LAUSR

Using remote data analysis to estimate smart electricity meters (SMs) and detect SMs’ anomaly has aroused considerable discussion in power industry, because its lower cost and higher efficiency compared with the traditional field calibration. However, the trouble of lacking topology and parameter of the distribution grid and the ill-posed problem in SMs’ error estimation and anomaly detection (AD) are not well-resolved in most energy-conservation-theorem-based SM AD methods. This article presents a sorted Top-N AD mechanism to generate a list of suspicious anomalous SMs. The error estimation model (EEM) only using SMs’ electricity consumption data is investigated. The truncated singular value decomposition regularization with the L-curve optimization (TSVD+L) method is proposed to address the model’s ill-posedness. Three data processing modes, namely, one-pot mode, segmentation mode, and sliding window technique (SWT), are suggested to obtain multiple calculation results for SMs’ error comprehensive evaluation. The top $N$ % SMs in error sequence are proposed for onsite calibration instead of full inspection. The effectiveness and practicality of the proposed method are verified through both the simulation case and practical distribution network application. The results show that the proposed method has higher accuracy in SMs’ AD, compared with the ordinary least-squares (OLS) method, the recursive least-squares (RLS) method, and the Tikhonov regularization (Tik) method.