Chetverushkin Boris Nikolaevich

Publications in Math-Net.Ru

1. Cognitive factor modeling and its use to study complex processes occurring in the cryolithozone
   
   Mat. Model., 38:1 (2026),  75–88
2. About one kinetic model for describing turbulent flows taking into account heat transfer
   
   Dokl. RAN. Math. Inf. Proc. Upr., 525 (2025),  71–77
3. Detecting trigger!type attacks on artificial neural networks
   
   Informatsionnye Tekhnologii i Vychslitel'nye Sistemy, 2025, no. 1,  3–13
4. Modeling of high-dimensional systems based on graph condensation
   
   Mat. Model., 37:3 (2025),  59–74
5. Using a kinetic model to find the pulsation moments of a turbulent flow
   
   Mat. Model., 37:2 (2025),  170–184
6. Analysis of complex poorly formalized natural engineering systems using cognitive modeling technology
   
   Mat. Model., 37:2 (2025),  111–127
7. Stabilized scheme for calculating radiation transfer in the $P_1$ approximation
   
   Dokl. RAN. Math. Inf. Proc. Upr., 519 (2024),  7–13
8. Graph condensation for large factor models
   
   Dokl. RAN. Math. Inf. Proc. Upr., 517 (2024),  66–73
9. Description of turbulent flows using a kinetic model
   
   Dokl. RAN. Math. Inf. Proc. Upr., 516 (2024),  51–58
10. Numerical simulation of 3D flow past an inlet model
    
    Mat. Model., 36:3 (2024),  51–66
11. Computational algorithms and applied mathematical software for high and ultra-high performance systems. Educational aspect
    
    Num. Meth. Prog., 25:special issue (2024),  97–106
12. Three-layer scheme for solving the radiation diffusion equation
    
    Dokl. RAN. Math. Inf. Proc. Upr., 512 (2023),  89–95
13. On the concept of influence in the concept of cognitive modeling when using the activation function of the ReLU type
    
    Informatsionnye Tekhnologii i Vychslitel'nye Sistemy, 2023, no. 4,  59–71
14. Properties and errors of second-order parabolic and hyperbolic perturbations of a first-order symmetric hyperbolic system
    
    Mat. Sb., 214:4 (2023),  3–37
15. On stabilization of an explicit difference scheme for a nonlinear parabolic equation
    
    Dokl. RAN. Math. Inf. Proc. Upr., 506 (2022),  30–36
16. On second-order parabolic and hyperbolic perturbations of a first-order hyperbolic system
    
    Dokl. RAN. Math. Inf. Proc. Upr., 506 (2022),  9–15
17. On the parallelization of the particle method for hybrid supercomputers
    
    Dokl. RAN. Math. Inf. Proc. Upr., 505 (2022),  19–23
18. Extracting factual information about the pandemic from open Internet sources
    
    Mat. Biolog. Bioinform., 17:2 (2022),  423–440
19. An explicit difference scheme for non-linear heat conduction equation
    
    Mat. Model., 34:12 (2022),  3–19
20. Block of calculation of the solar radiation field in the general circulation model of the Earth's lower and middle atmosphere
    
    Mat. Model., 34:3 (2022),  43–70
21. Mathematical aspects of the concept of influence in the cognitive simulations
    
    Artificial Intelligence and Decision Making, 2021, no. 2,  3–10
22. Numerical simulation of heat flux around a ballistic model based on the hyperbolic quasi-gasdynamic system of equations
    
    Mat. Model., 33:2 (2021),  41–54
23. Limits for detailed description of problems in continuous media mechanics and numerical algorithm for viscous gas flow simulation
    
    Dokl. RAN. Math. Inf. Proc. Upr., 493 (2020),  57–61
24. Modeling of radiative heat conduction on high-performance computing systems
    
    Dokl. RAN. Math. Inf. Proc. Upr., 491 (2020),  111–114
25. Stability of numerical methods for solving second-order hyperbolic equations with a small parameter
    
    Dokl. RAN. Math. Inf. Proc. Upr., 490 (2020),  35–41
26. Modeling of problems in magnetohydrodynamics on high performance computational systems
    
