Multi-Inverter Principal Benefit Allocation Method Based on Improved Shapley

The potential subjects of multifunctional inverters that can participate in power quality management in Shenzhen are deeply analyzed, and the factors are analyzed. The basic principle of initial Shapley value is analyzed and the initial model is constructed. Modification factor is used to improve th...

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Bibliographic Details
Published in2025 2nd International Conference on Electrical Technology and Automation Engineering (ETAE) pp. 81 - 86
Main Authors Wang, Qing, Hou, Yuchao, Zhang, Huaying, Zheng, Yuting, Xiao, Fan, Guo, Qi
Format Conference Proceeding
LanguageEnglish
Published IEEE 23.05.2025
Subjects
Analytical models
Automation
Business
Business model
Correction factor
Costs
Inverters
Multifunctional inverter
Power quality
Resource management
Shapley value allocation method
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DOI10.1109/ETAE65337.2025.11089531

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Summary:The potential subjects of multifunctional inverters that can participate in power quality management in Shenzhen are deeply analyzed, and the factors are analyzed. The basic principle of initial Shapley value is analyzed and the initial model is constructed. Modification factor is used to improve the Shapley value allocation method and build a more practical allocation model. Four factors of capacity cost, risk size, social responsibility and technical level were selected to form the correction factor, and the feasibility of the improved allocation method was verified by case analysis. Further improve the utilization rate and participation enthusiasm of multi-inverters participating in power quality management, and improve the auxiliary service market rules.
DOI:10.1109/ETAE65337.2025.11089531