Отчет ИВМ СО РАН за 2022 год

Публикации Web of Science (85)

1. A. V. Aksenov, K. P. Druzhkov, O. V. Kaptsov Application of invariants of characteristics to construction of solutions without gradient catastrophe // International Journal of Non-Linear Mechanics. — 2022. — Vol.147. — P.1-8. [WoS Q2] doi: 10.1016/j.ijnonlinmec.2022.104249
2. E. Pelinovsky, O. Kaptsov Traveling waves in shallow seas of variable depths // Symmetry. — 2022. — Vol.14. — P.1-11. [WoS Q2] doi: 10.3390/sym14071448
3. O. V. Kaptsov Some solutions of the euler system of an inviscid incompressible fluid // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.5. — P.672–678. [WoS] doi: 10.17516/1997–1397-2022-15-5-672–678
4. Chernykh G. G., Demenkov A. G., Kaptsov O. V., Schmidt A. V. Dynamics of passive scalar in swirling turbulent far wakes // Journal of engineering thermophysics. — 2022. — Vol.31, Iss.3. — P.512–521. [WoS Q3] doi: 10.1134/S1810232822030122
5. Vasil'ev E. N. Calculation and optimization of heat exchangers for a thermoelectric cooling system // Thermophysics and Aeromechanics. — 2022. — Vol.29, Iss.3. — P.401–410. [WoS Q4] doi: 10.1134/S0869864322030088
6. Evgeniy N. Vasil'ev Numerical Simulation of Temperature and Thermal Stress Fields in a Carbon Block under External Thermal Effect // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.3. — P.267–272. [WoS] doi: 10.17516/1997–1397-2022-15-3-267–272
7. Evgeniy N. Vasil'ev Modeling of the Ice Cover Dynamics of a Freshwater Reservoir // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.6. — P.753–762. [WoS] doi: 10.17516/1997–1397-2022-15-6-753–762
8. Irina A. Panteleeva, Kristina V. Parfenteva, Yury V. Shan'ko, Vladimir I. Byvshev, and Vadim G. Demin Potential of Operations Research and System Analysis in Improving the Quality of State Support for Regional Science and Innovation on the Example of the Krasnoyarsk Regional Science Foundation // Lecture Notes in Networks and Systems. — 2022. — Vol.368. — P.80-87. [WoS] doi: 10.1007/978-3-030–93244-2_10
9. Gravit M., Kirik E., Savchenko E., Vitova T., Shabunina D. Simulation of Evacuation from Stadiums and Entertainment Arenas of Different Epochs on the Example of the Roman Colosseum and the Gazprom Arena // Fire. — 2022. — Vol.5, Iss.1. — Art.20. [WoS Q2] doi: 10.3390/fire5010020
10. Kirik E., Bogdanov A., Sushkova O., Gravit M., Shabunina D., Rozov A., Vitova T., Lazarev Y. Fire Safety in Museums: Simulation of Fire Scenarios for Development of Control Evacuation Schemes from the Winter Palace of the Hermitage // Buildings. — 2022. — Vol.12, Iss.10. — Art.1546. [WoS Q2] doi: 10.3390/buildings12101546
11. Kirik E., Vitova T. Time discretization in the time-continuous pedestrian dynamics model SigmaEva // Natural Computing. — 2022. — Vol.21, Iss.3. — P.407–415. [WoS Q3] doi: 10.1007/s11047–022-09894-2
12. Kirik E., Vitova T. Pedestrian Movement: An Analysis of Transition Regime the Real-Life Experiment, a Comparison with a Simulation Data at an Example of the «SigmaEva» Software // Cellular Automata. ACRI 2022. Lecture Notes in Computer Science. — 2022. — Vol.13402. — P.314–323. [WoS Q4] doi: 10.1007/978-3-031–14926-9_28
