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Data-Driven Permanent Magnet Temperature Estimation in Synchronous Motors With Supervised Machine Learning: A Benchmark

Wilhelm Kirchgassner, Oliver Wallscheid, Joachim Bocker

2021IEEE Transactions on Energy Conversion112 citationsDOIOpen Access PDF

Abstract

Monitoring the magnet temperature in permanent magnet synchronous motors (PMSMs) for automotive applications is a challenging task for several decades now, as signal injection or sensor-based methods still prove unfeasible in a commercial context. Overheating results in severe motor deterioration and is thus of high concern for the machine's control strategy and its design. Lack of precise temperature estimations leads to lesser device utilization and higher material cost. In this work, several machine learning (ML) models are empirically evaluated on their estimation accuracy for the task of predicting latent high-dynamic magnet temperature profiles, specifically, ordinary least squares, support vector regression, k-nearest neighbors, randomized trees, and neural networks. Having test bench data available, it is shown that ML approaches relying merely on collected data meet the estimation performance of classical thermal models built on thermodynamic theory. Through benchmarking, this work reveals the potential of simpler ML models in terms of regression accuracy, model size, and their data demand in comparison to parameter-heavy deep neural networks, which were investigated in the literature before. Especially linear regression and simple feed-forward neural networks with optimized hyperparameters mark strong predictive quality at low to moderate model sizes.

Topics & Concepts

Computer scienceArtificial neural networkAutomotive industryHyperparameterOverheating (electricity)Test benchSupport vector machineControl theory (sociology)Machine learningRobustness (evolution)Artificial intelligenceMagnetBenchmark (surveying)Synchronous motorControl engineeringTest dataRelevance vector machineComputationTemperature measurementRegressionLinear regressionEstimation theoryMachine toolExperimental dataTask (project management)ThermalWork (physics)Linear modelTemperature controlCondition monitoringDeep learningElectric Motor Design and AnalysisSensorless Control of Electric MotorsMagnetic Properties and Applications
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