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Machine Learning Assisted Inertia Estimation Using Ambient Measurements

Mingjian Tuo, Xingpeng Li

2023IEEE Transactions on Industry Applications36 citationsDOI

Abstract

With the increasing penetration of converter-based renewable resources, different types of dynamics have been introduced to the power system. Due to the complexity and high order of the modern power system, mathematical model-based inertia estimation method becomes more difficult. This paper proposes two novel machine learning assisted inertia estimation methods based on long-recurrent convolutional neural (LRCN) network and graph convolutional neural (GCN) network respectively. Informative features are extracted from ambient measurements collected through phasor measurement units (PMU). Spatial structure with high dimensional features and graphical information are then incorporated to improve the accuracy of the inertia estimation. Case studies are conducted on the IEEE 24-bus system. The proposed LRCN and GCN based inertia estimation models achieve an accuracy of 97.34% and 98.15% respectively. Furthermore, the proposed zero generation injection bus based optimal PMU placement (ZGIB-OPP) has been proved to be able to maximize the system observability, which subsequently improves the performance of all proposed inertia estimation models.

Topics & Concepts

ObservabilityPhasorInertiaComputer scienceElectric power systemConvolutional neural networkControl theory (sociology)Artificial neural networkArtificial intelligenceControl engineeringPower (physics)EngineeringMathematicsQuantum mechanicsControl (management)Applied mathematicsPhysicsClassical mechanicsEnergy Load and Power ForecastingPower System Optimization and StabilityOptimal Power Flow Distribution
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