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| Theoretical Foundations and Practical Implementations of Digital Engineering for Equipment |
| GUAN Xinping1, ZHANG Zhijun2, JIANG Haibo3, ZHANG Ting2, GU Zhichao3 |
| 1. School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240,China;
2. Shanghai Academy of Spaceflight Technology, Shanghai 201109, China;
3. Shanghai ShareE Technology Co., Ltd., Shanghai 201100, China |
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Abstract In the era of global digitization, how to improve efficiency and reduce costs in the practice of high-end
complex equipment systems engineering is critical.
This study proposed that the essence of digital engineering practice was an extension of the application of systems engineering in the whole life cycle of the system and the digital engineering practice could improve the efficiency, research, development, procurement, operation, and maintenance of the complex system, and reduce the costs. Based on the practical application of the U.S. Army, this paper organized a digital engineering practice methodology using one core, driven by three types of practices and guided by four steps. The digital engineering practice method outlined the collection of practices at each stage of the equipment life cycle, dominating the system development from the model-based system demonstration, requirements analysis, prototype design and even equipment operation and maintenance. The all-round and whole-process management of the complex system was realized.
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Received: 12 August 2024
Published: 23 November 2024
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| [1] |
GU Zhichao, TAO Zhenji, FENG Nanhao, JIANG Haibo, CAI Binni. Current Development Status and Practice Dimensions of Model-Based Systems Engineering[J]. Air & Space Defense, 2024, 7(5): 28-35. |
| [2] |
WANG Weiping, CHEN Lu, WANG Junmin, LI Xiaobo, ZHU Zhi. Progress Review and Technical Conception on the Digital Mission Engineering Research for Kill-Chain System-of-Systems[J]. Air & Space Defense, 2024, 7(5): 8-17. |
| [3] |
ZHANG Xue. Research on the Progress of US Military Digital Transformation[J]. Air & Space Defense, 2023, 6(4): 12-16. |
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2024, Vol. 7 