13. Isaeva O. S., Kulyasov N. V., Isaev S. V. Infographic method to support testing of spacecraft onboard systems based on knowledge base // Vestnik Tomskogo gosudarstvennogo universiteta-Upravlenie vychislitelnaja tehnika i informatika-Tomsk state university journal of control and computer science. — 2021. — Vol.57. — P.22-33. [WoS] doi: 10.17223/19988605/57/3
14. Shaparev N., Tokarev A., Yakubailik O. Fogs on the Yenisei River (Krasnoyarsk, Russia) // Thermal Science. — 2022. — Vol.26, Iss.5B. — P.4447–4458. [WoS Q3] doi: 10.2298/TSCI220402099S
15. Andrianova A. V., Shan'ko Y.V. Biotic indices and metrics of zoobenthos in the assessment of the ecological state of a large mixed-type river // Russian Journal of Ecology. — 2022. — Vol.53, Iss.2. — P.128–135. [WoS Q4] doi: 10.1134/S1067413622020035
16. Erunova M. G., Yakubailik O. E. Methods and technologies for spatial analysis of regional ecosystems based on the watershed approach // Integrated Environmental Assessment and Management. — 2022. [WoS Q3] doi: 10.1002/ieam.4652
17. Kuznetsova M., Khudyakov M., Sadovskii V. Wave propagation in continuous bimodular media // Mechanics of Advanced Materials and Structures. — 2022. — Vol.29, Iss.21. — P.3147–3162. [WoS Q2] doi: 10.1080/15376494.2021.1889725
18. Sadovskii V. M., Sadovskaya O. V. Mathematical modeling of inhomogeneous electric field impact on a liquid crystal layer // ZAMM (Zeitschrift fur Angewandte Mathematik und Mechanik). — 2022. — Art.e202200248. [WoS Q2] doi: 10.1002/zamm.202200248
19. Smolekho I. V., Sadovskaya O. V., Sadovskii V. M. Numerical solution of equations describing the action of electric field on a liquid crystal // AIP Conference Proceedings. — 2022. — Vol.2522, Iss.1. — Art.80007. [WoS] doi: 10.1063/5.0100758
20. Efimov E. A., Sadovskii V. M., Sadovskaya O. V. Numerical modeling of the seismic wavefields in viscoelastic soils under pulse impact // AIP Conference Proceedings. — 2022. — Vol.2522, Iss.1. — Art.110003. [WoS] doi: 10.1063/5.0100823
21. Petrakov I. Modeling the bending of a multilayer composite plate with a rigid stamp // AIP Conference Proceedings. — 2022. — Vol.2522, Iss.1. — Art.80004. [WoS] doi: 10.1063/5.0101137
22. Kireev I. V., Novikov A. E., Novikov E. A. Stability domains of explicit multistep methods // Numerical Analysis and Applications. — 2022. — Vol.15, Iss.4. — P.343–352. [WoS] doi: 10.1134/S1995423922040073
23. Medievsky A., Zotin A., Simonov K., Kruglyakov A. Technique of central nervous system's cells visualization based on microscopic images processing // Intelligent Decision Technologies. Smart Innovation, Systems and Technologies. — 2022. — Vol.309. — P.269–278. [WoS] doi: 10.1007/978-981–19–3444-5_24
24. Medievsky A. V., Zotin A. G., Simonov K. V., Kruglyakov A. S. Processing and analysis of images to clarify biological structure of the brain from the position of forming a neural network model // AIP Conference Proceedings. — 2022. — Vol.2647, Iss.1. — Art.70023. [WoS] doi: 10.1063/5.0104168
25. Victoria B. Bekezhanova, Irina V. Stepanova Evaporation convection in two-layers binary mixtures: equations, structure of solution, study of gravity and thermal diffusion effects on the motion // Applied Mathematics and Computation. — 2022. — Vol.414. — Art.126424. [WoS Q1] doi: 10.1016/j.amc.2021.126424
26. Bekezhanova V. B., Goncharova O. N., Ovcharova A. S. Numerical simulation of the dynamics of a locally heated bilayer system under weak evaporation // International Journal of Heat and Mass Transfer. — 2022. — Vol.185. — Art.122329. [WoS Q1] doi: 10.1016/j.ijheatmasstransfer.2021.122329
