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Computational nanotechnology, 2022, Volume 9, Issue 4, Pages 22–29
DOI: https://doi.org/10.33693/2313-223X-2022-9-4-22-29
(Mi cn391)
 

AUTOMATION AND CONTROL OF TECHNOLOGICAL PROCESSES AND PRODUCTIONS

Development of an automated information system for calculating the movement of a high-speed small-sized body

O. B. Shalaginova, R. E. Stakhno, A. A. Gonchar

St. Petersburg University of the Ministry of Internal Affairs of Russia
Abstract: The article presents a variant of the development of an automated information system for mathematical modeling of the movement of a high-speed small-sized body based on differential equations and approximation of the trajectory of a high-speed small-sized body by numerical methods, as well as a comparative analysis of various options for numerical solutions. The automated information system allows calculating the flight trajectory coordinates of a high-speed small-sized body based on a differential equation, as well as determining the flight trajectory coordinates by the Euler method, using the Newton interpolation polynomial and the Lagrange interpolation polynomial. In the article, a search for a suitable variant of numerical solutions is carried out, as well as calculations of the movement of a high-speed small-sized body under conditions of limited time for decision-making. The substantiation of the use of an automated information system to automate the calculation and analysis of the movement of a high-speed small-sized body is carried out. While designing an automated information system for calculating and analyzing the flight of a high-speed small-sized body, it is proposed to apply four modules for calculating the flight trajectory of a high-speed small-sized body by numerical methods and a module for comparative analysis and making the results of the optimal variant. The proposed automated information system should provide users with uninterrupted operation, a convenient interface, the required system response time to a request, and the creation of necessary reports. The reports should reflect all types of calculations, as well as a comparative analysis with the choice of the optimal option for calculating the flight path of a high-speed small-sized body. An automated information system is needed to improve the quality of calculations and analysis of movement in the development of new and modernization of existing small arms.
Keywords: automated information system, differential equation, Bernoulli method, Euler method, Newton interpolation polynomial, Lagrange interpolation polynomial.
Received: 28.10.2022
Accepted: 26.11.2022
Document Type: Article
UDC: 004.03
Language: Russian
Citation: O. B. Shalaginova, R. E. Stakhno, A. A. Gonchar, “Development of an automated information system for calculating the movement of a high-speed small-sized body”, Comp. nanotechnol., 9:4 (2022), 22–29
Citation in format AMSBIB
\Bibitem{ShaStaGon22}
\by O.~B.~Shalaginova, R.~E.~Stakhno, A.~A.~Gonchar
\paper Development of an automated information system for calculating the movement of a high-speed small-sized body
\jour Comp. nanotechnol.
\yr 2022
\vol 9
\issue 4
\pages 22--29
\mathnet{http://mi.mathnet.ru/cn391}
\crossref{https://doi.org/10.33693/2313-223X-2022-9-4-22-29}
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