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Rogov, Boris Vadimovich
Statistics Math-Net.Ru
Total publications: 58
Scientific articles: 58
Presentations: 4

Number of views:
This page:1666
Abstract pages:18514
Full texts:6700
References:1666
Associate professor
Doctor of physico-mathematical sciences (2003)
Speciality: 05.13.18; 05.13.17 (Mathematical modeling, numerical methods, and the program systems; Theoretical foundation for informatics)
Birth date: 28.09.1957
E-mail: ;

https://www.mathnet.ru/eng/person30662
List of publications on Google Scholar
List of publications on ZentralBlatt
https://mathscinet.ams.org/mathscinet/MRAuthorID/625505
https://elibrary.ru/author_items.asp?spin=8880-5986
https://orcid.org/0000-0001-7664-5866
https://www.scopus.com/authid/detail.url?authorId=6701527966
https://www.researchgate.net/profile/Boris_Rogov2

Publications in Math-Net.Ru Citations
2021
1. M. D. Bragin, B. V. Rogov, “Accuracy of bicompact schemes in the problem of Taylor–Green vortex decay”, Zh. Vychisl. Mat. Mat. Fiz., 61:11 (2021),  1759–1778  mathnet  elib; Comput. Math. Math. Phys., 61:11 (2021), 1723–1742  isi  scopus 5
2. M. D. Bragin, B. V. Rogov, “Bicompact schemes for the multidimensional convection–diffusion equation”, Zh. Vychisl. Mat. Mat. Fiz., 61:4 (2021),  625–643  mathnet  elib; Comput. Math. Math. Phys., 61:4 (2021), 607–624  isi  scopus 4
2020
3. M. D. Bragin, B. V. Rogov, “Bicompact schemes for gas dynamics problems: introducing complex domains using the free boundary method”, Computer Research and Modeling, 12:3 (2020),  487–504  mathnet 2
4. M. D. Bragin, B. V. Rogov, “Combined multidimensional bicompact scheme with higher order accuracy in domains of influence of nonstationary shock waves”, Dokl. RAN. Math. Inf. Proc. Upr., 494 (2020),  9–13  mathnet  zmath  elib; Dokl. Math., 102:2 (2020), 360–363 2
5. M. D. Bragin, B. V. Rogov, “Combined monotone bicompact scheme of higher order accuracy in domains of influence of nonstationary shock waves”, Dokl. RAN. Math. Inf. Proc. Upr., 492 (2020),  79–84  mathnet  zmath  elib; Dokl. Math., 101:3 (2020), 239–243 6
6. B. V. Rogov, “Bicompact interpolation-characteristic scheme of the third order of approximation for the linear transport equation”, Keldysh Institute preprints, 2020, 106, 20 pp.  mathnet
7. M. D. Bragin, B. V. Rogov, “High-order bicompact schemes for numerical modelling of multispecies multi-reaction gas flows”, Matem. Mod., 32:6 (2020),  21–36  mathnet; Math. Models Comput. Simul., 13:1 (2021), 106–115 4
8. M. D. Bragin, B. V. Rogov, “On the accuracy of bicompact schemes as applied to computation of unsteady shock waves”, Zh. Vychisl. Mat. Mat. Fiz., 60:5 (2020),  884–899  mathnet  elib; Comput. Math. Math. Phys., 60:5 (2020), 864–878  isi  scopus 8
2019
9. M. D. Bragin, B. V. Rogov, “Bicompact schemes for multidimensional hyperbolic equations on Cartesian meshes with solution-based AMR”, Keldysh Institute preprints, 2019, 011, 27 pp.  mathnet  elib 1
10. M. D. Bragin, B. V. Rogov, “A conservative limiting method for bicompact schemes”, Keldysh Institute preprints, 2019, 008, 26 pp.  mathnet  elib 8
11. B. V. Rogov, A. V. Chikitkin, “About the convergence and accuracy of the method of iterative approximate factorization of operators of multidimensional high-accuracy bicompact schemes”, Matem. Mod., 31:12 (2019),  119–144  mathnet  elib; Math. Models Comput. Simul., 12:5 (2020), 660–675 1
12. M. D. Bragin, B. V. Rogov, “High-order bicompact schemes for shock-capturing computations of detonation waves”, Zh. Vychisl. Mat. Mat. Fiz., 59:8 (2019),  1381–1391  mathnet  elib; Comput. Math. Math. Phys., 59:8 (2019), 1314–1323  isi  scopus 2
2018
13. A. V. Chikitkin, B. V. Rogov, “Two variants of parallel implementation of high-order accurate bicompact schemes for multi-dimensional inhomogeneous transport equation”, Keldysh Institute preprints, 2018, 177, 24 pp.  mathnet  elib
