期刊
出版社
IEEE COMPUTER SOC
DOI: 10.1109/ICSTW58534.2023.00037
关键词
Digital twin; software testing; reinforcement learning; industry 4.0; machine learning
Digital twins (DT) of industrial processes are increasingly important, aiming to digitally represent and optimize physical processes. This paper presents an automated and systematic test architecture for DT, correlating DT states with real-time sensor data to accelerate the testing process and improve reliability.
Digital twins (DT) of industrial processes have become increasingly important. They aim to digitally represent the physical world to help evaluate, optimize, and predict physical processes and behaviors. Therefore, DT is a vital tool to improve production automation through digitalization and becomes more sophisticated due to rapidly evolving simulation and modeling capabilities, integration of IoT sensors with DT, and high-capacity cloud/edge computing infrastructure. However, the fidelity and reliability of DT software are essential to represent the physical world. This paper shows an automated and systematic test architecture for DT that correlates DT states with real-time sensor data from a production line in the forging industry. Our evaluation shows that the architecture can significantly accelerate the automatic DT testing process and improve its reliability. A systematic online DT testing method can significantly detect the performance shift and continuously improve the DT's fidelity. The snapshot creation methodology and testing agent architecture can be an inspiration and can be generally applicable to other industrial processes that use DT to generalize their automated testing.
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