ANN based Short-Term Load Curve Forecasting

Violeta Eugenia Chis; Constantin Barbulescu; Stefan Kilyeni; Simona Dzitac

Authors

Violeta Eugenia Chis Aurel Vlaicu University of Arad
Constantin Barbulescu Power Systems Department Politehnica University Timisoara Romania Timisoara, Romania
Stefan Kilyeni Power Systems Department Politehnica University Timisoara Romania Timisoara, Romania
Simona Dzitac Power Engineering Department University of Oradea Oradea, Romania

Keywords:

artificial neural networks, short-term load forecasting, articial intelligence, load curve

Abstract

A software tool developed in Matlab for short-term load forecasting (STLF) is presented. Different forecasting methods such as artificial neural networks, multiple linear regression, curve fitting have been integrated into a stand-alone application with a graphical user interface. Real power consumption data have been used. They have been provided by the branches of the distribution system operator from the Southern-Western part of the Romanian Power System. This paper is an extended variant of [4].

References

Charytoniuk, W.; Chen, M.S.; Van Olinda, P. (1998). Nonparametric Regression Based Short-Team Load Forecasting, IEEE Transaction on Power Systems, 13(3), 735-730, 1998. https://doi.org/10.1109/59.708572

Chen, H.; Canizares, A.C.; Ajit, S. (2011). ANN based Short-Term Load Forecasting in Electricity markets, Proceedings of the IEEE Power Engineering Society Winter Meeting, 2, 411-415, 2011.

Chen, J.F.; Wang, W.M.; Huang, C.M.(2005). Analysis of an adaptive time-series autoregressive moving-average (ARMA) model for short-term load forecasting, Electric Power Systems Research, 34, 187-196, 2005. https://doi.org/10.1016/0378-7796(95)00977-1

Chis, V.; Barbulescu, C., Kilyeni, S.; Dzitac S. (2018). Short-Term Load Forecasting Software Tool, Proceedings of the 7th International Conference on Computers Communications and Control (ICCCC), 111-118, 2018. https://doi.org/10.1109/ICCCC.2018.8390446

Cho, M.Y.; Hwang, J.C.; Chen, C.S. (1995). Customer short-term load forecasting by using ARIMA transfer function model, Proceedings of the International Conference on Energy Management and Power Delivery, 317-322, 1995. https://doi.org/10.1109/EMPD.1995.500746

Danladi, A.; Yohanna, M.; Puwu, M.I.; Garkida, B.M. (2016). Long-term load forecast modelling using a fuzzy logic approach, Pacific Science Review A: Natural Science and Engineering, 18(2), 123-127, 2016.

Ho, K.l.; Hsu, Y.I.; Chen, C.F.; Lee, T.E.; Liang, C.C.; Lai, T.S.; Chen, K.K. (1990). Short Term Load Forecasting of Taiwan Power System Using a Knowledge Based Expert System, IEEE Transactions on Power Systems, 5(4), 1214-1221, 1990. https://doi.org/10.1109/59.99372

Hong, W.C.; Dong, Y.; Chen, L.Y.; Wei, S.Y. (2012). Seasonal Support vector Regression with Chaotic Genetic Algorithm in Electric Load, ICGEC 6th International Conference on Genetic and Evolutionary Computing, 124-127, 2012.

Hyndman, R.J.; Koehler, A.B. (2016). Another look at measuring forecast accuracy, International Journal of Forecasting, 22(2), 679-688, 2016.

Ismail, Z.; Efendy, R. (2011). Enrollment forecasting based on modified weight fuzzy time series, Journal of Artificial Intelligence, 4(1), 110-118, 2011. https://doi.org/10.3923/jai.2011.110.118

Jin, X.; Dong, Y.; Wu, J.; Wang, J. (2010). An Improved Combined Forecasting Method for Electric Power Load Based on Autoregressive Integrated Moving Average Model, International Conference of Information Science and Management Engineering (ISME), 2, 476-480, 2010. https://doi.org/10.1109/ISME.2010.124

Karapidakis, S. (2007). Machine learning for frequency estimation of power systems, Applied Soft Computing, 7(1), 105-114, 2007. https://doi.org/10.1016/j.asoc.2005.04.002

Mordjaoui, M.; Haddad, S.; Medoued, A.; Laouafi, A. (2017). Electric load forecasting by using dynamic neural network, Journal hydrogen Energy, 42, 17655-17663, 2017.

Pandian, S.C.; Duraiswamy, K.; Rajan, C.C.A. (2006). Fuzzy approach for short term load forcasting, Electric Power Systems Research, 76, 541-548, 2006. https://doi.org/10.1016/j.epsr.2005.09.018

Park, D.C.; El-Sharkawi, M.A.; Marks, R.J.; Atlas, L.E.; Damborg, M.J. (1991). Electric load forecasting using an artificial neural network, IEEE Transactions on Power Systems, 6(2), 442-449, 1991. https://doi.org/10.1109/59.76685

Schellong, W. (2011). Energy Demand Analysis and Forecast, Energy Management Systems P. Giridhar Kini, IntechOpen, DOI: 10.5772/21022, 2011. https://doi.org/10.5772/21022

Sheikh, S.K.; Unde, M.G. (2012). Short-Term Load Forecasting Using ANN Technique, International Journal of Engineering Sciences & Emerging Technologies, 1(2), 97-107, 2012. https://doi.org/10.7323/ijeset/v1_i2_12

Shelke, M.; Thakare, P.D. (2014). Short Term Load Forecasting by Using Data Mining Techniques, International Journal of Science and Research (IJSR), 3(9), 1363-1367, 2014.

Singh, P.; Dwivedi, P. (2018). Integration of new evolutionary approach with artificial neural network for solving short term load forecast problem, Journal of Applied Energy, 217, 537- 549, 2018. https://doi.org/10.1016/j.apenergy.2018.02.131

Srinivasan, D.S.; Tan, S.S.; Cheng, C.S.; Chan, E.K. (1999). Parallel neural network-fuzzy expert system strategy for short-term load forecasting: system implementation and performance evaluation, IEEE Transactions on Power Systems, 14(3), 1100-1106, 1999. https://doi.org/10.1109/59.780934

Yang, H.P.; Yan, F.F.; Wang, H.; Zhang, L.(2016). Short-term load forecasting based on data mining, IEEE 20th International Conference on Computer Supported Cooperative Work in Design, 170-173, 2016.

Zhang, J.,; Yi-Ming, W.; Dezhi, L.; Zhongfu, T.; Jianhua, Z. (2018). Short term electricity load forecasting using a hybrid model, Journal Energy, 158(C), 774-781, 2018. https://doi.org/10.1016/j.energy.2018.06.012

[Online]. Available: www.mathworks.com Matlab Users guide, Accesed on 12 February 2018.

ANN based Short-Term Load Curve Forecasting

Authors

Keywords:

Abstract

References

Published

Issue

Section

License

Most read articles by the same author(s)