14. B. V. Rogov, “Dispersive and dissipative properties of the fully discrete bicompact schemes of the fourth order of spatial approximation for hyperbolic equations”, Keldysh Institute preprints, 2018, 153, 30 pp.  mathnet  elib; 2018, 153, 30 pp. 4
15. A. V. Chikitkin, B. V. Rogov, “Family of symmetric bicompact schemes with spectral resolution property for hyperbolic equations”, Keldysh Institute preprints, 2018, 144, 28 pp.  mathnet  elib 5
16. B. V. Rogov, M. D. Bragin, “On the convergence of the method of iterative approximate factorization of difference operators of high-order accurate bicompact scheme for nonstationary three-dimensional hyperbolic equations”, Keldysh Institute preprints, 2018, 132, 16 pp.  mathnet  elib 3
17. M. D. Bragin, B. V. Rogov, “Iterative approximate factorization of difference operators of high-order accurate bicompact schemes for multidimensional nonhomogeneous quasilinear hyperbolic systems”, Zh. Vychisl. Mat. Mat. Fiz., 58:3 (2018),  313–325  mathnet  elib; Comput. Math. Math. Phys., 58:3 (2018), 295–306  isi  scopus 13
2016
18. M. D. Bragin, B. V. Rogov, “A new hybrid scheme for computing discontinuous solutions of hyperbolic equations”, Keldysh Institute preprints, 2016, 022, 22 pp.  mathnet 2
19. E. N. Aristova, B. V. Rogov, A. V. Chikitkin, “Optimal monotonization of a high-order accurate bicompact scheme for the nonstationary multidimensional transport equation”, Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  973–988  mathnet  elib; Comput. Math. Math. Phys., 56:6 (2016), 962–976  isi  scopus 15
20. M. D. Bragin, B. V. Rogov, “Minimal dissipation hybrid bicompact schemes for hyperbolic equations”, Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  958–972  mathnet  elib; Comput. Math. Math. Phys., 56:6 (2016), 947–961  isi  scopus 24
2015
21. E. N. Aristova, B. V. Rogov, A. V. Chikitkin, “Monotonization of high accuracy bicompact scheme for stationary multidimensional transport equation”, Matem. Mod., 27:8 (2015),  32–46  mathnet  mathscinet  elib; Math. Models Comput. Simul., 8:2 (2016), 108–117  scopus 2
22. M. D. Bragin, B. V. Rogov, “Hybrid running schemes with upwind and bicompact symmetric differencing for hyperbolic equations”, Zh. Vychisl. Mat. Mat. Fiz., 55:7 (2015),  1196–1207  mathnet  mathscinet  elib; Comput. Math. Math. Phys., 55:7 (2015), 1177–1187  isi  elib  scopus 2
2014
23. M. D. Bragin, B. V. Rogov, “Uniqueness of a high-order accurate bicompact scheme for quasilinear hyperbolic equations”, Zh. Vychisl. Mat. Mat. Fiz., 54:5 (2014),  815–820  mathnet  mathscinet  elib; Comput. Math. Math. Phys., 54:5 (2014), 831–836  isi  elib  scopus 3
2013
24. E. N. Aristova, D. F. Baydin, B. V. Rogov, “Bicompact scheme for linear inhomogeneous transport equation”, Matem. Mod., 25:5 (2013),  55–66  mathnet  mathscinet; Math. Models Comput. Simul., 5:6 (2013), 586–594  scopus 5
25. B. V. Rogov, “High-order accurate monotone compact running scheme for multidimensional hyperbolic equations”, Zh. Vychisl. Mat. Mat. Fiz., 53:2 (2013),  264–274  mathnet  mathscinet  zmath  elib; Comput. Math. Math. Phys., 53:2 (2013), 205–214  isi  elib  scopus 36
2012
26. E. N. Aristova, B. V. Rogov, “About implementation of boundary conditions in the bicompact schemes for a linear transport equation”, Matem. Mod., 24:10 (2012),  3–14  mathnet  mathscinet; Math. Models Comput. Simul., 5:3 (2013), 199–207  scopus 21
27. M. N. Mikhailovskaya, B. V. Rogov, “Monotone compact running schemes for systems of hyperbolic equations”, Zh. Vychisl. Mat. Mat. Fiz., 52:4 (2012),  672–695  mathnet  mathscinet  elib; Comput. Math. Math. Phys., 52:4 (2012), 672–695  isi  elib  scopus 52
2011
28. B. V. Rogov, M. N. Mikhailovskaya, “Monotone high-precision compact scheme for quasilinear hyperbolic equations”, Matem. Mod., 23:12 (2011),  65–78  mathnet  mathscinet; Math. Models Comput. Simul., 4:4 (2012), 375–384  scopus 13
