2-years impact-factor Math-Net.Ru of «Sibirskii Zhurnal Vychislitel'noi Matematiki» journal, 2017

2-years impact-factor Math-Net.Ru of the journal in 2017 is calculated as the number of citations in 2017 to the scientific papers published during 2015–2016.

The table below contains the list of citations in 2017 to the papers published in 2015–2016. We take into account all citing publications we found from different sources, mostly from references lists available on Math-Net.Ru. Both original and translation versions are taken into account.

The impact factor Math-Net.Ru may change when new citations to a year given are found.

1 2  Full list
N	Citing pulication		Cited paper
1.	A. A. Ivanov, “Analiz stokhasticheskogo dvizheniya zaryazhennoi chastitsy v magnitnom pole metodom Monte-Karlo na superkompyuterakh”, Sib. zhurn. industr. matem., 20:3 (2017), 31–38	→	New frequency characteristics of the numerical solution to stochastic differential equations S. S. Artemiev, A. A. Ivanov, D. D. Smirnov Sib. Zh. Vychisl. Mat., 18:1 (2015),  15–26
2.	G. Platov, V. Krupchatnikov, Yu. Martynova, I. Borovko, E. Golubeva, “A new Earth's climate system model of intermediate complexity, PlaSim-ICMMG-1.0: description and performance”, International Conference on Computational Information Technologies For Environmental Sciences (CITES-2017), IOP Conference Series-Earth and Environmental Science, 96, eds. E. Gordov, V. Lykosov, IOP Publishing Ltd, 2017, UNSP 012005	→	Simulation of the response of the Hadley cell and extratropical troposphere stratification on the climate changes using a general atmosphere circulation of medium complexity I. V. Borovko, V. N. Krupchatnikov Sib. Zh. Vychisl. Mat., 18:1 (2015),  27–40
3.	A. P. Bagliy, A. V. Boukhanovsky, B. Ya. Steinberg, R. B. Steinberg, “Baltic sea water dynamics model acceleration”, Vestn. YuUrGU. Ser. Matem. modelirovanie i programmirovanie, 10:1 (2017), 113–124	→	Automatic program parallelization with block data distribution L. R. Gervich, E. N. Kravchenko, B. Y. Steinberg, M. V. Yurushkin Sib. Zh. Vychisl. Mat., 18:1 (2015),  41–53
4.	A. A. Ivanov, “Analiz stokhasticheskogo dvizheniya zaryazhennoi chastitsy v magnitnom pole metodom Monte-Karlo na superkompyuterakh”, Sib. zhurn. industr. matem., 20:3 (2017), 31–38	→	Analysis of the effect of random noise on the strange attractors of Monte Carlo on a supercomputer S. S. Artemiev, A. A. Ivanov Sib. Zh. Vychisl. Mat., 18:2 (2015),  121–134
5.	K. V. Voronin, Yu. M. Laevskii, “Potokovaya skhema prediktor-korrektor dlya resheniya 3D zadachi teploperenosa”, Sib. zhurn. vychisl. matem., 20:4 (2017), 345–358	→	On the stability of some flux splitting schemes K. V. Voronin, Yu. M. Laevsky Sib. Zh. Vychisl. Mat., 18:2 (2015),  135–145
6.	A. Arduino, O. Bottauscio, M. Chiampi, L. Zilberti, “Douglas–Gunn method applied to dosimetric assessment in magnetic resonance imaging”, IEEE Trans. Magn., 53:6 (2017), 5000204	→	On the stability of some flux splitting schemes K. V. Voronin, Yu. M. Laevsky Sib. Zh. Vychisl. Mat., 18:2 (2015),  135–145
7.	K. Voronin, Yu. Laevsky, “A new approach to constructing vector splitting schemes in mixed finite element method for parabolic problems”, J. Numer. Math., 25:1 (2017), 17–34	→	On the stability of some flux splitting schemes K. V. Voronin, Yu. M. Laevsky Sib. Zh. Vychisl. Mat., 18:2 (2015),  135–145
8.	N. M. Mezhennaya, “Otsenka dlya raspredeleniya chisel serii v sluchainoi posledovatelnosti, upravlyaemoi statsionarnoi tsepyu Markova”, PDM, 2017, № 35, 14–28	→	Calculation of the number of states in binary Markov stochastic models L. Ya. Saveliev Sib. Zh. Vychisl. Mat., 18:2 (2015),  191–200
9.	Zh. Qiu, Yu. Zheng, “Fatigue crack growth modeling and prediction with uncertainties via stochastic perturbation series expansion method”, Int. J. Mech. Sci., 134 (2017), 284–290	→	Asymptotics of the near crack-tip stress field of a fatigue growing crack in damaged materials: numerical experiment and analytical solution L. V. Stepanova, S. A. Igonin Sib. Zh. Vychisl. Mat., 18:2 (2015),  201–217
10.	L. V. Stepanova, “The generalized fracture criteria based on the multiparameter representation of the crack tip stress field”, Mechanics, Resource and Diagnostics of Materials and Structures (MRDMS-2017), AIP Conf. Proc., 1915, eds. E. Gorkunov, V. Panin, S. Ramasubbu, Amer. Inst. Phys., 2017, UNSP 040058	→	Asymptotics of the near crack-tip stress field of a fatigue growing crack in damaged materials: numerical experiment and analytical solution L. V. Stepanova, S. A. Igonin Sib. Zh. Vychisl. Mat., 18:2 (2015),  201–217
