Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction
Accurate photovoltaic (PV) power prediction has been a subject of ongoing study in order to address grid stability concerns caused by PV output unpredictability and intermittency. This paper proposes an ultra-short-term hybrid photovoltaic power forecasting method based on a dendritic neural model...
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my.uthm.eprints.101802023-10-18T02:33:50Z http://eprints.uthm.edu.my/10180/ Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction Hui Hwang Goh, Hui Hwang Goh Qinwen Luo, Qinwen Luo Dongdong Zhang, Dongdong Zhang Hui Liu, Hui Liu Wei Dai, Wei Dai Chee Shen Lim, Chee Shen Lim Tonni Agustiono Kurniawan, Tonni Agustiono Kurniawan Kai Chen Goh, Kai Chen Goh T Technology (General) Accurate photovoltaic (PV) power prediction has been a subject of ongoing study in order to address grid stability concerns caused by PV output unpredictability and intermittency. This paper proposes an ultra-short-term hybrid photovoltaic power forecasting method based on a dendritic neural model (DNM) in this paper. This model is trained using improved biogeography-based optimization (IBBO), a technique that incorporates a domestication operation to increase the performance of classical biogeography-based optimization (BBO). To be more precise, a similar day selection (SDS) technique is presented for selecting the training set, and wavelet packet transform (WPT) is used to divide the input data into many components. IBBO is then used to train DNM weights and thresholds for each component prediction. Finally, each component’s prediction results are stacked and reassembled. The suggested hybrid model is used to forecast PV power under various weather conditions using data from the Desert Knowledge Australia Solar Centre (DKASC) in Alice Springs. Simulation results indicate the proposed hybrid SDS and WPT-IBBO-DNM model has the lowest error of any of the benchmark models and hence has the potential to considerably enhance the accuracy of solar power forecasting (PVPF). 2023 Article PeerReviewed text en http://eprints.uthm.edu.my/10180/1/J14369_830d1175165a60a814f4f04bf869a007.pdf Hui Hwang Goh, Hui Hwang Goh and Qinwen Luo, Qinwen Luo and Dongdong Zhang, Dongdong Zhang and Hui Liu, Hui Liu and Wei Dai, Wei Dai and Chee Shen Lim, Chee Shen Lim and Tonni Agustiono Kurniawan, Tonni Agustiono Kurniawan and Kai Chen Goh, Kai Chen Goh (2023) Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction. CSEE JOURNAL OF POWER AND ENERGY SYSTEMS, 9 (1). pp. 66-76. |
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T Technology (General) Hui Hwang Goh, Hui Hwang Goh Qinwen Luo, Qinwen Luo Dongdong Zhang, Dongdong Zhang Hui Liu, Hui Liu Wei Dai, Wei Dai Chee Shen Lim, Chee Shen Lim Tonni Agustiono Kurniawan, Tonni Agustiono Kurniawan Kai Chen Goh, Kai Chen Goh Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
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Accurate photovoltaic (PV) power prediction has
been a subject of ongoing study in order to address grid stability concerns caused by PV output unpredictability and intermittency. This paper proposes an ultra-short-term hybrid photovoltaic power forecasting method based on a dendritic neural model (DNM) in this paper. This model is trained using improved biogeography-based optimization (IBBO), a technique that incorporates a domestication operation to increase the performance of classical biogeography-based optimization (BBO). To be more precise, a similar day selection (SDS) technique is presented for selecting the training set, and wavelet packet transform (WPT) is used to divide the input data into many components. IBBO is then used to train DNM weights and thresholds for each component prediction. Finally, each component’s prediction
results are stacked and reassembled. The suggested hybrid
model is used to forecast PV power under various weather
conditions using data from the Desert Knowledge Australia Solar Centre (DKASC) in Alice Springs. Simulation results indicate the proposed hybrid SDS and WPT-IBBO-DNM model has the lowest error of any of the benchmark models and hence has the potential to considerably enhance the accuracy of solar power forecasting (PVPF). |
format |
Article |
author |
Hui Hwang Goh, Hui Hwang Goh Qinwen Luo, Qinwen Luo Dongdong Zhang, Dongdong Zhang Hui Liu, Hui Liu Wei Dai, Wei Dai Chee Shen Lim, Chee Shen Lim Tonni Agustiono Kurniawan, Tonni Agustiono Kurniawan Kai Chen Goh, Kai Chen Goh |
author_facet |
Hui Hwang Goh, Hui Hwang Goh Qinwen Luo, Qinwen Luo Dongdong Zhang, Dongdong Zhang Hui Liu, Hui Liu Wei Dai, Wei Dai Chee Shen Lim, Chee Shen Lim Tonni Agustiono Kurniawan, Tonni Agustiono Kurniawan Kai Chen Goh, Kai Chen Goh |
author_sort |
Hui Hwang Goh, Hui Hwang Goh |
title |
Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
title_short |
Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
title_full |
Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
title_fullStr |
Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
title_full_unstemmed |
Hybrid SDS and WPT-IBBO-DNM Based Model for Ultra-short Term Photovoltaic Prediction |
title_sort |
hybrid sds and wpt-ibbo-dnm based model for ultra-short term photovoltaic prediction |
publishDate |
2023 |
url |
http://eprints.uthm.edu.my/10180/1/J14369_830d1175165a60a814f4f04bf869a007.pdf http://eprints.uthm.edu.my/10180/ |
_version_ |
1781707445572206592 |