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Digital technologies of integrated information support of aviation products in Aerospace education

Tatiana P. Eichmann, Sergey D. Salenko, Nikolay V. Kurlaev

UDC [378:629.7]-042.4:004

https://doi.org/10.20339/AM.06-23.103

 

Tatiana P. Eichmann, Senior lecturer at Novosibirsk State Technical University (NSTU), e-mail: eykhman@corp.nstu.ru

Sergey D. Salenko, Dr. Sc. (Technic), Professor, Head of the Department of Aerohydrodynamics at Novosibirsk State Technical University (NSTU), ORCID: 0000-0002-8752-1380, e-mail: salenko@corp.nstu.ru

Nikolay V. Kurlaev, Dr. Sc. (Technic), Professor, Head of the Department of Aircraft and Helicopter Engineering at Novosibirsk State Technical University (NSTU), ORCID: 0000-0002-1148-5985, e-mail: kurlaev@corp.nstu.ru

 

The creation of new modifications of aviation equipment requires new design and production technologies based on information technology. Modern information technologies provide the possibility of computer-aided design and production of structures. Currently, there is also a requirement for aircraft operators to design products taking into account their subsequent maintenance. The competitiveness and reliability of aerospace equipment should be ensured by qualified specialists at all stages of the life cycle of aviation equipment. To implement this approach, systematic training of specialists is required for all stages of the product life cycle. Currently, most enterprises of the aviation and rocket and space industry, in order to ensure the competitiveness of their products, are intensively working on the introduction of modern information technologies based on the principles of corporate management of the life cycle of manufactured products. The successful development of these works is possible only on condition of the development of personnel training in the field of corporate product lifecycle support systems, personnel not only ready for the qualified use of advanced information and organizational technologies, but also for their development and improvement. It is necessary to provide training for graduates of aerospace universities who are ready to solve professional problems of design, preparation of production, manufacture and operation of products using applied information technologies. The methodological basis for solving these problems is the development of new curricula, including new disciplines on product lifecycle management. The authors show approaches in the practical training of personnel who possess digital technologies, focused on the requirements of the production of enterprises in terms of integrated information support for the life cycle of products in the aerospace industry.

Keywords: digital transformation, systems engineering methods, digital twin, digital environment.

 

 

References

  1. Sudov, E.V. Integrated information support of the life cycle of machine-building products. Principles. Technologies. Methods. Models. Moscow: Publ. house “MVM”, 2003. 264 p.
  2. Kenneth, B. Kahn, Mayur, Mohan Lifecycle management. In book: Innovation and New Product Planning. N. Y.: Routledge, 2020. P. 177–185.
  3. Manturov, D.V., Efimova, N.S. Introduction of information support systems for high-tech products in the organization of production in the aircraft industry. Armament and economy. No. 3 (19). 2012. P. 50–55.
  4. Vedmid, P.A. Fundamentals of NX CAM. Moscow: DMK Press, 2012. 216 p.
  1. Goncharov, P.S., Artamonov, I.A., Khalitov, T.F. NX Advanced Simulation. Engineering analysis. Moscow: DMK Press, 2012. 504 p.
  2.             Artamonov, I.A. Practical use of NX. Moscow: DMK Press, 2011. 332 p.

7.         Eltsov, M.Yu., Kozlov, A.A., Sedoykin, A.V. Designing in NX under Teamcenter control. Moscow: DMK Press, 2013. 752 p.

8. Pochekuev, E.N., Puteev, P.A., Schoenberger, P.N. Design of stamps for sequential sheet stamping in the NX system. Moscow: DMK Press, 2012. 336 p.

  1. Technology of metal processing by cutting. Textbook. Stockholm: AB Sandvik Coromant. 2009. 390 p.
  2. Xiangqun Chen, Rui Huang, Liman Shen, Dingying Guo, Dezhi Xiong, Xiangqi Xiao, Mouhai Liu, Xu Renheng. Research on the full life cycle management system of smart electric energy meter. 3rd International Conference on Advances in Energy Resources and Environment Engineering: IOP Conference Series: Earth and Environmental Science, Vol. 113, 8–10 December. Harbin, China, 2017.
  3.  Eykhman, T.P. and Kurlaev, N.V. Information support of the life cycle of aircraft engineering products. In: Textbook for the implementation of the course project on the discipline “Information support of the life cycle of aircraft engineering products” specialization of the Aircraft Engineering. Novosibirsk: NSTU, 2014. 97 p.