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Machine Learning-Based Node Characterization for Smart Grid Demand Response Flexibility Assessment

Rostislav Krč, Martina Kratochvílová, Jan Podroužek, Tomáš Apeltauer, Václav Stupka, Tomáš Pitner

2021Sustainability25 citationsDOIOpen Access PDF

Abstract

As energy distribution systems evolve from a traditional hierarchical load structure towards distributed smart grids, flexibility is increasingly investigated as both a key measure and core challenge of grid balancing. This paper contributes to the theoretical framework for quantifying network flexibility potential by introducing a machine learning based node characterization. In particular, artificial neural networks are considered for classification of historic demand data from several network substations. Performance of the resulting classifiers is evaluated with respect to clustering analysis and parameter space of the models considered, while the bootstrapping based statistical evaluation is reported in terms of mean confusion matrices. The resulting meta-models of individual nodes can be further utilized on a network level to mitigate the difficulties associated with identifying, implementing and actuating many small sources of energy flexibility, compared to the few large ones traditionally acknowledged.

Topics & Concepts

Flexibility (engineering)Computer scienceSmart gridBootstrapping (finance)Node (physics)Demand responseCluster analysisCore (optical fiber)Distributed computingGridMachine learningArtificial intelligenceDistributed generationData miningEngineeringElectricityMathematicsStructural engineeringEconometricsTelecommunicationsElectrical engineeringRenewable energyGeometryStatisticsSmart Grid Energy ManagementEnergy Load and Power ForecastingComplex Systems and Time Series Analysis