Cloud-edge collaboration method for abnormal power consumption pattern recognition considering dynamic expression of information

Abnormal power consumption recognition is an important part of the power consumption check and the operation status identification of metering devices，and is of great significance to maintain the safe operation of power grid and protect the rights and interests of normal users. In order to recognize multiple power consumption patterns of users，existing methods tend to cause complicated calculation on the basis of ensuring recognition accuracy. While，simple calculation methods considering efficiency are difficult to accurately measure the similarity of different power consumption patterns，so it is difficult to give consideration to calculation efficiency and accuracy. In addition，uploading power consumption data to the cloud for centralized computing consumes a large amount of network bandwidth and computing resources，which further limits the application of anomaly recognition. Therefore，a cloud-edge collaboration method for abnormal power consumption pattern recognition considering the dynamic expression of information is proposed. According to the computing resources of the edge terminal and the cloud，the cooperative tasks are reasonably allocated to realize the cloud-edge collaboration recognition of abnormal power consumption. Aiming at the problem of limited computing power of edge servers，the dynamic compression and re-expression of power consumption data are carried out to reduce the data amount and ensure the accuracy of data information. After receiving the compressed data，the cloud takes the segmented weighted dynamic time warping distance as the basis for the similarity measurement of compressed data，and identifies abnormal power consumption based on the density clustering algorithm with adaptive parameter selection. The effectiveness of the proposed method is verified based on the actual data set. © 2022 Electric Power Automation Equipment Press. All rights reserved.