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Real-time digital twin-based optimization with predictive simulation learning

Author

Listed:
  • Travis Goodwin
  • Jie Xu
  • Nurcin Celik
  • Chun-Hung Chen

Abstract

Digital twinning presents an exciting opportunity enabling real-time optimization of the control and operations of cyber-physical systems (CPS) with data-driven simulations, while facing prohibitive computational burdens. This paper introduces a method, Sequential Allocation using Machine-learning Predictions as Light-weight Estimates (SAMPLE) to address this computational challenge by leveraging machine learning models trained off-line in a predictive simulation learning setting prior to a real-time decision. SAMPLE integrates machine learning predictions with data generated by real-time execution of a digital twin in a rigorous yet flexible way, and optimally guides the digital twin simulation to achieve the computational efficiency required for real-time decision-making in a CPS. Numerical experiments demonstrate the viability of SAMPLE to select optimal decisions in real-time for CPS control and operations, compared to those of using only machine learning or simulations.

Suggested Citation

  • Travis Goodwin & Jie Xu & Nurcin Celik & Chun-Hung Chen, 2024. "Real-time digital twin-based optimization with predictive simulation learning," Journal of Simulation, Taylor & Francis Journals, vol. 18(1), pages 47-64, January.
    • Handle: RePEc:taf:tjsmxx:v:18:y:2024:i:1:p:47-64
    DOI: 10.1080/17477778.2022.2046520
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