29. M. N. Mikhailovskaya, B. V. Rogov, “The bicompact monotonic schemes for a multidimensional linear transport equation”, Matem. Mod., 23:10 (2011),  107–116  mathnet  mathscinet; Math. Models Comput. Simul., 4:3 (2012), 355–362  scopus 7
30. B. V. Rogov, M. N. Mikhailovskaya, “The monotonic bicompact schemes for a linear transfer equation”, Matem. Mod., 23:6 (2011),  98–110  mathnet  mathscinet  elib; Math. Models Comput. Simul., 4:1 (2012), 92–100  scopus 34
2008
31. B. V. Rogov, M. N. Mikhailovskaya, “Some aspects of compact difference scheme convergence”, Matem. Mod., 20:1 (2008),  99–116  mathnet  mathscinet  zmath; Math. Models Comput. Simul., 1:1 (2009), 91–104  scopus 23
2004
32. B. V. Rogov, “Hyperbolic-parabolic approximation of the Reynolds equations for turbulent flows of chemically reacting gas mixtures”, Matem. Mod., 16:12 (2004),  20–39  mathnet  zmath 1
33. B. V. Rogov, “Through marching method of calculation of transonic viscous flows”, Matem. Mod., 16:5 (2004),  3–22  mathnet  mathscinet
2002
34. B. V. Rogov, “Method of minimum length for finding of critical parameters of mixed flows”, Matem. Mod., 14:1 (2002),  87–96  mathnet  zmath 2
35. B. V. Rogov, I. A. Sokolova, “Review of viscous internal flows models”, Matem. Mod., 14:1 (2002),  41–72  mathnet  mathscinet  zmath 4
2001
36. E. A. Alshina, N. N. Kalitkin, B. V. Rogov, I. A. Sokolova, “On accuracy of the quasi-one-dimensional model of smooth wall channel”, Matem. Mod., 13:10 (2001),  120–124  mathnet  zmath 1
37. B. V. Rogov, I. A. Sokolova, “Marching method for calculating shock wave form in problems on supersonic inviscid flow past blunted bodies”, Matem. Mod., 13:5 (2001),  110–118  mathnet  mathscinet  zmath 4
2000
38. A. P. Nefedov, B. V. Rogov, V. A. Sinel'shchikov, M. A. Khomkin, “Investigation of distribution of lithium atoms in the boundary layer of the flow of combustion products”, TVT, 38:5 (2000),  769–774  mathnet; High Temperature, 38:5 (2000), 742–747
39. A. V. Zobnin, A. P. Nefedov, A. V. Mokhov, B. V. Rogov, V. A. Sinel'shchikov, A. D. Usachev, Kh. B. Levinskii, “Relaxation of the composition of combustion products in cylindrical channels”, TVT, 38:4 (2000),  614–622  mathnet; High Temperature, 38:4 (2000), 590–598
40. A. P. Nefedov, B. V. Rogov, V. A. Sinel'shchikov, M. A. Khomkin, “Investigation of the singularities of distribution of cesium atoms in the boundary layer of the flow of combustion products”, TVT, 38:1 (2000),  66–73  mathnet; High Temperature, 38:1 (2000), 62–68  scopus
1999
41. N. N. Kalitkin, B. V. Rogov, I. A. Sokolova, “Two-stages marching method for calculation viscous flow through Laval nozzle”, Matem. Mod., 11:7 (1999),  95–117  mathnet 11
1998
42. N. N. Kalitkin, B. V. Rogov, I. A. Sokolova, “Method of direct Laval nozzle problem solution for turbulent flows of chemical-reacting gases”, Matem. Mod., 10:1 (1998),  51–62  mathnet 1
43. A. P. Nefedov, B. V. Rogov, V. A. Sinel'shchikov, “Nonequilibrium of concentration of carbon monoxide under conditions of interaction between a high-temperature flow of combustion products and a cooled plate”, TVT, 36:3 (1998),  470–474  mathnet; High Temperature, 36:3 (1998), 446–450  isi
1997
44. N. N. Kalitkin, B. V. Rogov, I. A. Sokolova, “Precise method for calculation of viscous flows in Lavale nozzle”, Matem. Mod., 9:7 (1997),  81–92  mathnet  zmath 2
1996
45. A. P. Nefedov, B. V. Rogov, V. A. Sinel'shchikov, “$\mathrm{CO}$ relaxation in the combustion product flow in a channel with cold walls”, Dokl. Akad. Nauk, 349:3 (1996),  318–321  mathnet
46. B. V. Rogov, I. A. Sokolova, “Quasionedimensional model of flows in smooth channels of variable section”, Matem. Mod., 8:7 (1996),  3–10  mathnet  zmath
1995
47. B. V. Rogov, I. A. Sokolova, “Equations for the viscous flow in smooth ducts with variable cross sections”, Dokl. Akad. Nauk, 345:5 (1995),  615–618  mathnet  zmath 3
