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Transferable Tree-Based Ensemble Model for Non-Intrusive Load Monitoring

Xiaomin Chang, Wei Li, Chunqiu Xia, Qiang Yang, Jin Ma, Ting Yang, Albert Y. Zomaya

2022IEEE Transactions on Sustainable Computing17 citationsDOI

Abstract

Sustainable energy management systems have been increasingly studied in recent years. Non-intrusive load monitoring (NILM), as a key component, estimates the power consumption of individual appliances from the main readings only. However, most NILM approaches are computationally expensive, and their generality is negatively affected by the data drift occurred when the models are used across domains. Besides, the threats of privacy violation will rise in the model transfer due to the possible leakage of the personal information of the users from the source domain. To address all these challenges, we designed a cost-efficient learning method using LightGBM for energy disaggregation. We also proposed a model-based transfer learning algorithm using feature importance analysis, which enhances the generalisation capability of tree-based ensemble models applied in different domains while protecting privacy. We conducted experiments with real-world data sets. The performance of our approach is superior to the state-of-the-art solutions.

Topics & Concepts

GeneralityComputer scienceData miningDecision treeTree (set theory)Key (lock)Ensemble learningEnergy consumptionFeature (linguistics)Ensemble forecastingMachine learningBig dataArtificial intelligenceConcept driftDomain (mathematical analysis)Transfer of learningData stream miningEngineeringComputer securityElectrical engineeringPsychologyMathematicsPsychotherapistPhilosophyLinguisticsMathematical analysisSmart Grid Energy ManagementWater Systems and OptimizationSmart Parking Systems Research
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