11.	L. V. Stepanova, “Modeling of crack growth under mixed-mode loading by a molecular dynamics method and a linear fracture mechanics approach”, Mechanics, Resource and Diagnostics of Materials and Structures (MRDMS-2017), AIP Conf. Proc., 1915, eds. E. Gorkunov, V. Panin, S. Ramasubbu, Amer. Inst. Phys., 2017, UNSP 040059	→	Asymptotics of the near crack-tip stress field of a fatigue growing crack in damaged materials: numerical experiment and analytical solution L. V. Stepanova, S. A. Igonin Sib. Zh. Vychisl. Mat., 18:2 (2015),  201–217
12.	L. V. Stepanova, “Estimation of the crack propagation direction angle for two collinear cracks of different lengths in an infinite isotropic linear elastic plane”, Mechanics, Resource and Diagnostics of Materials and Structures (MRDMS-2017), AIP Conf. Proc., 1915, eds. E. Gorkunov, V. Panin, S. Ramasubbu, Amer. Inst. Phys., 2017, UNSP 030027	→	Asymptotics of the near crack-tip stress field of a fatigue growing crack in damaged materials: numerical experiment and analytical solution L. V. Stepanova, S. A. Igonin Sib. Zh. Vychisl. Mat., 18:2 (2015),  201–217
13.	O. L. Bandman, “Kletochno-avtomatnye modeli estestvennykh protsessov i ikh realizatsiya na sovremennykh kompyuterakh”, PDM, 2017, № 35, 102–121	→	Stochastic cellular automata simulation of oscillations and autowaves in reaction-diffusion systems O. L. Bandman, A. E. Kireeva Sib. Zh. Vychisl. Mat., 18:3 (2015),  255–274
14.	O. Bandman, “Parallelization efficiency versus stochasticity in simulation reaction-diffusion by cellular automata”, J. Supercomput., 73:2 (2017), 687–699	→	Stochastic cellular automata simulation of oscillations and autowaves in reaction-diffusion systems O. L. Bandman, A. E. Kireeva Sib. Zh. Vychisl. Mat., 18:3 (2015),  255–274
15.	I. A. Blatov, A. I. Zadorin, E. V. Kitaeva, “Ob interpolyatsii kubicheskimi splainami funktsii s bolshimi gradientami v pogranichnom sloe”, Zh. vychisl. matem. i matem. fiz., 57:1 (2017), 9–28	→	The Lagrange interpolation and the Newton–Cotes formulas for functions with a boundary layer component on piecewise-uniform meshes A. I. Zadorin Sib. Zh. Vychisl. Mat., 18:3 (2015),  289–303
16.	I. A. Blatov, A. I. Zadorin, E. V. Kitaeva, “O ravnomernoi skhodimosti parabolicheskoi splain-interpolyatsii na klasse funktsii s bolshimi gradientami v pogranichnom sloe”, Sib. zhurn. vychisl. matem., 20:2 (2017), 131–144	→	The Lagrange interpolation and the Newton–Cotes formulas for functions with a boundary layer component on piecewise-uniform meshes A. I. Zadorin Sib. Zh. Vychisl. Mat., 18:3 (2015),  289–303
17.	I. A. Blatov, A. I. Zadorin, E. V. Kitaeva, “Ob interpolyatsii parabolicheskim splainom funktsii s bolshimi gradientami v pogranichnom sloe”, Sib. matem. zhurn., 58:4 (2017), 745–760	→	The Lagrange interpolation and the Newton–Cotes formulas for functions with a boundary layer component on piecewise-uniform meshes A. I. Zadorin Sib. Zh. Vychisl. Mat., 18:3 (2015),  289–303
18.	N. M. Yaparova, A. D. Drozin, “Method for internal heat source identification in a rod based on indirect temperature measurements”, 2017 2nd International Ural Conference on Measurements (URALCON), IEEE, 2017, 93–98	→	A numerical solution of an inverse boundary value problem of heat conduction using the Volterra equations of the first kind S. V. Solodusha, N. M. Yaparova Sib. Zh. Vychisl. Mat., 18:3 (2015),  327–335
19.	E. V. Tabarintseva, “On approximate solution of non-linear inverse problem”, 2017 2nd International Ural Conference on Measurements (URALCON), IEEE, 2017, 99–106	→	A numerical solution of an inverse boundary value problem of heat conduction using the Volterra equations of the first kind S. V. Solodusha, N. M. Yaparova Sib. Zh. Vychisl. Mat., 18:3 (2015),  327–335
20.	An. G. Marchuk, “Otsenka vysoty tsunami, rasprostranyayuscheisya nad parabolicheskim dnom, v luchevom priblizhenii”, Sib. zhurn. vychisl. matem., 20:1 (2017), 23–35	→	The assessment of tsunami heights above the bottom slope within the wave-ray approach An. G. Marchuk Sib. Zh. Vychisl. Mat., 18:4 (2015),  377–388
1 2  Full list