Publication detail

Simulation-Based Diagnosis for Cyber-Physical Systems - A General Approach and Case Study on a Dual Three-Phase E-Machine

KAUFMANN, D. KOZOVSKÝ, M. WOTAWA, F.

Original Title

Simulation-Based Diagnosis for Cyber-Physical Systems - A General Approach and Case Study on a Dual Three-Phase E-Machine

Type

conference paper

Language

English

Original Abstract

This paper presents a simulation-based approach for fault diagnosis in cyber-physical systems. We utilize simulation models to generate training data for machine learning classifiers to detect faults and identify the root cause. The presented processing pipeline includes simulation model validation, training data generation, data preprocessing, and the implementation of a diagnosis method. A case study with a dual three-phase e-machine highlights the results and challenges of the simulation-based diagnosis approach. The e-machine simulation model provides a complex and robust system representation, including the capability to inject inter-turn short-circuit faults. The introduced validation procedures of the simulation model revealed limitations in signal similarity and distinguishability compared to real system behavior. Based on the discovered limitations, the overall best results are achieved by applying an Autoencoder model for anomaly detection, followed by a Random Forest classifier to identify the specific anomalies. Further, the focus is on identifying the affected e-machine phase rather than the exact number of faulty winding turns. The paper shows the challenges when applying a simulation-based diagnosis approach to time-series data and underlines the required analysis of simulation models. In addition, the flexible adaption in the diagnosis strategies enhances the efficient utilization of cyber-physical system models in fault diagnosis and root cause identification.

Keywords

Cyber-Physical System, Fault diagnosis, Root cause analysis, Simulation-Based Diagnosis, Machine Learning, Artificial Neural Networks

Authors

KAUFMANN, D.; KOZOVSKÝ, M.; WOTAWA, F.

Released

26. 11. 2024

Publisher

Schloss Dagstuhl – Leibniz-Zentrum für Informatik

ISBN

978-3-95977-356-0

Book

35th International Conference on Principles of Diagnosis and Resilient Systems (DX 2024)

ISBN

2190-6807

Periodical

OpenAccess Series in Informatics (OASIcs)

Year of study

125

Number

18

State

Federal Republic of Germany

Pages from

18:1

Pages to

18:21

Pages count

21

URL

https://drops.dagstuhl.de/entities/document/10.4230/OASIcs.DX.2024.18