed for determining the optimal input vector, structure and the optimal database length. In this case, the developed tool provides information about the energy demand for the next 15 min. The accuracy of the forecaster was validated by analysing the typical error metrics of sample days from the training and validation databases. The deviation between actual and predicted demand was lower than 0.5% in 97% of the days analysed during the validation phase. Moreover, while the root mean square error was 0.07 MW, the mean absolute error was 0.05 MW. The results suggest that the forecaster’s accuracy is considered sufficient for installation in smart grids or other power systems and for predicting future energy demand at the chosen sites.https://www.mdpi.com/1996-1073/13/19/5210smart gridenergy demandvery short-term forecaster
collection DOAJ
language English
format Article
sources DOAJ
author Fermín Rodríguez
Fernando Martín
Luis Fontán
Ainhoa Galarza
spellingShingle Fermín Rodríguez
Fernando Martín
Luis Fontán
Ainhoa Galarza
Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
Energies
smart grid
energy demand
very short-term forecaster
author_facet Fermín Rodríguez
Fernando Martín
Luis Fontán
Ainhoa Galarza
author_sort Fermín Rodríguez
title Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
title_short Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
title_full Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
title_fullStr Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
title_full_unstemmed Very Short-Term Load Forecaster Based on a Neural Network Technique for Smart Grid Control
title_sort very short-term load forecaster based on a neural network technique for smart grid control
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-10-01
description Electrical load forecasting plays a crucial role in the proper scheduling and operation of power systems. To ensure the stability of the electrical network, it is necessary to balance energy generation and demand. Hence, different very short-term load forecast technologies are being designed to improve the efficiency of current control strategies. This paper proposes a new forecaster based on artificial intelligence, specifically on a recurrent neural network topology, trained with a Levenberg–Marquardt learning algorithm. Moreover, a sensitivity analysis was performed for determining the optimal input vector, structure and the optimal database length. In this case, the developed tool provides information about the energy demand for the next 15 min. The accuracy of the forecaster was validated by analysing the typical error metrics of sample days from the training and validation databases. The deviation between actual and predicted demand was lower than 0.5% in 97% of the days analysed during the validation phase. Moreover, while the root mean square error was 0.07 MW, the mean absolute error was 0.05 MW. The results suggest that the forecaster’s accuracy is considered sufficient for installation in smart grids or other power systems and for predicting future energy demand at the chosen sites.
topic smart grid
energy demand
very short-term forecaster
url https://www.mdpi.com/1996-1073/13/19/5210
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AT luisfontan veryshorttermloadforecasterbasedonaneuralnetworktechniqueforsmartgridcontrol
AT ainhoagalarza veryshorttermloadforecasterbasedonaneuralnetworktechniqueforsmartgridcontrol
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