    Mat. Model., 32:12 (2020),  3–13
27. Global circulation models of the Earth atmosphere. Achievements and directions of development
    
    Mat. Model., 32:11 (2020),  29–46
28. Numerical simulation of interaction and evolution of discontinuities in a channel based on a compact form of quasi-gasdynamic equations
    
    Mat. Model., 32:5 (2020),  44–58
29. Balance&characteristic finite difference schemes for the equations of the parabolic type
    
    Mat. Model., 32:4 (2020),  94–106
30. Factor modeling for innovative-active enterprises
    
    Mat. Model., 32:3 (2020),  115–126
31. The calculation of the intrinsic radiation of atmosphere in the general circulation model of the lower and middle atmosphere of the Earth
    
    Mat. Model., 32:2 (2020),  77–100
32. Numerical algorithms for systems with extramassive parallelism
    
    Zh. Vychisl. Mat. Mat. Fiz., 60:5 (2020),  802–814
33. Simulation of dynamics and adaptation in the space of conflict interaction of the intelligent agents
    
    Keldysh Institute preprints, 2019, 111, 32 pp.
34. Schrödinger equation as a consequence of new Vlasov type equations
    
    Keldysh Institute preprints, 2019, 026, 11 pp.
35. Conservation laws and a compact quasi-gasdynamic system
    
    Mat. Model., 31:12 (2019),  21–32
36. DiMP-Hydro solver for direct numerical simulation of fluid microflows within pore space of core samples
    
    Mat. Model., 31:7 (2019),  21–44
37. Compact quasi-gasdynamic system for high-performance computations
    
    Zh. Vychisl. Mat. Mat. Fiz., 59:3 (2019),  526–533
38. Computation of electron collisional ionization cross-sections of nitrogen and oxygen atoms and ions on Hartree–Fock–Slater model basis
    
    Keldysh Institute preprints, 2018, 263, 23 pp.
39. The convergence of electron collisional ionization cross-section computations for atoms and ions in distorted-wave approximation
    
    Keldysh Institute preprints, 2018, 262, 24 pp.
40. The formal apparatus of simulation and interpretation antagonistic conflicts on the base of an electronic polygon
    
    Keldysh Institute preprints, 2018, 181, 28 pp.
41. Ontological synthesis of management decisions in conditions of antagonistic conflicts
    
    Keldysh Institute preprints, 2018, 179, 22 pp.
42. Numerical algorithms and architecture of HPC systems
    
    Keldysh Institute preprints, 2018, 052, 12 pp.
43. Approaches to modeling the consequences of decisions taking by condition of counteraction
    
    Keldysh Institute preprints, 2018, 043, 15 pp.
44. Hyperbolic quasi-gasdynamic system
    
    Mat. Model., 30:2 (2018),  81–98
45. A quasi-gasdynamic model for the description of magnetogasdynamic phenomena
    
    Zh. Vychisl. Mat. Mat. Fiz., 58:8 (2018),  189–199
46. New generation algorithms for computational fluid dynamics
    
    Zh. Vychisl. Mat. Mat. Fiz., 58:8 (2018),  20–29
47. Kinetic model and magnetogasdynamics equations
    
    Zh. Vychisl. Mat. Mat. Fiz., 58:5 (2018),  716–725
48. Conceptual base of a supercomputer platform of application-oriented simulation, prediction and expertizes of conflict interaction
    
    Keldysh Institute preprints, 2017, 028, 20 pp.
49. Gasdynamic general circulation model of the lower and middle atmosphere of the Earth
    
    Mat. Model., 29:8 (2017),  59–73
50. A kinetic model for magnetogasdynamics
    
    Mat. Model., 29:3 (2017),  3–15
51. Solution of the self-adjoint radiative transfer equation on hybrid computer systems
    
    Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  999–1007
52. Kinetic models and high performance computing
    
    Keldysh Institute preprints, 2015, 079, 31 pp.
53. Simulation of oil recovery processes with the employment of high-performance computer systems
    
    Mat. Model., 27:9 (2015),  73–80
54. Kinetic models for supercomputer simulation continuous mechanic problems
    
    Mat. Model., 27:5 (2015),  65–79
55. On an algorithm for solving parabolic and elliptic equations
    