27. Bekezhanova V. B., Goncharova O. N. Thermodiffusion effects in a two-phase system with the thermocapillary deformable interface exposed to local heating // International Journal of Multiphase Flow. — 2022. — Vol.152. — Art.104080. [WoS Q2] doi: 10.1016/j.ijmultiphaseflow.2022.104080
28. Bekezhanova V. B., Goncharova O. N. Thermocapillary convection with diffusive-type evaporation in a three-dimensional channel under the conditions of combined thermal load // Interfacial Phenomena and Heat Transfer. — 2022. — Vol.10, Iss.2. — P.11-30. [WoS] doi: 10.1615/InterfacPhenomHeatTransfer.2022044674
29. Bekezhanova V. B., Goncharova O. N. Theoretical analysis of the gravity impact on the parameters of flow regimes with inhomogeneous evaporation based on an exact solution of convection equations // Microgravity Science and Technology. — 2022. — Vol.34, Iss.5. — Art.88. [WoS Q3] doi: 10.1007/s12217–022-10006-z
30. Irina V. Stepanova On thermodiffusion of binary mixture in a horizontal channel at inhomogeneous heating the walls // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.6. — P.776–784. [WoS] doi: 10.17516/1997–1397-2022-15-6-776–784
31. Magdenko E. P. Three-dimensional non-stationary flow of two immiscible fluids in a rotating horizontal cylinder // Interfacial Phenomena and Heat Transfer. — 2022. — P. 33-44. [WoS] doi: 10.1615/InterfacPhenomHeatTransfer.2022045623
32. Andreev V. K., Lemeshkova E. N. Two-Layer Steady Creeping Thermocapillary Flow In a Three-Dimensional Channel // Journal of Applied Mechanics and Technical Physics. — 2022. — Vol.63, Iss.1. — P.82-88. [WoS Q4] doi: 10.1134/S0021894422010138
33. Andreev V. K., Uporova A. I. On a Spectral Problem for Convection Equations // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.1. — P.88–100. [WoS] doi: 10.17516/1997–1397-2022-15-1–88–100
34. Andreev V. K., Latonova L. I. Solution of the Linear Problem of Thermal Convection in Liquid Rotating Layer // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.3. — P.273–280. [WoS] doi: 10.17516/1997–1397-2022-15-3-273–280
35. Lemeshkova E. N. Two-Dimensional Thermocapillary Fluid Motion in an Open Channel // Bulletin of Irkutsk State University-Series Mathematics. — 2022. — Vol.41. — P.121–130. [WoS] doi: 10.26516/1997–7670.2022.41.121
36. Senashov V. I., Paraschuk I. A. On recognizing of groups by the bottom layer // Bulletin of the Karaganda University. Mathematics series. — 2022. — Vol.107, Iss.3. — P.124–131. [WoS] doi: 10.31489/2022M3/124–131
37. Tao Jia, Dan Li, Jiarui Du, Xikui Fang, Valeriy Gerasimov, Hans Agren, Guanying Chen A bimodal type of AgPd Plasmonic Blackbody Nanozyme with boosted catalytic efficacy and synergized photothermal therapy for efficacious tumor treatment in the second biological window // Journal of Nanobiotechnology. — 2022. — Vol.20, Iss.1. — P.1-19. [WoS Q1] doi: 10.1186/s12951–022-01627-y
38. Lasse K. Sorensen, Daniil E. Khrennikov, Valeriy S. Gerasimov, Alexander E. Ershov, Sergey P. Polyutov, Sergey V. Karpov, Hans Agren Nature of the Anomalous Size Dependence of Resonance Red Shifts in Ultrafine Plasmonic Nanoparticles // Journal of Physical Chemistry C. — 2022. — Vol.126, Iss.39. — P.16804–16814. [WoS Q2] doi: 10.1021/acs.jpcc.2c03738
