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23.06.2023 | Original Article

Toward a shape-performance integrated digital twin based on hybrid reduced-order modeling for engineering structures

verfasst von: Xiwang He, Xiaonan Lai, Kunpeng Li, Shuo Wang, Xueguan Song, Wei Sun

Erschienen in: Engineering with Computers | Ausgabe 2/2024

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Abstract

With the increasing demand for structural visualization, health monitoring, and fault diagnosis, the requirements for real-time and highly accurate digital twins (DTs) to realize interactions between the physical and digital spaces have increased. However, the real-time requirements of DT have become an obstacle to their applications in practical engineering. In this work, a hybrid reduced-order modeling (HROM) method was proposed to improve calculation efficiency and ensure the accuracy of the shape-performance integrated DT (SPI-DT). The proposed method is driven by dynamic sensor data and consisted of the reduced-order model (ROM), the Kriging (KRG) model, and the isoparametric element formulation. It also introduces an iterative infilling strategy to select master degrees of freedom (MDOFs) in this method. In addition, the main beam of a gantry crane was used as a numerical example to verify the accuracy and efficiency of the HROM method. The results show that the online computationally cost online of the HROM method is lower than the KRG and ROM methods, which can improve the computational efficiency of the SPI-DT for complex-large structures by significantly reducing the delay time. Moreover, the HROM method had higher prediction accuracy (R-squared = 0.8986) compared with the KRG method (R-squared = 0.8599) and closer to the ROM method (R-squared = 0.9052) since the HROM method based on the ROM data and the data-driven method. This research provides a feasible method for realizing the applications of DT in major engineering equipment.

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Metadaten
Titel
Toward a shape-performance integrated digital twin based on hybrid reduced-order modeling for engineering structures
verfasst von
Xiwang He
Xiaonan Lai
Kunpeng Li
Shuo Wang
Xueguan Song
Wei Sun
Publikationsdatum
23.06.2023
Verlag
Springer London
Erschienen in
Engineering with Computers / Ausgabe 2/2024
Print ISSN: 0177-0667
Elektronische ISSN: 1435-5663
DOI
https://doi.org/10.1007/s00366-023-01862-3