    Zh. Vychisl. Mat. Mat. Fiz., 55:8 (2015),  1320–1328
56. Derivation of hydrodynamic and quasi-hydrodynamic equations for transport systems based on statistics of Tsallis
    
    Keldysh Institute preprints, 2014, 008, 32 pp.
57. Exaflop computations and the fusion energy devices simulation prospects
    
    Keldysh Institute preprints, 2014, 005, 24 pp.
58. Communication fabric MVS-express
    
    Informatsionnye Tekhnologii i Vychslitel'nye Sistemy, 2014, no. 1,  10–24
59. Three phase filtration modeling by explicit methods on hybrid computer systems
    
    Mat. Model., 26:4 (2014),  33–43
60. Resolution limits of continuous media models and their mathematical formulations
    
    Mat. Model., 24:11 (2012),  33–52
61. Simulation of filtration problems on hybrid computer systems
    
    Mat. Model., 24:10 (2012),  33–39
62. Application of explicit schemes to simulation of two-phase filtration process
    
    Mat. Model., 23:7 (2011),  52–60
63. Extension with OpenCL of the two-level MPI+OpenMP parallelization for CFD simulations on heterogeneous systems
    
    Vestnik YuUrGU. Ser. Mat. Model. Progr., 2011, no. 9,  76–86
64. On an explicit scheme for filtration problem solution
    
    Mat. Model., 22:4 (2010),  99–109
65. Simulating flows of incompressible and weakly compressible fluids on multicore hybrid computer systems
    
    Zh. Vychisl. Mat. Mat. Fiz., 50:12 (2010),  2275–2284
66. Two-dimensional macroscopic model of traffic flows
    
    Mat. Model., 21:2 (2009),  118–126
67. Quasi-hydrodynamic model and small scale turbulence
    
    Mat. Model., 20:2 (2008),  13–20
68. Parabolicity of the quasi-gasdynamic system of equations, its hyperbolic second-order modification, and the stability of small perturbations for them
    
    Zh. Vychisl. Mat. Mat. Fiz., 48:3 (2008),  445–472
69. Software package for 3D viscous gas flow simulation on multiprocessor computer systems
    
    Zh. Vychisl. Mat. Mat. Fiz., 48:2 (2008),  309–320
70. Modeling of industrial problems on high-performance polyprocessor computing systems
    
    Avtomat. i Telemekh., 2007, no. 5,  193–205
71. A two-dimensional model of traffic flows
    
    Mat. Model., 18:6 (2006),  85–95
72. On the Galilean group for balance relations generating kinetic schemes
    
    Zh. Vychisl. Mat. Mat. Fiz., 46:3 (2006),  485–489
73. CFD software project GIMM study of hydrodynamic problems by parallel computing
    
    Mat. Model., 17:6 (2005),  58–74
74. Minimal sizes in continuous medium mechanics problems
    
    Mat. Model., 17:4 (2005),  27–39
75. Application of the nested grids for modeling of a filtration process
    
    Mat. Model., 16:12 (2004),  3–10
76. About one numerical model for reservoir flow near a horizontal well at nonlinear law of fluid motion
    
    Mat. Model., 16:9 (2004),  29–48
77. Quasigasdynamic system of equations and Navier–Stokes equations
    
    Mat. Model., 16:4 (2004),  98–104
78. Kinetic and Lattice Boltzmann schemes
    
    Mat. Model., 16:3 (2004),  87–94
79. On a new version of the quasi-gas-dynamic system of equations
    
    Mat. Model., 15:1 (2003),  78–86
80. Analog of kinetically consistent schemes for simulation of a filtration problem
    
    Mat. Model., 14:10 (2002),  69–76
81. Simulation of unsteady gasdynamic flows
    
    Mat. Model., 14:4 (2002),  35–44
82. Application of kinetically consistent finite difference schemes for turbulent supersonic jet noise prediction
    
    Mat. Model., 13:10 (2001),  56–76
83. Kinetically consistent schemes of a higher accuracy order
    
    Mat. Model., 13:5 (2001),  53–61
84. Kinetically consistent difference schemes and quasi-gas-dynamic model for dense gas and liquid flows
    