39. Dmitrii N. Maksimov, Valery S. Gerasimov, Andrey A. Bogdanov, Sergey P. Polyutov Enhanced sensitivity of an all-dielectric refractive index sensor with an optical bound state in the continuum // Physical Review A. — 2022. — Vol.105, Iss.3. — P.33518-. [WoS Q2] doi: 10.1103/PhysRevA.105.033518
40. A. S. Kostyukov, V. S. Gerasimov, A. E. Ershov, E. N. Bulgakov Ring of bound states in the continuum in the reciprocal space of a monolayer of high-contrast dielectric spheres // Physical Review B. — 2022. — Vol.105, Iss.7. — Art.75404. [WoS Q2] doi: 10.1103/PhysRevB.105.075404
41. A. S. Kostyukov, I. L. Isaev, A. E. Ershov, V. S. Gerasimov, S. P. Polyutov, S. V. Karpov Part I. Nanobubbles in pulsed laser fields for anticancer therapy: in search of adequate models and simulation approaches // Journal of Physics D: Applied Physics. — 2022. — Vol.55, Iss.17. — Art.175401. [WoS Q2] doi: 10.1088/1361–6463/ac4c20
42. A. S. Kostyukov, I. L. Isaev, A. E. Ershov, V. S. Gerasimov, S. P. Polyutov, S. V. Karpov Part II. Nanobubbles around plasmonic nanoparticles in terms of modern simulation modeling: what makes them kill the malignant cells? // Journal of Physics D: Applied Physics. — 2022. — Vol.55, Iss.17. — Art.175402. [WoS Q2] doi: 10.1088/1361–6463/ac4c1f
43. Lasse K. Sorensen, Daniil E. Khrennikov, Valeriy S. Gerasimov, Alexander E. Ershov, Sergey P. Polyutov, Sergey V. Karpov, Hans Agren Medium dependent optical response in ultra-fine plasmonic nanoparticles // Physical Chemistry Chemical Physics. — 2022. — Vol.24, Iss.39. — P.24062–24075. [WoS Q1] doi: 10.1039/D2CP02929D
44. Lasse K. Sorensen, Daniil E. Khrennikov, Valeriy S. Gerasimov, Alexander E. Ershov, Maxim A. Vysotin, Susanna Monti, Vadim I. Zakomirnyi, Sergey P. Polyutov, Hans Agren, Sergey V. Karpov Thermal degradation of optical resonances in plasmonic nanoparticles // Nanoscale. — 2022. — Vol.14, Iss.2. — P.433–447. [WoS Q1] doi: 10.1039/D1NR06444D
45. D. N. Maksimov, A. S. Kostyukov, A. E. Ershov, M. S. Molokeev, E. N. Bulgakov, V. S. Gerasimov Thermo-optic hysteresis with bound states in the continuum // Physical Review A. — 2022. — Vol.106, Iss.6. — Art.63507. [WoS Q2] doi: 10.1103/PhysRevA.106.063507
46. V. V. Klimenko, V. V. Denisenko, M. V. Klimenko Prerequisites for the Modification of the Block for Calculating the Electric Potential in the Ionosphere in the Model of the Upper Atmosphere // Russian Journal of Physical Chemistry B. — 2022. — Vol.16. — P.1008–1014. [WoS Q4] doi: 10.1134/S1990793122050219
47. V. V. Denisenko, M. J. Rycroft WWLLN Data Used to Model the Global Ionospheric Electric Field Generated by Thunderstorms // Annals of geophysics. — 2022. — Vol.65. — Art.PA536. [WoS Q3] doi: 10.4401/ag-8821
48. N. V. Erkaev, C. Weber, J.-M. Griemeier, H. Lammer, V. A. Ivanov, and P. Odert Can Radio Emission Escape from the Magnetosphere of Andromedae b — A New Method to Constrain the Minimum Mass of Hot Jupiters // MNRAS. — 2022. — Vol.512, Iss.4. — P.4869–4876. [WoS Q1] doi: 10.1093/mnras/stac767
49. Helmut Lammer, Manuel Scherf, Yuichi Ito, Alessandro Mura, Audrey Vorburger, Eike Guenther, Peter Wurz, Nikolai V. Erkaev, P. Odert The Exosphere as a Boundary: Origin and Evolution of Airless Bodies in the Inner Solar System and Beyond Including Planets with Silicate Atmospheres // Space Science Review. — 2022. — Vol.218. — Art.15. [WoS Q1] doi: 10.1007/s11214–022-00876-5
