Full list of publications: |
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Citations (Crossref Cited-By Service + Math-Net.Ru) |
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2024 |
1. |
R. Yu. Fadeev, K. P. Belyaev, A. A. Kuleshov, Yu. D. Resnyanskii, I. N. Smirnov, B. S. Strukov, A. A. Zelenko, “Numerical experiments with SLAV-NEMO atmosphere-ocean coupled model”, Matem. Mod., 36:4 (2024), 116–132 |
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2023 |
2. |
K. P. Belyaev, A. A. Kuleshov, Yu. D. Resnyanskii, I. N. Smirnov, R. Yu. Fadeev, “Numerical experiments with the NEMO ocean circulation model and the assimilation of observational data from ARGO”, Math. Models Comput. Simul., 15:5 (2023), 842–849 |
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2022 |
3. |
E. V. Zipunova, A. A. Kuleshov, E. B. Savenkov, “Nonisothermal diffuse interface model for electrical breakdown channel
propagation”, Sib. Zh. Ind. Mat., 25:1 (2022), 39–53 |
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2019 |
4. |
A. A. Kuleshov, E. E. Myshetskaya, “Results of computation of the forest fires front propagation based on a two-dimensional three-phase model”, Keldysh Institute preprints, 2019 |
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2018 |
5. |
K. P. Belyaev, A. A. Kuleshov, I. N. Smirnov, “Analysis of the results of ocean dynamics modeling using various methods of assimilation of observational data”, Keldysh Institute preprints, 2018 |
6. |
K. P. Belyaev, A. A. Kuleshov, N. P. Tuchkova, “Modeling of ocean dynamics in conjunction with data assimilation”, Keldysh Institute preprints, 2018 |
7. |
M. V. Alekseev, A. A. Kuleshov, N. G. Sudobin, E. B. Savenkov, “Mathematical modelling of thermomechanical behaviour of impermeable porous media”, Keldysh Institute preprints, 2018 |
8. |
A. A. Kuleshov, E. E. Myshetskaya, “Numerical algorithm for two-dimensional three-phase mathematical model of forest fires”, Keldysh Institute preprints, 2018 |
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2019 |
9. |
K. P. Belyaev, A. A. Kuleshov, I. N. Smirnov, C. A. S. Tanajura, “Comparison of data assimilation methods into hydrodynamic models of ocean circulation”, Math. Models Comput. Simul., 11:4 (2019), 564–574 |
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2017 |
10. |
M. V. Alekseev, A. A. Kuleshov, E. B. Savenkov, “A mathematical model for impermeable porous media under thermomechanical loads”, Keldysh Institute preprints, 2017 |
11. |
K. P. Belyaev, A. A. Kuleshov, N. P. Tuchkova, C. A. S. Tanajura, “An optimal data assimilation method and its application to the numerical simulation of the ocean dynamics”, Mathematical and Computer Modelling of Dynamical Systems, 2017 (Published online)
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32
[x]
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12. |
K. P. Belyaev, A. A. Kuleshov, I. N. Smirnov, C. A. S.Tanajura, “Parallel assimilation of observed data in a hydrodynamic model of Ocean circulation”, Moscow University Computational Mathematics and Cybernetics, 41:2 (2017), 58–63 |
13. |
A. A. Kuleshov, E. E. Myshetskaya, S. E. Yakush, “Two-dimensional three-phase mathematical model of forest fires”, Keldysh Institute preprints, 2017 |
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2018 |
14. |
M. V. Alekseev, A. A. Kuleshov, E. B. Savenkov, “Thermomechanical model for impermeable porous medium with chemically active filler”, Math. Models Comput. Simul., 10:4 (2018), 459–471 |
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2016 |
15. |
A. V. Kalmykov, A. A. Kuleshov, N. P. Savenkova, “Simulation of anode effect in aluminum electrolytic cell”, Keldysh Institute preprints, 2016 |
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2017 |
16. |
