Short term load forecasting using a hybrid neural network
Short Term Load Forecasting (STLF) is very important from the power systems grid operation point of view. STLF involves forecasting load demand in a short term time frame. The short term time frame may consist of half hourly prediction up to weekly prediction. Accurate forecasting would benefit the...
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my.uniten.dspace-298372023-12-28T16:57:52Z Short term load forecasting using a hybrid neural network Yap K.S. Abidin I.Z. Lim C.P. Shah M.S. 24448864400 35606640500 55666579300 24448270600 Gaussian adaptive resonance theory Generalized regression neural network Load forecasting Time series prediction Artificial intelligence Competition E-learning Education Electric load forecasting Electric power systems Finance Food processing Forecasting Gaussian distribution Genetic algorithms Image classification Internet Loads (forces) Regression analysis Statistics Trellis codes Vegetation (PL) properties Adaptive resonance theory (ART1) Computational costs Financial performances gaussian Gaussian regression Generalized regression neural network (GRMM) Grid operations Hybrid neural network (HNN) International (CO) learning processes load demand On line learning power systems prediction accuracy real values Regression (R2) Regression problems Reliability and stability short term Short term load forecasting Short term load forecasting (STLF) simulation results Support vector regression (SVR) Time frames training samples Unsupervised clustering Utility companies Neural networks Short Term Load Forecasting (STLF) is very important from the power systems grid operation point of view. STLF involves forecasting load demand in a short term time frame. The short term time frame may consist of half hourly prediction up to weekly prediction. Accurate forecasting would benefit the utility in terms of reliability and stability of the grid ensuring adequate supply is present to meet with the load demand. Apart from that it would also affect the financial performance of the utility company. An accurate forecast would result in better savings while maintaining the security of the grid. This paper outlines the STLF using a novel hybrid online learning neural network, known as the Gaussian Regression (GR). This new hybrid neural network is a combination of two existing online learning neural networks which are the Gaussian Adaptive Resonance Theory (GA) and the Generalized Regression Neural Network (GRNN). Both GA and GRNN implemented online learning, but each of them suffers from limitation. Originally GA is used for unsupervised clustering by compressing the training samples into several categories. A supervised version of GA is available, namely Gaussian ARTMAP (GAM). However, the GAM is still not capable on solving regression problem. On the other hand, GRNN is designed for solving real value estimation (regression) problem, but the learning process would involve of memorizing all training samples, hence high computational cost. The hybrid GR is considered an enhanced version of GRNN with compression ability while still maintains online learning properties. Simulation results show that GR has comparable prediction accuracy and has less prototype as compared to the original GRNN as well as the Support Vector Regression. � 2006 IEEE. Final 2023-12-28T08:57:52Z 2023-12-28T08:57:52Z 2006 Conference paper 10.1109/PECON.2006.346632 2-s2.0-46249091355 https://www.scopus.com/inward/record.uri?eid=2-s2.0-46249091355&doi=10.1109%2fPECON.2006.346632&partnerID=40&md5=0bed1a1982d1a6902b43d48e8b5bf4dc https://irepository.uniten.edu.my/handle/123456789/29837 4154476 123 128 Scopus |
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Gaussian adaptive resonance theory Generalized regression neural network Load forecasting Time series prediction Artificial intelligence Competition E-learning Education Electric load forecasting Electric power systems Finance Food processing Forecasting Gaussian distribution Genetic algorithms Image classification Internet Loads (forces) Regression analysis Statistics Trellis codes Vegetation (PL) properties Adaptive resonance theory (ART1) Computational costs Financial performances gaussian Gaussian regression Generalized regression neural network (GRMM) Grid operations Hybrid neural network (HNN) International (CO) learning processes load demand On line learning power systems prediction accuracy real values Regression (R2) Regression problems Reliability and stability short term Short term load forecasting Short term load forecasting (STLF) simulation results Support vector regression (SVR) Time frames training samples Unsupervised clustering Utility companies Neural networks |
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Gaussian adaptive resonance theory Generalized regression neural network Load forecasting Time series prediction Artificial intelligence Competition E-learning Education Electric load forecasting Electric power systems Finance Food processing Forecasting Gaussian distribution Genetic algorithms Image classification Internet Loads (forces) Regression analysis Statistics Trellis codes Vegetation (PL) properties Adaptive resonance theory (ART1) Computational costs Financial performances gaussian Gaussian regression Generalized regression neural network (GRMM) Grid operations Hybrid neural network (HNN) International (CO) learning processes load demand On line learning power systems prediction accuracy real values Regression (R2) Regression problems Reliability and stability short term Short term load forecasting Short term load forecasting (STLF) simulation results Support vector regression (SVR) Time frames training samples Unsupervised clustering Utility companies Neural networks Yap K.S. Abidin I.Z. Lim C.P. Shah M.S. Short term load forecasting using a hybrid neural network |
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Short Term Load Forecasting (STLF) is very important from the power systems grid operation point of view. STLF involves forecasting load demand in a short term time frame. The short term time frame may consist of half hourly prediction up to weekly prediction. Accurate forecasting would benefit the utility in terms of reliability and stability of the grid ensuring adequate supply is present to meet with the load demand. Apart from that it would also affect the financial performance of the utility company. An accurate forecast would result in better savings while maintaining the security of the grid. This paper outlines the STLF using a novel hybrid online learning neural network, known as the Gaussian Regression (GR). This new hybrid neural network is a combination of two existing online learning neural networks which are the Gaussian Adaptive Resonance Theory (GA) and the Generalized Regression Neural Network (GRNN). Both GA and GRNN implemented online learning, but each of them suffers from limitation. Originally GA is used for unsupervised clustering by compressing the training samples into several categories. A supervised version of GA is available, namely Gaussian ARTMAP (GAM). However, the GAM is still not capable on solving regression problem. On the other hand, GRNN is designed for solving real value estimation (regression) problem, but the learning process would involve of memorizing all training samples, hence high computational cost. The hybrid GR is considered an enhanced version of GRNN with compression ability while still maintains online learning properties. Simulation results show that GR has comparable prediction accuracy and has less prototype as compared to the original GRNN as well as the Support Vector Regression. � 2006 IEEE. |
author2 |
24448864400 |
author_facet |
24448864400 Yap K.S. Abidin I.Z. Lim C.P. Shah M.S. |
format |
Conference paper |
author |
Yap K.S. Abidin I.Z. Lim C.P. Shah M.S. |
author_sort |
Yap K.S. |
title |
Short term load forecasting using a hybrid neural network |
title_short |
Short term load forecasting using a hybrid neural network |
title_full |
Short term load forecasting using a hybrid neural network |
title_fullStr |
Short term load forecasting using a hybrid neural network |
title_full_unstemmed |
Short term load forecasting using a hybrid neural network |
title_sort |
short term load forecasting using a hybrid neural network |
publishDate |
2023 |
_version_ |
1806428309018378240 |
score |
13.222552 |