Formalization of Structural Synthesis of Technical Systems at the Initial Stage of Design

Cover Page

Cite item

Full Text

Abstract

The paper considers the means for conceptual design of complex technical systems. We constructed a quasi-axiomatic theory that formalizes the procedures of generating meaning for a natural language description of the process of creating a new technical solution. Semantic categories, structures of universal sets, operations for comparing elements of the universe are introduced. The types of connection of elementary subsystems are described. We proposed a formalization of the procedure for multilevel synthesis of a technical system using a generative grammar over fuzzy structures. An example of designing a technical device is given.

About the authors

Alla V. Zaboleeva-Zotova

Russian Center for Scientific Information; Volgograd State Technical University

Author for correspondence.
Email: zabzot@gmail.com

Doctor of Technical Sciences, Professor, Adviser

Russian Federation, Moscow; Volgograd

Alexey B. Petrovsky

Computer Science and Control Federal Research Center of the Russian Academy of Sciences; Volgograd State Technical University; V.G. Shukhov Belgorod State Technological University

Email: pab@isa.ru

Doctor of Technical Sciences, Professor, Chief Researcher

Russian Federation, Moscow; Volgograd; Belgorod

References

  1. Rodenacker W.G. Methodisches Konstruieren. Berlin, Heidelberg: Springer-Verlag, 1991.
  2. Roth K. Konstruieren mit Konstruktionskatalogen. Berlin, Heidelberg: Springer, 1994.
  3. Koller R. Konstruktionslehre für den Maschinenbau. Berlin, Heidelberg: Springer, 1998.
  4. Marca D.A., McGowan C.L. Structured Analysis and Design Technique. New York: McGraw-Hill, 1987.
  5. Hubka V., Eder W.E. Design Science. London: Springer, 1996.
  6. Suh N.P. Axiomatic Design: Advances and Applications. Oxford: Oxford University Press, 2001.
  7. Pahl G., Beitz W., Feldhusen J., Grote K.-H. Engineering Design. London: Springer, 2007.
  8. Eder W.E., Hosnedl S. Design Engineering: A Manual for Enhanced Creativity. Boca Raton: CRC Press, 2007.
  9. Altshuller G.S. Nayti ideyu: Vvedeniye v TRIZ – teoriyu resheniya izobretatel’skikh zadach [Find an idea: Introduction to TRIZ – the theory of inventive problem solving]. Moscow: Alpina Publisher, 2011.
  10. Ankudinov G.I. Sintez struktury slozhnykh ob”yektov (logiko-kombinatorniy podkhod) [Synthesis of the structure of complex objects (logical-combinatorial approach)]. Leningrad: Izdatel’stvo LGU [Publishing House of Leningrad State University], 1986.
  11. Polovinkin A.I. Osnovy inzhenernogo tvorchestva [Fundamentals of engineering creativity]. Moscow: Mashinostroenie, 1988.
  12. Kontseptual’noe proyektirovanie. Razvitie i sovershenstvovanie metodov / Pod red. V.A. Kamayeva. [Development and improvement of methods / Ed. V.A. Kamaev]. Moscow: Mashinostroenie, 2005.
  13. Zaboleyeva-Zotova A.V. Lingvisticheskie sistemy: modeli, metody, prilozheniya [Linguistic systems: models, methods, applications]. Volgograd: Izdatel’stvo VolgGTU [Publishing House of Volgograd State Technical University], 2004.
  14. Zaboleeva-Zotova A.V. Formalizatsiya semantiki teksta pri avtomatizatsii slabostrukturiruyemykh protsedur v protsesse sinteza tekhnicheskikh sistem [Formalization of text semantics for automation of semi-structured procedures in the process of technical systems synthesis] // Izvestiya VolgGTU [Bulletin of Volgograd State Technical University], 2006. No. 4 (21). P. 36-43.
  15. Vayngolts I.I., Fomenkov S.A. Razrabotka arkhitektury programmno-informatsionnogo kompleksa, ispol’zuyushchego strukturirovannye fizicheskie znaniya dlya proyektirovaniya tekhnicheskikh sistem [Development of the architecture of software and information complex using structured physical knowledge for the design of technical systems] // Mekhatronika, avtomatika i robototekhnika [Mechatronics, Automation and Robotics]. 2019. No. 3. P. 73-76.
  16. Vasilyev S.S., Korobkin D.M., Fomenkov S.A. Metod izvlecheniya elementov konstruktsii izobreteniy iz russkoyazychnykh patentov [A method for extracting structural elements of inventions from Russian-language patents] // Matematicheskie metody v tekhnike i tekhnologiyakh – MMTT-32: Sbornik trudov mezhdunarodnoy nauchnoy konferentsii / Pod red. A.A. Bol'shakova [Mathematical methods in engineering and technology: Proceedings of the International scientific conference / Ed. A.A. Bolshakov]. St. Petersburg: Izdatel’stvo Politekhnicheskogo universiteta [Publishing House of Polytechnic University], 2019. V. 7. P. 105-110.
  17. Yakovlev A.A., Postupayeva S.G., Grebennikov V.N., Fedorova N.V. Razrabotka tekhnicheskikh sistem na osnove evristicheskogo modelirovaniya fizicheskogo printsipa deystviya [Development of technical systems based on heuristic modeling of the physical principle of action]. // Izvestiya VolgGTU [Bulletin of Volgograd State Technical University], 2020. No. 8 (243). P. 83-86.
  18. Orlovsky S.A. Problemy prinyatiya resheniy pri nechetkoy iskhodnoy informatsii [Decision-making problems with fuzzy initial information]. Moscow: Nauka, 1981.
  19. Zimmerman H.J., Zadeh L.A., Gaines B.R. Fuzzy sets and decision analysis. Amsterdam: North-Holland, 1984.
  20. Petrovsky A.B. Teoriya prinyatiya resheniy [Theory of decision making]. Moscow: Izdatel’skiy tsentr “Akademiya” [“Academy” Publishing Center], 2009.
  21. Petrovsky A.B. Gruppovoy verbal’niy analiz resheniy [Group verbal decision analysis]. Moscow: Nauka, 2019.
  22. Kobrinsky A.E., Kobrinsky A.A. Vibroudarnye sistemy (dinamika i ustoychivost’) [Vibroimpact systems (dynamics and stability)]. Moscow: Nauka, 1973.
  23. Vibratsiya v tekhnike. Spravochnik. T. 1. Kolebaniya lineynykh system [Vibration in technology. Directory. V. 1. Oscillations of linear systems]. Moscow: Mashinostroenie, 1978.
  24. Vibratsiya v tekhnike. Spravochnik. T. 4. Vibratsionnye protsessy i mashiny [Vibration in technology. Directory. V. 4. Vibration processes and machines]. Moscow: Mashinostroenie, 1981.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Согласие на обработку персональных данных

 

Используя сайт https://journals.rcsi.science, я (далее – «Пользователь» или «Субъект персональных данных») даю согласие на обработку персональных данных на этом сайте (текст Согласия) и на обработку персональных данных с помощью сервиса «Яндекс.Метрика» (текст Согласия).