Abstract
With the expansion of advanced metering infrastructure (AMI) installations, various additional services using AMI data have emerged. However, some data is lost in the communication process of data collection. Hence, to address this challenge, the estimation of the missing data is required. To estimate the missing values in the time-series data generated from smart meters, we investigated four methods, ranging from a conventional method to an estimation method applying long short-term memory (LSTM), which exhibits excellent performance in the time-series field, and provided the performance comparison data. Furthermore, because power usages represent estimates of data that are missing some values in the middle, rather than regular time-series estimation data, the simple estimation may lead to an error where the estimated accumulated power usage in the missing data is larger than the real accumulated power usage appearing in the data after the end of the missing data interval. Therefore, this study proposes a hybrid method that combines the advantages of the linear interpolation method and the LSTM estimation-based compensation method, rather than those of conventional methods adopted in the time-series field. The performance of the proposed method is more stable and better than that of other methods.
Highlights
Advanced metering infrastructure (AMI) is an essential infrastructure for implementing smart grids, which comprises smart meters, a communication network, meter data management system (MDMS), and an operating system
We proposed a hybrid algorithm that combines the advantages of the long short-term memory (LSTM) estimation and linear interpolation methods to correct missing power consumption data
The linear interpolation and LSTM estimation-based compensation methods exhibited the best performances among the four algorithms
Summary
Advanced metering infrastructure (AMI) is an essential infrastructure for implementing smart grids, which comprises smart meters, a communication network, meter data management system (MDMS), and an operating system. Modems are installed in the smart meters to facilitate bi-directional communication [1,2]. The AMI operating system enables the convergence of various services such as remote meter reading, demand management, power consumption reduction, and power quality improvement based on a bi-directional communication between consumers and power companies [3]. Corporation (KEPCO) completed the construction of AMI for approximately 6.8 million households by 2018 and 400 households in 2019, thereby handling AMI operations for approximately 10 million households [4]. It has become difficult to construct the AMI for all 22.5 million households by 2020, as originally planned.
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