    Mat. Model., 13:4 (2001),  47–57
85. Difference schemes based on kinetic splitting of flux vector
    
    Mat. Model., 12:4 (2000),  73–82
86. Application of the algebraic turbulent model to the unsteady flow simulation around a cavity
    
    Mat. Model., 12:1 (2000),  45–56
87. Numerical simulation of supersonic jets using kinetical-consistent finite difference schemes
    
    Mat. Model., 12:1 (2000),  25–37
88. Kinetically consistent schemes for simulations of viscous gas flows
    
    Zh. Vychisl. Mat. Mat. Fiz., 40:12 (2000),  1875–1889
89. Harmonic analysis of the quasi-gasdynamic system of equations for viscous gas flows and kinetically consistent finite difference schemes in their linear approximations
    
    Zh. Vychisl. Mat. Mat. Fiz., 40:2 (2000),  265–273
90. On implicit kinetically consistent schemes
    
    Mat. Model., 11:7 (1999),  64–74
91. Kinetically consistent schemes in gas dynamics
    
    Mat. Model., 11:5 (1999),  84–100
92. Formation of nitric oxide (NO) during propagation of a laminar flame over a homogeneous methane–air mixture
    
    Fizika Goreniya i Vzryva, 34:1 (1998),  9–19
93. Numerical simulation of supersonic non-stationary gas flow around cylindrical body with the needle
    
    Mat. Model., 10:11 (1998),  37–46
94. Nitric oxide formation in direct flame-impingement multi-jet furnace
    
    Mat. Model., 10:9 (1998),  41–52
95. Kinetically consistent difference algorithm for simulation of gasdynamic flows on triangular meshes
    
    Mat. Model., 10:4 (1998),  51–60
96. The mutual influence of supersonic unsteady flow and a body with elastic surface
    
    Mat. Model., 10:2 (1998),  15–24
97. Parallel version of the alternating triangular method
    
    Zh. Vychisl. Mat. Mat. Fiz., 38:2 (1998),  228–238
98. The validation of the kinetically consistent finite difference schemes with correction
    
    Mat. Model., 9:11 (1997),  111–118
99. Kinetically consistent difference schemes on irregular grids
    
    Mat. Model., 9:7 (1997),  44–53
100. On an implicit scheme for simulation of low Mach number gas flow
     
     Mat. Model., 9:5 (1997),  108–118
101. Methods of acceleration $\alpha$-$\beta$ process solution of linear system of equations
     
     Mat. Model., 9:2 (1997),  37–42
102. Kinetically consistent finite difference schemes as a model for gasdynamic flow description
     
     Mat. Model., 8:8 (1996),  17–36
103. Numerical modeling of pressure pulsations in 3D cavities
     
     Mat. Model., 8:5 (1996),  76–90
104. On a theory of kinetically consistent difference schemes
     
     Mat. Model., 7:11 (1995),  109–125
105. The numerical investigation of oscillatory regime in open cavity
     
     Mat. Model., 7:11 (1995),  3–15
106. Simulation of oil reservoir exploitation on parallel computer systems
     
     Mat. Model., 7:2 (1995),  35–48
107. On an improvement of the gas flow description via kinetically-consistent difference schemes
     
     Mat. Model., 6:7 (1994),  3–14
108. Numerical modelling of heat and mass transfer in 3-D cavities
     
     Mat. Model., 6:5 (1994),  37–54
109. Simulation and analysis of pollution spreading in the subsoil water horizons using parallel systems
     
     Mat. Model., 6:4 (1994),  3–12
110. Simulation of flow in threedimensional viscous shock layer on distributed memory multiprocessor system
     
     Mat. Model., 5:7 (1993),  41–48
111. Kinetically-consistent finite difference schemes as a model for the flows of slightly rarefied gases
     
     Mat. Model., 5:5 (1993),  61–70
112. A finite difference schemes with artificial kinetic-consistent viscosity for Navier–Stokes equations on curvilinear ortogonal grids
     
     Mat. Model., 5:4 (1993),  57–75
113. Implementation of multiprocessor transputer system for computer simulation of computational physics problems
     