A. A. Kuleshov, E. E. Myshetskaya, S. E. Yakush, “Numerical simulation of forest fire propagation based on modified two–dimensional model”, Mathematical Models and Computer Simulations, 9:4 (2017), 437–447 |
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2016 |
17. |
K. P. Belyaev, A. A. Kuleshov, N. P. Tuchkova, C. A. S. Tanajura, “On asymptotic distributions of analyses characteristics for the linear data assimilation problem”, Journal of Mathematical Sciences, 218:3 (2016), 245–256 |
18. |
B. N. Chetverushkin, N. G. Churbanova, A. A. Kuleshov, A. A. Lyupa, M. A. Trapeznikova, “Application of kinetic approach to porous medium flows simulation in environmental hydrology problems on high–performance computing systems”, Russian Journal of Numerical Analysis and Mathematical Modelling, 31:4 (2016), 187–196
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8
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19. |
K. P. Belyaev, A. A. Kuleshov, C. A. S. Tanajura, “An application of a data assimilation method based on the diffusion stochastic process theory using altimetry data in Atlantic”, Russian Journal of Numerical Analysis and Mathematical Modelling, 31:3 (2016), 137–148 |
20. |
K. Belyaev, A. Kuleshov, I. Kirchner, N. Tuchkova, “Numerical experiments with MPI-ESM coupled Atmosphere-Land-Ocean model in conjunction with data assimilations in Arctic Region”, Proc. Int. Conf. of Computational Methods in Sciences and Engineering 2016, AIP Conference Proceedings, 1790, eds. T. E. Simos et al., American Institute of Physics, College Park, Maryland, U.S., 2016, 150005 |
21. |
V. A. Balashov, E. B. Savenkov, A. A. Kuleshov, “Direct numerical simulation of a fluid flow in core samples based on quasi-hydrodynamic equations”, Proc. Int. Conf. of Computational Methods in Sciences and Engineering 2016, AIP Conference Proceedings, 1790, eds. T. E. Simos et al., American Institute of Physics, College Park, Maryland, U.S., 2016, 150006
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2
[x]
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22. |
A. A. Kuleshov, E. E. Myshetskaya, S. E. Yakush, “Modified 2D model for prediction of forest fire spread”, International Journal of Environmental Science, 2016, no. 1, 28–33 |
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2015 |
23. |
V. E. Borisov, A. A. Kuleshov, E. B. Savenkov, S. E. Yakush, “TCS 3D simulator: computational model”, Keldysh Institute preprints, 2015 |
24. |
V. E. Borisov, A. A. Kuleshov, E. B. Savenkov, S. E. Yakush, “TCS $\mathrm{3D}$ simulator: mathematical model”, Keldysh Institute preprints, 2015 |
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2016 |
25. |
K. P. Belyaev, A. A. Kuleshov, N. P. Tuchkova, C. A. S. Tanajura, “A correction method for dynamic model calculations using observational data and its application in Oceanography”, Mathematical Models and Computer Simulations, 8:4 (2016), 391–400 |
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2014 |
26. |
B. N. Chetverushkin, A. A. Kuleshov, E. B. Savenkov, “Supercomputing challenges in mathematical modeling for petroleum industry”, Oil & Gas Field Engineering, 2014, no. 9, 38–47 |
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2013 |
27. |
A. A. Kuleshov, B. N. Chetverushkin, E. E. Myshetskaya, “Parallel computing in forest fire two-dimension modeling”, Computers and Fluids, 80 (2013), 202–206
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5
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2012 |
28. |
V. V. Kozoderov, A. A. Kuleshov, “Forest fires modeling and observation of different stages of their development using hyperspectral airspace remote sensing data”, Issledovaniye Zemli iz kosmosa, 2012, no. 1, 29–39 |
29. |
A. A. Kuleshov, “Mathematical modeling of emergency situations with chemically hazardous gases”, Problemy analiza riska, 9:3 (2012), 42–47 |
30. |
A. A. Kuleshov, S. A. Vinogradova, “Three-dimensional two-phase mathematical model of forest fires”, Vestnik MEI, 2012, no. 6, 65–71 |
