Application of Deep Learning Long Short-Term Memory in Energy Demand Forecasting

The smart metering infrastructure has changed how electricity is measured in both residential and industrial application. The large amount of data collected by smart meter per day provides a huge potential for analytics to support the operation of a smart grid, an example of which is energy demand f...

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Veröffentlicht in:	arXiv.org 2019-03
Hauptverfasser:	Nameer Al Khafaf, Jalili, Mahdi, Sokolowski, Peter
Format:	Artikel
Sprache:	eng
Schlagworte:	Artificial neural networks Computer architecture Computer memory Computer Science - Learning Deep learning Demand side management Economic forecasting Electric power demand Electric power distribution Electricity consumption Electricity meters Energy management Energy transmission Industrial applications Infrastructure Peak load Residential energy Short term Smart grid Support vector machines Utilities
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description	The smart metering infrastructure has changed how electricity is measured in both residential and industrial application. The large amount of data collected by smart meter per day provides a huge potential for analytics to support the operation of a smart grid, an example of which is energy demand forecasting. Short term energy forecasting can be used by utilities to assess if any forecasted peak energy demand would have an adverse effect on the power system transmission and distribution infrastructure. It can also help in load scheduling and demand side management. Many techniques have been proposed to forecast time series including Support Vector Machine, Artificial Neural Network and Deep Learning. In this work we use Long Short Term Memory architecture to forecast 3-day ahead energy demand across each month in the year. The results show that 3-day ahead demand can be accurately forecasted with a Mean Absolute Percentage Error of 3.15%. In addition to that, the paper proposes way to quantify the time as a feature to be used in the training phase which is shown to affect the network performance.
doi_str_mv	10.48550/arxiv.1903.11941
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subjects	Artificial neural networks Computer architecture Computer memory Computer Science - Learning Deep learning Demand side management Economic forecasting Electric power demand Electric power distribution Electricity consumption Electricity meters Energy management Energy transmission Industrial applications Infrastructure Peak load Residential energy Short term Smart grid Support vector machines Utilities
title	Application of Deep Learning Long Short-Term Memory in Energy Demand Forecasting
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