     Mat. Model., 4:11 (1992),  75–100
114. Using kinetically-consistent difference schemes for prediction of slightly rarefied gas flows
     
     Mat. Model., 4:11 (1992),  19–35
115. Chemical kinetics of $\mathrm{NO}_\mathrm{X}$ formation in methane-air combustion
     
     Mat. Model., 4:9 (1992),  3–36
116. On a simulation of radiation gas dynamic problems using MIMD computer
     
     Mat. Model., 4:2 (1992),  51–61
117. Kinetically consistent difference schemes in curvilinear coordinate systems
     
     Differ. Uravn., 27:7 (1991),  1161–1169
118. On the possibility of quasi-hydrodynamic model implementation for semiconductor plasma simulation on multiprocessor computer systems
     
     Mat. Model., 3:6 (1991),  61–71
119. On the application of geometric parallelism principle to $(\alpha-\beta)$-iteration algorithm
     
     Mat. Model., 3:3 (1991),  123–129
120. Numerical simulation of a turbulent flow near the right step
     
     Mat. Model., 2:11 (1990),  31–44
121. Construction of kinetical-consistent difference schemes for electrical charged media flows calculations
     
     Mat. Model., 2:8 (1990),  127–138
122. Numerical modelling of pulsating regimes accompanying supersonic flow round a hollow cylinder
     
     Zh. Vychisl. Mat. Mat. Fiz., 30:4 (1990),  548–556
123. Quasihydrodynamical algorithms for the calculation of processes in electron plasma in submicron semiconductor structures
     
     Mat. Model., 1:5 (1989),  11–22
124. Numerical modelling of etching of polymers in an oxygen-containing atmosphere
     
     Mat. Model., 1:2 (1989),  1–13
125. Mathematical modelling of oscillating regimes for flows around a spike-tipped body
     
     Mat. Model., 1:1 (1989),  13–23
126. A numerical method for the simulation of two-dimensional semiconductor structures using quasi-hydrodynamic approach
     
     Dokl. Akad. Nauk SSSR, 298:6 (1988),  1367–1371
127. A cyclic variant of the $\alpha$-$\beta$-iterative algorithm
     
     Differ. Uravn., 24:7 (1988),  1213–1218
128. Kinetically coordinated difference schemes for modelling flows of a viscous heat-conducting gas
     
     Zh. Vychisl. Mat. Mat. Fiz., 28:11 (1988),  1695–1710
129. Application of system of quasi-gasdynamic equations for simulation of the flow around body with a needle
     
     Dokl. Akad. Nauk SSSR, 297:2 (1987),  327–331
130. Conservative kinetically matched schemes for solving gas-dynamic problems
     
     Zh. Vychisl. Mat. Mat. Fiz., 27:12 (1987),  1900–1906
131. Numerical simulation of nonstationary heating of a dense electron-hole plasma in double heterostructures
     
     Dokl. Akad. Nauk SSSR, 288:6 (1986),  1342–1346
132. Modeling of complex gas-dynamics flows by kinetic algorithms
     
     Differ. Uravn., 22:7 (1986),  1173–1180
133. Application of a kinetic algorithm for calculating gas dynamic flows
     
     Differ. Uravn., 21:7 (1985),  1179–1185
134. Numerical modeling of generation of a current in a laser plasma jet
     
     Kvantovaya Elektronika, 12:2 (1985),  392–394
135. Kinetic algorithms for calculating gas dynamic flows
     
     Zh. Vychisl. Mat. Mat. Fiz., 25:10 (1985),  1526–1533
136. An algorithm for calculating two-dimensional problems of gas dynamics in Lagrange variables
     
     Zh. Vychisl. Mat. Mat. Fiz., 25:3 (1985),  422–430
137. A computational algorithm for the calculation of gas-dynamic flows
     
     Dokl. Akad. Nauk SSSR, 279:1 (1984),  80–83
138. Mathematical modeling of evaporation of a metal under the electron beam action
     
     Dokl. Akad. Nauk SSSR, 272:4 (1983),  835–838
139. Low-temperature laser plasmas near metal surfaces in high-pressure gases (review)
     