50. N. V. Erkaev, M. Scherf, O. Herbort, H. Lammer, P. Odert, D. Kubyshkina, M. Leitzinger, P. Woitke, C. O'Neil Modification of the radioactive heat budget of Earth-like exoplanets by the loss of primordial atmospheres // MNRAS. — 2023. — Vol.518, Iss.3. — P.3703–3721. [WoS Q1] doi: 10.1093/mnras/stac3168
51. Schmid D., Lammer H., Plaschke F., Vorburger A., Erkaev N. V., Wurz P., Narita Y., Volwerk M., Baumjohann W., and Anderson B. J. Magnetic evidence for an extended hydrogen exosphere at Mercury // Journal of Geophysical Research. — 2022. — Vol.127, Iss.11. — Art.e2022JE007462. [WoS Q1] doi: 10.1029/2022JE0074625
52. Gorbunova K. D., Erkaev N. V. Compact MacCormac-type schemes applied for atmospheric escape problem // Journal of Siberian Federal University. Mathematics & Physics. — 2022. — Vol.15, Iss.4. — P.500–509. [WoS] doi: 10.17516/1997–1397-2022-15-4-500–509
53. I. V. Krasnov Opto-thermophoretic superlattice for atoms // Laser Physics Letters. — 2022. — Vol.19, Iss.9. — Art.95501. [WoS Q3] doi: 10.1088/1612–202X/ac81bc
54. E. M. Kimani, M. Pranic, S. Porada, A.J. B. Kemperman, I. I. Ryzhkov, W.G.J. van der Meer, P. M. Biesheuvel The influence of feedwater pH on membrane charge ionization and ion rejection by reverse osmosis: An experimental and theoretical study // Journal of Membrane Science. — 2022. — Vol.660. — Art.120800. [WoS Q1] doi: 10.1016/j.memsci.2022.120800
55. Nikita O. Ronzhin, Ekaterina D. Posokhina, Elena V. Mikhlina, Nikolai P. Shestakov, Ivan V. Nemtsev, Vladimir S. Bondar, Ilya I. Ryzhkov The effect of copper and iron adsorption on the catalytic performance of alumina nanofiber / nanodiamond composite in sensing applications // Journal of Physics and Chemistry of Solids. — 2022. — Vol.167. — Art.110785. [WoS Q2] doi: 10.1016/j.jpcs.2022.110785
56. Maxim V. Pyatnov, Rashid G. Bikbaev, Ivan V. Timofeev, Ilya I. Ryzhkov, Stepan Ya. Vetrov, and Vasily F. Shabanov Broadband Tamm Plasmons in Chirped Photonic Crystals for Light-Induced Water Splitting // Nanomaterials. — 2022. — Vol.19, Iss.6. — Art.928. [WoS Q1] doi: 10.3390/nano12060928
57. Н. П. Фадеева, М. В. Павлов, И. А. Харченко, М. М. Симунин, К. А. Шабанова, В. Ф. Павлов, И. И. Рыжков High Strength Ceramic Substrates Based on Perlite and Foam Silicates for Filtration Membranes // Membranes and Membrane Technologies. — 2022. — Vol.4, Iss.3. — P.170–176. [WoS] doi: 10.1134/S2517751622030040
58. Morozov R. V., Nicheporchuk V. V., Mitykhin D. V. Prototype of urban transport passenger accounting system // Transportation Research Procedia. — 2022. — Vol.68. — P. 468–474. [WoS] doi: 10.1016/j.trpro.2023.02.063
59. Kalach A. V., Nicheporchuk V. V., Arifullin E. Z., Akulov A. Yu., Kulikova T. N. Systematization of the parameters of monitoring for situational modeling of response to emergency situations // Journal of Physics: Conference Series. — 2022. — Vol.1902. — Art.12072. [WoS] doi: 10.1088/1742–6596/1902/1/012072
60. Lapko A. V., Lapko V. A., Bakhtina A. V. Formation of Sets of Independent Components of a Multidimensional Random Variable Based on a Nonparametric Pattern Recognition Algorithm // Measurement Techniques. — 2021. — Vol.64, Iss.9. — P.689–696. [WoS] doi: 10.1007/s11018–022-01990-0
