A New Method for Predicting the Monthly Fault Number of Watt-hour Meters Based on Time Series

A New Method for Predicting the Monthly Fault Number of Watt-hour Meters Based on Time Series

The existing watt-hour meter fault prediction models in the State Grid information system are relatively simple and insufficient, and there is no specific model for predicting the monthly fault number of watt-hour meters. Based on time series, an integrated time series prediction model is establishe...

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Bibliographic Details
Main Authors: Yuan LI, Angang ZHENG, Huang TAN, Hao CHEN, Shuya CHENG, Hui CAI, Lixin WANG
Format: Article
Language:zho
Published: State Grid Energy Research Institute 2020-06-01
Series:Zhongguo dianli
Subjects:
watt-hour meter
monthly fault number
time series
bp neural network
reasonable distribution of watt-hour meters
Online Access:https://www.electricpower.com.cn/CN/10.11930/j.issn.1004-9649.201910016
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Summary:The existing watt-hour meter fault prediction models in the State Grid information system are relatively simple and insufficient, and there is no specific model for predicting the monthly fault number of watt-hour meters. Based on time series, an integrated time series prediction model is established for an accurate prediction of the monthly fault number of batch watt-hour meters. Firstly, the moving average sequence is calculated for the monthly fault number of watt-hour meters to remove small fluctuations. And then, the ARIMA model or exponential smoothing model is selected to predict the moving average sequence according to the long-term trend of the sequence. Finally, the reverse moving average is used to realize the accurate short-term prediction of the monthly fault number of the whole batch of watt-hour meters. By comparison with the BP neural network model, the practicability and accuracy of the proposed time series model is verified. On this basis, a monthly fault prediction model is established. The measurement asset management departments can use the proposed method to predict the number of faulted watt-hour meters, and prepare the stock according to the prediction results, consequently improving the rationality of resource allocation and work efficiency.
ISSN:1004-9649

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