     Kvantovaya Elektronika, 10:4 (1983),  679–701
140. Radiation in two-dimensional problems of radiative gas dynamics
     
     Zh. Vychisl. Mat. Mat. Fiz., 23:6 (1983),  1512–1517
141. Solution of two-dimensional non-stationary problems of the dynamics of a radiating gas
     
     Zh. Vychisl. Mat. Mat. Fiz., 23:5 (1983),  1177–1185
142. Optical breakdown of molecular nitrogen in a wide range of pressures near a solid target
     
     Kvantovaya Elektronika, 9:5 (1982),  906–917
143. Numerical modeling of a two-dimensional problem on the plasma discharge propagation
     
     Zh. Vychisl. Mat. Mat. Fiz., 22:1 (1982),  171–177
144. On the propagation of low-temperature laser plasma in high-pressure nitrogen medium
     
     Dokl. Akad. Nauk SSSR, 257:3 (1981),  584–589
145. Numerical simulation of laser plasma dynamics in high-pressure medium near a solid target
     
     Dokl. Akad. Nauk SSSR, 256:5 (1981),  1100–1105
146. Numerical investigation of the problem of a laser discharge in a dense gas
     
     Zh. Vychisl. Mat. Mat. Fiz., 20:2 (1980),  451–460
147. Modeling of dense molecular gas breakdown by laser radiation near a metallic surface
     
     Dokl. Akad. Nauk SSSR, 246:6 (1979),  1338–1342
148. A method of solving radiation transfer equations in two-dimensional problems of radiative gas dynamics
     
     Zh. Vychisl. Mat. Mat. Fiz., 19:6 (1979),  1513–1520
149. The solution of two-dimensional non-stationary problems of radiation gas dynamics
     
     Zh. Vychisl. Mat. Mat. Fiz., 19:5 (1979),  1262–1275
150. An iteration method for the solution of the two-dimensional equations of radiation diffusion
     
     Zh. Vychisl. Mat. Mat. Fiz., 17:2 (1977),  428–436
151. High-current radiating discharges in inert gases
     
     Dokl. Akad. Nauk SSSR, 226:5 (1976),  1045–1048
152. A way of averaging equations of diffusion type with respect to the energies of the photons
     
     Zh. Vychisl. Mat. Mat. Fiz., 16:6 (1976),  1601–1605
153. A certain iteration algorithm for the solution of difference equations
     
     Zh. Vychisl. Mat. Mat. Fiz., 16:2 (1976),  519–524
154. Electrotechnical approximation for heavy-current radiating discharges
     
     Prikl. Mekh. Tekh. Fiz., 16:1 (1975),  41–44
155. Methods of solving one-dimensional problems of radiation gas dynamics. II
     
     Zh. Vychisl. Mat. Mat. Fiz., 13:5 (1973),  1298–1306
156. An implicit difference method for temperature determination in problems of radiation gas dynamics
     
     Zh. Vychisl. Mat. Mat. Fiz., 13:1 (1973),  136–146
157. Methods of solving one-dimensional problems of radiation gas dynamics
     
     Zh. Vychisl. Mat. Mat. Fiz., 12:4 (1972),  990–1000
158. Numerical solution of spectral problem of external radiation heating of matter
     
     Prikl. Mekh. Tekh. Fiz., 12:2 (1971),  48–53
159. An effective method of solving the equation of radiation transfer in low-temperature plasma
     
     Dokl. Akad. Nauk SSSR, 195:2 (1970),  315–317
160. A certain method of the simultaneous solution of the energy equation and the heat transfer equation
     
     Zh. Vychisl. Mat. Mat. Fiz., 10:5 (1970),  1290–1292


161. Academician Oleg Mikhailovich Belotserkovskii (on his 100th birthday)
     
     Mat. Model., 37:6 (2025),  194–196
162. In memory of Igor' Germogenovich Pospelov
     
     Mat. Model., 35:2 (2023),  126
163. Mikhail Yakovlevich Marov (on his 90th birthday)
     
     UFN, 193:7 (2023),  799–800
164. In memory of Nikolay Nikolaevich Kalitkin
     
     Mat. Model., 33:2 (2021),  141–142
165. In memory of Vladislav Borisovich Rozanov (11 December 1932 – 5 September 2019)
     