48. B. V. Rogov, I. A. Sokolova, “Equations for viscous gas mixture flows in curved flat channels with variable cross section”, Matem. Mod., 7:11 (1995),  39–54  mathnet  mathscinet  zmath 1
1994
49. B. V. Rogov, I. A. Sokolova, “Quasi-onedimentional model for chemical reacting flows in curved smooth cylindrical channels with variable cross section”, Matem. Mod., 6:12 (1994),  38–56  mathnet  zmath 1
1993
50. P. A. Pozdeev, B. V. Rogov, V. A. Sinel'shchikov, “The simulation of the boundary layer on a corundum wall in a flow of combustion products of propane-air with potassium seed: Theory and experiment”, TVT, 31:3 (1993),  411–417  mathnet; High Temperature, 31:3 (1993), 370–375
1992
51. O. V. Bystrova, L. Z. Dreizin, V. I. Kovbasyuk, G. M. Koryagina, B. V. Rogov, “Magnetohydrodynamic electric power station with thermochemical conversion of fuel. Technological scheme and thermal efficiency”, TVT, 30:3 (1992),  621–629  mathnet; High Temperature, 30:3 (1992), 506–512  isi
1990
52. M. S. Benilov, V. M. Grin', A. A. Lash, B. V. Rogov, D. N. Yundev, “Снижение концентрации электронов в плазме продуктов сгорания вследствие образования отрицательных ионов”, TVT, 28:3 (1990),  620–622  mathnet
1987
53. M. S. Benilov, B. V. Rogov, V. K. Shikov, “Turbulent chemically reacting boundary-layer of gaseous combustion products with added potassium”, TVT, 25:6 (1987),  1144–1147  mathnet; High Temperature, 25:6 (1987), 839–842  isi  scopus
54. M. S. Benilov, V. F. Kosov, B. V. Rogov, V. A. Sinel'shchikov, “Saturation currents on electric probes in flows of a chemically reacting plasma with different types of ions”, TVT, 25:3 (1987),  573–581  mathnet; High Temperature, 25:3 (1987), 436–444  isi 1
1986
55. M. S. Benilov, B. V. Rogov, I. A. Sokolova, G. A. Tirskii, “Chemically nonequilibrium multicomponent boundary layer for a plasma of molecular gases with addition of alkali”, Prikl. Mekh. Tekh. Fiz., 27:5 (1986),  29–40  mathnet; J. Appl. Mech. Tech. Phys., 27:5 (1986), 653–663 5
56. M. S. Benilov, I. A. Vasil'eva, V. I. Kovbasyuk, V. F. Kosov, R. V. Kosova, B. V. Rogov, V. A. Sinel'shchikov, I. A. Sokolova, G. A. Tirskii, “Effect of nonequilibrium chemical-reactions on the concentration distribution of alkali atoms in the boundary-layer of a combustion product plasma”, TVT, 24:3 (1986),  458–462  mathnet; High Temperature, 24:3 (1986), 337–341  isi
1982
57. M. S. Benilov, B. V. Rogov, G. A. Tirskii, “Saturation ion current to an electric probe in a slowly moving plasma”, Prikl. Mekh. Tekh. Fiz., 23:3 (1982),  5–13  mathnet; J. Appl. Mech. Tech. Phys., 23:3 (1982), 319–326 7
1981
58. M. S. Benilov, B. V. Rogov, G. A. Tirskii, “Theoretical determination of saturation ion currents at an electric probe in subsonic plasma flux”, TVT, 19:5 (1981),  1031–1039  mathnet; High Temperature, 19:5 (1981), 751–757  isi 3

Presentations in Math-Net.Ru
1. Эффект объемной вязкости в задачах гиперзвуковой аэродинамики и теплообмена. Структура плоской ударной волны
B. V. Rogov, G. A. Tirskii, A. V. Chikitkin,
Scientific Seminar of the Laboratory of mathematical modeling of nonlinear processes in gaseous media
January 30, 2013 16:00
2. Высокоточная монотонная компактная схема бегущего счета для многомерных уравнений гиперболического типа
B. V. Rogov
Scientific Seminar of the Laboratory of mathematical modeling of nonlinear processes in gaseous media
January 23, 2013 16:00
3. O континуальных моделях гиперзвукового обтекания тел разреженным газом. (И.Г. Брыкина, Г.А.Тирский, Б.В. Рогов)
I. G. Brykina, G. A. Tirskii, B. V. Rogov
Scientific Seminar of the Laboratory of mathematical modeling of nonlinear processes in gaseous media
May 22, 2012
4. Монотонные бикомпактные схемы бегущего счета для систем уравнений гиперболического типа
B. V. Rogov
Scientific Seminar of the Laboratory of mathematical modeling of nonlinear processes in gaseous media
April 24, 2012

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