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Data-Driven Short-Term Voltage Stability Assessment Using Convolutional Neural Networks Considering Data Anomalies and Localization

Syed Muhammad Hur Rizvi, Sajan K. Sadanandan, Anurag K. Srivastava

2021IEEE Access33 citationsDOIOpen Access PDF

Abstract

Short-term voltage stability of power systems is governed by load dynamics, especially the proportion of small induction motors prevalent in residential air-conditioners. It is essential to efficiently monitor short-term voltage stability in real-time by detailed data analytics on voltage measurements acquired from phasor measurement units (PMUs). It is likewise critical to identify the location of faults resulting in short-term voltage stability issues for effective remedial actions. This paper proposes a time-series deep learning framework using 1D-convolutional neural networks (1D-CNN) for real-time short-term voltage stability assessment (STVSA), which relies on a limited number of phasor measurement units (PMU) voltage samples. A two-stage STVSA application is proposed. The first stage comprises a 1D-CNN-based fast voltage collapse detector. The second stage comprises of 1D-CNN-based regressor to quantify the severity of the short-term voltage stability event. Two novel indices are presented, and their predicted future values are used to quantify the severity of short-term voltage stability events. This work also considers DB-SCAN clustering-based fault detection and physics-based fault localization for effective short-term voltage stability assessment and remedial actions by identifying the most critical PMUs. A bad data pre-processing technique is also included to mitigate the impact of missing data and outliers on short-term voltage stability assessment accuracy. The proposed framework is validated using the standard IEEE test systems and compared against other machine learning models to demonstrate the superiority of 1D-CNN-based time-series deep learning for short-term voltage stability assessment.

Topics & Concepts

Computer sciencePhasorVoltageStability (learning theory)Convolutional neural networkUnits of measurementControl theory (sociology)Term (time)Fault (geology)Anomaly detectionArtificial intelligenceElectric power systemMachine learningPower (physics)EngineeringElectrical engineeringQuantum mechanicsControl (management)PhysicsGeologySeismologyPower System Optimization and StabilityEnergy Load and Power ForecastingSmart Grid Security and Resilience