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2011 |
31. |
A. A. Kuleshov, “Numerical method for modeling of small transverse vibrations in thin elastic plates”, Zhurnal SVMO, 13:3 (2011), 66–72 |
32. |
A. Kuleshov, E. Myshetskaya, “Forest fires 2D numerical simulation”, Recent Researches in Mechanics, WSEAS Press, 2011, 77–82 |
33. |
A. A. Kuleshov, E. E. Myshetskaya, S. E. Yakush, “Two-dimensional two-phase mathematical models of forest fires”, Vestnik MEI, 2011, no. 6, 159–166 |
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2010 |
34. |
A. A. Kuleshov, N. M. Hidalgo Dias, G. M. Makhviladze, S. E. Yakush, “Modelling of industrial accidents with liquefied toxic and flammable gases”, Math. Models Comput. Simul., 2:6 (2010), 691–703 |
35. |
A. A. Kuleshov, V. V. Mymrin, “Modeling of floating ice vibrations during plane landing on ice airdromes”, Vychisl. Metody Programm., 11:1 (2010), 7–13 |
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2009 |
36. |
A. A. Kuleshov, V. V. Mymrin, “Modelling of a floating ice vibrations as a thin elastic plate”, Matem. Mod., 21:6 (2009), 28–40 |
37. |
A. A. Kuleshov, V. V. Mymrin, A. V. Razgulin, “Strong convergence of difference approximations in the problem of transverse vibrations of thin elastic plates”, Comput. Math. Math. Phys., 49:1 (2009), 146–171 |
38. |
A. A. Kuleshov, E. E. Myshetskaya, “Mathematical modeling of forest fires using supercomputers”, Math. Models Comput. Simul., 1:5 (2009), 629–634 |
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2005 |
39. |
A. A. Kuleshov, “On a numerical method of the bending vibrations problem for thin elastic plave”, Matem. Mod., 17:4 (2005), 10–26 |
40. |
A. A. Kuleshov, E. E. Myshetskaya, “Mathematical modeling of forest fires using two-dimensional multiphase models”, Matem. Mod., 17:1 (2005), 34–42 |
41. |
A. A. Kuleshov, “Difference approximation of the problem of bending vibrations of a thin elastic plate”, Comput. Math. Math. Phys., 45:4 (2005), 694–715 |
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2003 |
42. |
R. N. Kuz'min, A. A. Kuleshov, N. P. Savenkova, “Modeling of impact lunar craters”, Matem. Mod., 15:2 (2003), 83–88 |
43. |
A. A. Kuleshov, Informatsionnye Tekhnologii i Vychslitel'nye Sistemy, 2003, no. 4, 56–70 |
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2002 |
44. |
A. A. Kuleshov, “Mathematical models of forest fires”, Matem. Mod., 14:11 (2002), 33–42 |
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2000 |
45. |
I. V. Belov, M. S. Bespalov, L. V. Klochkova, A. A. Kuleshov, D. V. Suzan, V. F. Tishkin, “Transport model of gas impurities spread in urban area”, Matem. Mod., 12:11 (2000), 38–46 |
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1998 |
46. |
R. N. Kuz'min, A. A. Kuleshov, N. P. Savenkova, S. V. Filippova, “Modelling of heavy gas cloud dispersion under industrial accidents”, Matem. Mod., 10:8 (1998), 33–42 |
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1996 |
47. |
O. V. Dobrocheev, A. A. Kuleshov, N. P. Savenkova, S. V. Filippova, “2-D model of heavy gas dispersion over rough bedding surface”, Matem. Mod., 8:5 (1996), 91–105 |
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1983 |
48. |
A. A. Kuleshov, “A difference approximation and regularization of a problem of optimal control of a process described by an elliptic equation”, Soviet Doklady Mathematics, 27:2 (1983), 427–432 |
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1982 |
49. |
A. A. Kuleshov, “Necessary conditions for optimality in an optimal control problem for a mixed system”, Soviet Doklady Mathematics, 26:1 (1982), 145–149 |
50. |
A. A. Kuleshov, “Necessary conditions for optimality in an optimal control problem for a mixed system”, Dokl. Akad. Nauk SSSR, 265:4 (1982), 805–809 |
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