Application of improved DBN and GRU based on intelligent optimization algorithm in power load identification and prediction

Wu, Jintao; Tang, Xiling; Zhou, Dongxu; Deng, Wenyuan; Cai, Qianqian

doi:10.1186/s42162-024-00340-4

Energy Inform

2024

DOI: 10.1186/s42162-024-00340-4

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Application of improved DBN and GRU based on intelligent optimization algorithm in power load identification and prediction

Jintao Wu,

Xiling Tang,

Dongxu Zhou

et al.

Abstract: Non intrusive load monitoring belongs to the key technologies of intelligent power management systems, playing a crucial role in smart grids. To achieve accurate identification and prediction of electricity load, intelligent optimization algorithms are introduced into deep learning optimization for improvement. A load recognition model combining sparrow search algorithm and deep confidence network is designed, as well as a gated recurrent network prediction model on the grounds of particle swarm optimization. … Show more

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Cited by 3 publications

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Enhancing Short-Term Load Forecasting Accuracy in High-Volatility Regions Using LSTM-SCN Hybrid Models

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Short-Term Load Forecasting (STLF) is essential for the efficient management of power systems, as it improves forecasting accuracy while optimizing power scheduling efficiency. Despite significant recent advancements in STLF models, forecasting accuracy in high-volatility regions remains a key challenge. To address this issue, this paper introduces a hybrid load forecasting model that integrates the Long Short-Term Memory Network (LSTM) with the Stochastic Configuration Network (SCN). We first verify the Universal Approximation Property of SCN through experiments on two regression datasets. Subsequently, we reconstruct the features and input them into the LSTM for feature extraction. These extracted feature vectors are then used as inputs for SCN-based STLF. Finally, we evaluate the performance of the LSTM-SCN model against other baseline models using the Australian Electricity Load dataset. We also select five high-volatility regions in the test set to validate the LSTM-SCN model’s advantages in such scenarios. The results show that the LSTM-SCN model achieved an RMSE of 56.970, MAE of 43.033, and MAPE of 0.492% on the test set. Compared to the next best model, the LSTM-SCN model reduced errors by 6.016, 8.846, and 0.053% for RMSE, MAE, and MAPE, respectively. Additionally, the model consistently outperformed across all five high-volatility regions analyzed. These findings highlight its contribution to improved power system management, particularly in challenging high-volatility scenarios.

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Application of improved DBN and GRU based on intelligent optimization algorithm in power load identification and prediction

Cited by 3 publications

References 22 publications

Towards facial micro-expression detection and classification using modified multimodal ensemble learning approach

Towards facial micro-expression detection and classification using modified multimodal ensemble learning approach

A ship motion forecasting approach based on Fourier transform, regularized Bi-LSTM and chaotic quantum adaptive WOA

Enhancing Short-Term Load Forecasting Accuracy in High-Volatility Regions Using LSTM-SCN Hybrid Models

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