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Temporal Causal Inference in Wind Turbine SCADA Data Using Deep Learning for Explainable AI

Joyjit Chatterjee, Nina Dethlefs

2020Journal of Physics Conference Series25 citationsDOIOpen Access PDF

Abstract

Machine learning techniques have been widely used for condition-based monitoring of wind turbines using Supervisory Control & Acquisition (SCADA) data. However, many machine learning models, including neural networks, operate as black boxes: despite performing suitably well as predictive models, they are not able to identify causal associations within the data. For data-driven system to approach human-level intelligence in generating effective maintenance strategies, it is integral to discover hidden knowledge in the operational data. In this paper, we apply deep learning to discover causal relationships between multiple features (confounders) in SCADA data for faults in various sub-components from an operational turbine using convolutional neural networks (CNNs) with attention. Our technique overcomes the black box nature of conventional deep learners and identifies hidden confounders in the data through the use of temporal causal graphs. We demonstrate the effects of SCADA features on a wind turbine's operational status, and show that our technique contributes to explainable AI for wind energy applications by providing transparent and interpretable decision support.

Topics & Concepts

SCADACausal inferenceArtificial intelligenceComputer scienceBlack boxConvolutional neural networkMachine learningDeep learningTurbineArtificial neural networkInferenceWind powerEngineeringEconometricsElectrical engineeringMechanical engineeringEconomicsEnergy Load and Power ForecastingMachine Fault Diagnosis TechniquesElectricity Theft Detection Techniques