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Matematicheskoe Modelirovanie i Chislennye Metody, 2014, Issue 1, Pages 5–17 (Mi mmcm2)  
This article is cited in 15 scientific papers (total in 15 papers)

Special features of mathematical modeling of technical instruments

V. S. Zarubin, G. N. Kuvyrkin

Bauman Moscow State Technical University
Full-text PDF (472 kB) Citations (15)
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Abstract: The paper gives grounds for applying mathematical modeling in the development and improvement of modern technical instruments and systems. It also shows typical stages of mathematical modeling and the sequence of their execution. The authors describe special features and basic methods in quantitative analysis of mathematical models of systems with distributed parameters (in continuous systems).
Keywords: mathematical modeling, computing experiment, a continuous system.
Received: 06.03.2014
Document Type: Article
UDC: 517.1
Language: Russian
Citation: V. S. Zarubin, G. N. Kuvyrkin, “Special features of mathematical modeling of technical instruments”, Mat. Mod. Chisl. Met., 2014, no. 1, 5–17
Citation in format AMSBIB
\Bibitem{ZarKuv14}
\by V.~S.~Zarubin, G.~N.~Kuvyrkin
\paper Special features of mathematical modeling of technical instruments
\jour Mat. Mod. Chisl. Met.
\yr 2014
\issue 1
\pages 5--17
\mathnet{http://mi.mathnet.ru/mmcm2}
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  • https://www.mathnet.ru/eng/mmcm/y2014/i1/p5
    • This publication is cited in the following 15 articles:
    1. V. S. Zarubin, G. N. Kuvyrkin, I. Yu. Savelyeva, “The variational form of the mathematical model of a thermal explosion in a solid body with temperature-dependent thermal conductivity”, High Temperature, 56:2 (2018), 223–228  mathnet  crossref  crossref  isi  elib  elib
    2. V. I. Timonin, N. D. Tyannikova, “Proverka spravedlivosti modeli Koksa po neskolkim progressivno tsenzurirovannym vyborkam”, Mat. modelir. i chisl. metody, 2017, no. 13, 102–117  mathnet  crossref
    3. N. A. Asmolovskii, V. D. Baskakov, R. V. Boyarskaya, O. V. Zarubina, V. A. Tarasov, “Matematicheskoe modelirovanie protsessa vzryvnogo nagruzheniya meniskovoi oblitsovki”, Mat. modelir. i chisl. metody, 2016, no. 9, 52–67  mathnet
    4. V. Yu. Chuev, I. V. Dubograi, “Modeli dvustoronnikh boevykh deistvii mnogochislennykh gruppirovok”, Mat. modelir. i chisl. metody, 2016, no. 9, 89–104  mathnet
    5. V. Yu. Chuev, I. V. Dubograi, “Stokhasticheskie modeli duelnogo boya dvukh edinits”, Mat. modelir. i chisl. metody, 2016, no. 10, 69–84  mathnet
    6. M. M. Zhileikin, E. B. Sarach, “Matematicheskaya model dvizheniya mnogoosnoi kolesnoi mashiny s podatlivoi na kruchenie nesuschei sistemoi”, Mat. modelir. i chisl. metody, 2015, no. 7, 17–40  mathnet
    7. V. I. Timonin, N. D. Tyannikova, “Sravnenie progressivno tsenzurirovannykh vyborok – chislennye metody tabulirovaniya raspredelenii statistik odnorodnosti i issledovanie otsenki parametrov svyazi ikh raspredelenii metodom Monte-Karlo”, Mat. modelir. i chisl. metody, 2015, no. 7, 89–100  mathnet
    8. V. S. Zarubin, O. V. Pugachev, I. Yu. Saveleva, “Primenenie metoda naimenshikh kvadratov k zadache o perenose izlucheniya v sharovoi polosti”, Mat. modelir. i chisl. metody, 2015, no. 8, 53–65  mathnet
    9. M. M. Zhileikin, E. B. Sarach, “Proverka adekvatnosti matematicheskoi modeli dvizheniya mnogoosnoi kolesnoi mashiny s podatlivoi na kruchenie nesuschei sistemoi metodami eksperimentalnykh issledovanii”, Mat. modelir. i chisl. metody, 2015, no. 8, 66–74  mathnet
    10. S. E. Ivanov, V. A. Gorodnichev, M. L. Belov, M. B. Mikhailovskaya, “Modelirovanie dvumernykh polei atmosfernykh parametrov v zadachakh lazernogo distantsionnogo zondirovaniya”, Mat. modelir. i chisl. metody, 2015, no. 8, 110–121  mathnet
    11. V. F. Apeltsin, T. Yu. Mozzhorina, “Svoistva odnomernogo fotonnogo kristalla kak otrazhayuschei ili volnoveduschei struktury v sluchae H-polyarizovannogo vozbuzhdeniya”, Mat. modelir. i chisl. metody, 2014, no. 2, 3–27  mathnet
    12. A. V. Plyusnin, “Modelirovanie vnutrennego i vneshnego nestatsionarnogo vzaimodeistviya korpusa letatelnogo apparata s zhidkostyu metodom granichnykh elementov”, Mat. modelir. i chisl. metody, 2014, no. 2, 77–100  mathnet
    13. A. Yu. Bushuev, B. A. Farafonov, “Matematicheskoe modelirovanie protsessa raskrytiya solnechnoi batarei bolshoi ploschadi”, Mat. modelir. i chisl. metody, 2014, no. 2, 101–114  mathnet
    14. V. S. Zarubin, G. N. Kuvyrkin, I. Yu. Saveleva, “Mekhanicheskii analog, modeliruyuschii protsessy neuprugogo neizotermicheskogo deformirovaniya”, Mat. modelir. i chisl. metody, 2014, no. 3, 25–38  mathnet
    15. I. K. Marchevskii, V. V. Puzikova, “Analiz effektivnosti iteratsionnykh metodov resheniya sistem lineinykh algebraicheskikh uravnenii”, Mat. modelir. i chisl. metody, 2014, no. 4, 37–52  mathnet
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