Online Prediction Method of Transmission Line Icing Based on Robust Seasonal Decomposition of Time Series and Bilinear Temporal–Spectral Fusion and Improved Beluga Whale Optimization Algorithm–Least Squares Support Vector Regression

Qiang Li; Xiao Liao; Wei Cui; Ying Wang; Hui Cao; Xianjing Zhong

doi:10.3390/asi7030040

Applied System Innovation (May 2024)

Online Prediction Method of Transmission Line Icing Based on Robust Seasonal Decomposition of Time Series and Bilinear Temporal–Spectral Fusion and Improved Beluga Whale Optimization Algorithm–Least Squares Support Vector Regression

Qiang Li,
Xiao Liao,
Wei Cui,
Ying Wang,
Hui Cao,
Xianjing Zhong

Affiliations

Qiang Li: State Grid Information & Telecommunication Group Co., Ltd., Beijing 610041, China
Xiao Liao: State Grid Information & Telecommunication Group Co., Ltd., Beijing 610041, China
Wei Cui: State Grid Information & Telecommunication Group Co., Ltd., Beijing 610041, China
Ying Wang: State Grid Information & Telecommunication Group Co., Ltd., Beijing 610041, China
Hui Cao: School of Electrical Engineering, Xi’an Jiaotong University, Xi’an 710049, China
Xianjing Zhong: School of Electrical Engineering, Xi’an Jiaotong University, Xi’an 710049, China

DOI: https://doi.org/10.3390/asi7030040
Journal volume & issue: Vol. 7, no. 3
p. 40

Abstract

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Due to the prevalent challenges of inadequate accuracy, unstandardized parameters, and suboptimal efficiency with regard to icing prediction, this study introduces an innovative online method for icing prediction based on Robust STL–BTSF and IBWO–LSSVR. Firstly, this study adopts the Robust Seasonal Decomposition of Time Series and Bilinear Temporal–Spectral Fusion (Robust STL–BTSF) approach, which is demonstrably effective for short-term and limited sample data preprocessing. Subsequently, injecting a multi-faceted enhancement approach to the Beluga Whale Optimization algorithm (BWO), which integrates a nonlinear balancing factor, a population optimization strategy, a whale fall mechanism, and an ascendant elite learning scheme. Then, using the Improved BWO (IBWO) above to optimize the key hyperparameters of Least Squares Support Vector Regression (LSSVR), a superior offline predictive part is constructed based on this approach. In addition, an Incremental Online Learning algorithm (IOL) is imported. Integrating the two parts, the advanced online icing prediction model for transmission lines is built. Finally, simulations based on actual icing data unequivocally demonstrate that the proposed method markedly enhances both the accuracy and speed of predictions, thereby presenting a sophisticated solution for the icing prediction on the transmission lines.

Published in Applied System Innovation

ISSN: 2571-5577 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering: Applied mathematics. Quantitative methods
Website: https://www.mdpi.com/journal/asi

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