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A Large Language Model for Determining Partial Tripping of Distributed Energy Resources

Tianqiao Zhao, Amirthagunaraj Yogarathnam, Meng Yue

2024IEEE Transactions on Smart Grid13 citationsDOIOpen Access PDF

Abstract

Knowing the status of individual distributed energy resources, i.e., being tripped or not, after a contingency can inform the development of an aggregated DER model. This letter presents a large language model application to determine the partial tripping of distributed energy resources depending on the types, locations, and duration of faults in the transmission network. The large language model, or more specifically BERT-based approach can streamline the fault information into tokenized input, which not only reduces the complexity of the machine learning model but also demonstrates a robust performance with only limited data sets.

Topics & Concepts

TrippingComputer scienceEnergy resourcesDistributed generationDistributed computingRenewable energyEnvironmental economicsEngineeringElectrical engineeringCircuit breakerEconomicsComplex Network Analysis TechniquesIntegrated Energy Systems OptimizationAdvanced Graph Neural Networks
A Large Language Model for Determining Partial Tripping of Distributed Energy Resources | Litcius