Informatics and Applications

2024, Volume 18, Issue 3, pp 2-11

MODELS FOR ANALYZING LAYOUT SCHEMES IN THE PROBLEMOF AIRCRAFT DESIGN

L. L. Vyshinsky
Yu. A. Flerov

Abstract

The problems of analyzing the characteristics of the designed aircraft at the stage of its appearance formation are considered. The characteristic feature of these tasks is the lack of sufficient information about the aircraft design which appears only at the stages of preliminary and detailed design. In essence, these are the tasks of technical forecasting for a rather limited set of parameters that can be operated by the designer at this stage. The main task of image formation is synthesis of the aircraft layout scheme and construction of its parametric representation. Composition diagrams in design practice represent one of the main design documents and serve as a prototype of the developed product. The present work is devoted to the presentation of mathematical models designed to build estimates of weight, aerodynamic, flight and technical, take-off, and landing characteristics of the aircraft using the parameters of its layout and the subsequent verification of compliance of the obtained estimates with the requirements for the designed product.

[+] References (18)

Eger, S.M., I.K. Liseytsev, and O. S. Samoylovich. 1986. Osnovy avtomatizirovannogo proektirovaniya samoletov [Fundamentals of aircraft automated design].Moscow: Mashinostroenie. 232 p.
Vyshinsky, L. L., O. S. Samoylovich, and Yu.A. Flerov. 1991. Programmnyy kompleks formirovaniya oblika letatel’nykh apparatov [Programcomplex for forming the appearance of aircraft]. Zadachi i metody avtomatizirovannogo proektirovaniya v aviastroenii [Tasks and methods of computer-aided design in aircraft industry].Moscow: CC USSR AS. 24–42.
Samoylovich, O. S. 1994. Formirovanie oblasti sushchestvovaniya samoleta v prostranstve obobshchennykh proektnykh parametrov [Formation of the area of existence of the aircraft in the space of generalized design parameters]. Moscow: MAI. 55 p.
Vyshinskiy, L.L., and Yu.A. Flerov. 2021. Teoreticheskie osnovy formirovaniya vesovogo oblika samoleta [Theoretical foundation of formation of aircraftweight appearance]. Informatika i ee Primeneniya — Inform. Appl. 15(4):93–102. doi: 10.14357/19922264210413. EDN: UGQQLU.
Vyshinskiy, L. L., and Yu.A. Flerov. 2024. Modeli sinteza komponovochnoy skhemy v zadache formirovaniya oblika samoleta [Synthesis models of layout scheme in the task of forming an aircraft image]. Informatika i ee Primeneniya — Inform. Appl. 18(1):61–70. doi: 10.14357/ 19922264240109. EDN: DSPGKV.
Vyshinskiy, L.L., Yu.A. Flerov, and N. I. Shirokov. 2018. Avtomatizirovannaya sistema vesovogo proektirovaniya samoletov [Computer-aided system of aircraft weight design]. Informatika i ee Primeneniya — Inform. Appl. 12(1):18–30. doi: 10.14357/19922264180103.EDN: YTTRBQ.
Mikeladze, V.G., and V.M. Titov. 1990. Osnovnye geometricheskie i aerodinamicheskie kharakteristiki samoletov i raket [Basic geometric and aerodynamic characteristics of aircraft andmissiles].Moscow:Mashinostroenie. 144 p.
Vyshinskiy, L. L., and Yu.A. Flerov. 2022. Vychislitel’nye modeli v zadachakh proektirovaniya toplivnykh sistem samoletov [Computational models in aircraft fuel system design problems]. Informatsionnye tekhnologii i vychislitel’nye sistemy [J. Information Technologies Computing Systems] 2:70–83. doi: 10.14357/20718632220208.EDN: IHHTIH.
Sheynin, V.M., and V. I. Kozlovskiy. 1977. Vesovoe proektirovanie i effektivnost’ passazhirskikh samoletov [Weight design and efficiency of passenger aircraft].Moscow:Mashinostroenie. Vol. 1. 343 p.
Vyshinskiy, L. L., and Yu.A. Flerov. 2021. Informatsionnaya model’ vesovogo oblika letatel’nykh apparatov [Informationmodel of aircraftweight profile]. Informatika i ee Primeneniya — Inform. Appl. 15(1):50–56. doi: 10.14357/ 19922264210107. EDN: BTLLPF.
Kantimirov, S.A., and S. A. Serebryanskiy. 2021. Vesovoe proektirovanie letatel’nogo apparata na tsifrovoy platforme v edinom informatsionnom prostranstve zhiznennogo tsikla izdeliya [Weight design of an aircraft on a digital platformin a single information space of the product life cycle]. 14th Conference (International) onManagement of Large-Scale System Development. Moscow: IPU RAN. 1151–1161. doi: 10.25728/2486.2021.63.53.001. EDN: ZLYWZK.
Skobelev, S. I., D. Yu. Strelets, M.K. Kuryanskii, L. L. Vyshinskii, and I. L. Grinev. 2022. Digital platform for aircraft weight design. Aerospace Systems 5(4):577–589. doi: 10.1007/s42401-022-00154-w.
Vyshinskiy, L.L., M.K. Kuryansky, and Yu.A. Flerov. 2019. Tsifrovaya model’ vesovogo pasporta letatel’nogo apparata [Digital model of the aircraft’s weight passport]. Informatika i ee Primeneniya — Inform. Appl. 13(4):3–10. doi: 10.14357/19922264190401. EDN: XXZPSJ.
Pogosyan,M.A., ed. 2018. Proektirovanie samoletov [Aircraft design]. 5th ed. Moscow: Innovatsionnoe mashinostroenie. 864 p.
Krasnoshchekov, P. S., V. V. Fedorov, and Yu.A. Flerov. 1997. Elementy matematicheskoy teorii prinyatiya proektnykh resheniy [Elements of themathematical theory of design decision making]. Avtomatizatsiya proektirovaniya [Design Automation] 1:15–18.
Platunov, V. S. 2005. Metodologiya sistemnykh voyennonauchnykh issledovaniy aviatsionnykh kompleksov [Methodology of systemic military scientific research of aviation complexes].Moscow: Delta. 344 p.
Myshkin, L. V. 2006. Prognozirovanie razvitiya aviatsionnoy tekhniki: teoriya i praktika [Forecasting the development of aviation technology: Theory and practice]. Moscow: Fizmatlit. 304 p.
Flerov, Yu.A., and L. L. Vyshinskiy. 2018. Avtomatizatsiya proektirovaniya prikladnykh informatsionnykh vychislitel’nykh sistem [Computer-aided design of applied information computing systems]. Informatsionnye tekhnologii i vychislitel’nye sistemy [J. Information Technologies Computing Systems] 3:29–41. doi: 10.14357/ 20718632180303. EDN: YCMETJ.

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