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[1] 庄存波,刘检华,熊辉,等.产品数字孪生体的内涵、体系结构及其发展趋势[J].计算机集成制造系统,2017,23(4):753-768.
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[3] Zhuang C, Miao T, Liu J, et al. The connotation of digital twin, and the construction and application method of shop-floor digital twin [J]. Robotics and Computer-Integrated Manufacturing, 2021, 68(4):102075.
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[5] Grieves M, Vickers J. Digital twin: mitigating unpredictable, undesirable emerge nt behavior in complex systems [M]. Transdisciplinary Perspectives on Complex Systems Berlin, Germany: Springer-Verlag, 2017: 85-113.
[6] Tuegel E J, Ingraffea A R, Eason T G, et al. Reengineering aircraft structural life prediction using a digital twin [J]. International Journal of Aerospace Engineering, 2011: 154798. DOI:10.1155/2011/154798.
[7] Tuegel E J. The airframe digital twin: Some challenges to realization [C]. Hawaii, USA: 53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference 20th AIAA/ASME/AHS Adaptive Structures Conference 14th AIAA, 2012:1812.
[8] Glaessgen E, Stargel D. The Digital Twin paradigm for future NASA and US Air Force vehicles [C]. Hawaii, USA: 53rd Structures, Structural Dynamics and Materials Conference. Special Session: Digital Twin, Honolulu, HI, US. 2012:1-14.
[9] 陶飞,刘蔚然,刘检华,等.数字孪生及其应用探索[J].计算机集成制造系统,2018,24(1):1-18.
[10] 陶飞,张萌,程江峰,等.数字孪生车间—一种未来车间运行新模式[J].计算机集成制造系统,2017,23(1):1-9.
[11] Tao F, Cheng J, Qi Q, et al. Digital twin-driven product design, manufacturing and service with big data [J].The International Journal of Advanced Manufacturing Technology, 2018, 94:3563-3576.
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