     Kvantovaya Elektronika, 49:10 (2019),  988
166. In memory of Aleksandr Sergeevich Kholodov
     
     Mat. Model., 30:1 (2018),  135–136
167. In memory of A. S. Kholodov
     
     Computer Research and Modeling, 9:5 (2017),  677–678
168. Yuri Nikolaevich Deryugin - on his seventieth birthday
     
     Zhurnal SVMO, 19:2 (2017),  139–141
169. In memory of Yurii Petrovich Popov (02.05.1941–27.09.2016)
     
     Zh. Vychisl. Mat. Mat. Fiz., 57:7 (2017),  1231–1240
170. In memory of O. M. Belotserkovskii
     
     Mat. Model., 28:2 (2016),  3–5
171. In memory of Academician of the RAS Oleg Mikhailovich Belotserkovskii
     
     Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  921–926
172. In memory of Professor Aleksei Vladimirovich Gulin (26.03.1942–27.03.2015)
     
     Zh. Vychisl. Mat. Mat. Fiz., 56:1 (2016),  180–184
173. International Conference for Young Scientists «Modern Problems of Applied Mathematics & Computer Science»
     
     Mat. Model., 27:7 (2015),  3
174. Viktor Solomonovich Ryaben'kii and his school (on his 90th birthday)
     
     Uspekhi Mat. Nauk, 70:6(426) (2015),  213–236
175. Alexander Ivanovich Aptekarev (on his 60th birthday)
     
     Uspekhi Mat. Nauk, 70:5(425) (2015),  183–190
176. On the 75th birthday of professor Anton Pavlovich Favorskii
     
     Zh. Vychisl. Mat. Mat. Fiz., 55:8 (2015),  1283–1291
177. In memory of V. Ya. Gol'din
     
     Mat. Model., 26:7 (2014),  147–148
178. In memory of Leonard Amayakovich Oganesyan (1925–2013)
     
     Zh. Vychisl. Mat. Mat. Fiz., 54:5 (2014),  892–896
179. M. V. Keldysh, scientist and statesman (on the centenary of his birth)
     
     Uspekhi Mat. Nauk, 66:1(397) (2011),  187–198
180. Academician M. V. Keldysh and computational mathematics (on the centenary of his birth)
     
     Zh. Vychisl. Mat. Mat. Fiz., 51:9 (2011),  1571–1575
181. In memory of Radiĭ Petrovich Fedorenko (1930–2010)
     
     Zh. Vychisl. Mat. Mat. Fiz., 50:8 (2010),  1532–1536
182. Aleksei Valerievich Zabrodin (1933–2008)
     
     Zh. Vychisl. Mat. Mat. Fiz., 49:7 (2009),  1340–1344
183. Sergeĭ Pavlovich Kurdyumov
     
     Differ. Uravn., 41:4 (2005),  570–572
184. Vyacheslav Nikolaevich Abrashin
     
     Differ. Uravn., 41:4 (2005),  561–569
185. On the work of the International Conference on Selected Problems of Modern Mathematics
     
     Uspekhi Mat. Nauk, 60:3(363) (2005),  183–184
186. Sergei Pavlovich Kurdyumov (1928–2004)
     
     Zh. Vychisl. Mat. Mat. Fiz., 45:5 (2005),  941–944
187. Yurii Petrovich Popov (A Tribute in Honor of His Sixtieth Birthday)
     
     Differ. Uravn., 37:5 (2001),  579–585
188. Vitalii Efimovich Troshchiev (on his 70th birthday)
     
     Mat. Model., 13:11 (2001),  127
189. Sobol' Il'ya Meerovich (on his 70th birthday)
     
     Mat. Model., 13:10 (2001),  125
190. The 60th anniversary of Nikolaj Nikolaevich Kalitkin
     
     Mat. Model., 7:11 (1995),  126–127
191. The 70th anniversary of Vladimir Yakovlevich Gol'din
     
     Mat. Model., 6:7 (1994),  116–118
192. The 75th anniversary of Aleksandr Andreevich Samarskij
     
     Mat. Model., 6:6 (1994),  139–142