Zhejiang dianli (Mar 2024)
A household-transformer relationships and phase identification method of low-voltage distribution networks based on graph transformation and transfer learning
Abstract
A method based on graph transformation and transfer learning is proposed to further enhance the accuracy of household-transformer relationships and phase identification in low-voltage distribution networks. Firstly, a graph transformation method based on Gramian angular field (GAF) is introduced to convert electricity consumption data into a two-dimensional representation, facilitating the identification of differences in one-dimensional time-series electricity consumption data. Next, to address challenges such as sparse user data in low-voltage distribution networks, limited data acquisition methods, and a scarcity of samples, a deep learning model suitable for household-transformer relationship and phase identification is constructed using transfer learning and leveraging pre-trained parameter weights. Experimental validation demonstrates that the proposed model outperforms mainstream methods in both household-transformer relationship and phase identification, exhibiting improved accuracy and stability.
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