The widespread penetration of advanced metering infrastructure brings an opportunity to detect electricitytheft by analyzing the electricity consumption data collected from smart meters. However, existing models have...
详细信息
The widespread penetration of advanced metering infrastructure brings an opportunity to detect electricitytheft by analyzing the electricity consumption data collected from smart meters. However, existing models have poor performance in electricitytheftdetection, since most of them fail to capture the time dependence, periodicity, and latent feature from complex electricity consumption data. To address above concerns, a graph convolutional neural network (GCN) and a Euclidean convolutional neural network (CNN) are combined to form a novel model for electricitytheftdetection in this paper. On one hand, the high-dimensional power load curves are modeled as a graph from a new perspective on graph theory. Then, the GCN depicts the time dependence and periodicity by performing graph convolutional operations. On the other hand, the CNN captures the latent features from the power load curves by carrying out Euclidean convolutional procedures. Numerical simulations show that the proposed model integrates the benefits of GCN and CNN, leading to superiority over the popular benchmarks in electricitytheftdetection.
暂无评论