61. Lapko A. V., Lapko V. A., Bakhtina A. V. Study of the Method for Verification of the Hypothesis on Independence of Two-Dimensional Random Quantities Using a Nonparametric Classifier // Optoelectronics, Instrumentation and Data Processing. — 2021. — Vol.57, Iss.6. — P.639–648. [WoS] doi: 10.3103/S8756699021060078
62. Lapko A. V., Lapko V. A., Bakhtina A. V. Optimization of the kernel probability density estimation of a two-dimensional random variable with independent components // Measurement Techniques. — 2021. — Vol.64, Iss.12. — P.958–962. [WoS] doi: 10.1007/s11018–022-02029-0
63. Lapko A. V., Lapko V. A. Quick Selecting Kernel Blur Coefficients to Estimate Probability Density for Independent Random Variables // Optoelectronics, Instrumentation and Data Processing. — 2022. — Vol.58, Iss.1. — P.24-29. [WoS] doi: 10.3103/S8756699022010071
64. Lapko A. V., Lapko V. A. Estimation of a Nonlinear Functional of the Probability Density of a Three-Dimensional Random Variable to Improve the Computational Efficiency of Nonparametric Decision Rules // Optoelectronics, Instrumentation and Data Processing. — 2022. — Vol.58, Iss.2. — P.188–197. [WoS] doi: 10.3103/S8756699022020078
65. Lapko A. V., Lapko V. A., Bakhtina A. V. Application of a nonparametric pattern recognition algorithm to the problem of testing the hypothesis of the independence of variables of multi-valued functions // Measurement Techniques. — 2022. — Vol.65, Iss.1. — P.17-23. [WoS] doi: 10.1007/s11018–022-02043-2
66. Lapko A. V., Lapko V. A. An unconventional technique for choosing the kernel function blur coefficients in nonparametric regression // Measurement Techniques. — 2022. — Vol.65, Iss.2. — P.83-88. [WoS] doi: 10.1007/s11018–022-02053-0
67. A. Vyatkin, E. Kuchunova, and V. Shaydurov The conservative semi-Lagrangian approximation for three-dimensional convection-diffusion problem // AIP Conference Proceedings. — 2022. — Vol.2522. — Art.110010. [WoS] doi: 10.1063/5.0100835
68. A. Molyavko, I. Borovikov, E. Karepova and M. Sadovsky Efficient Clustering of Genetic Entities // 12th International Conference on Pattern Recognition Systems (ICPRS). — 2022. [WoS] doi: 10.1109/ICPRS54038.2022.9854064
69. E. D. Karepova, Yu. V. Shan'ko, I. R. Adaev Predictor-Corrector Mode for Symmetric Multistep Methods for the Numerical Modelling of Satellite Motion // AIP Conference Proceedings. — 2022. — Vol.2522. — Art.100006. [WoS] doi: 10.1063/5.0100843
70. Petrakova V., Krivorotko O. Mean field game for modeling of COVID-19 spread // Journal of Mathematical Analysis and Applications. — 2022. — Vol.514, Iss.1. — Art.126271. [WoS Q1] doi: 10.1016/j.jmaa.2022.126271
71. Petrakova V., Tsipotan A., Slabko V. The mathematical model of quantum dots pair orientation under laser radiation field // Computer optics. — 2022. — Vol.46, Iss.4. — P.555–560. [WoS] doi: 10.18287/2412–6179-CO-1062
72. Shaydurov V., Petrakova V., Lapin A. A Fokker-Planck Equation with a Fractional Derivative Along the Trajectory of Motion with Conservation Law // Lobachevkii Journal of Mathematics. — 2022. — Vol.43, Iss.4. — P.1043–1055. [WoS] doi: 10.1134/S1995080222070216
73. Kornienko V., Shaydurov V. Numerical solution of mean-field game problem with an external control // AIP Conference Proceedings. — 2022. — Vol.2522. — Art.100007. [WoS] doi: 10.1063/5.0100744
74. Shaydurov V., Kornienko V., Lapin A. A Fokker-Plank equation with a fractional derivative along the trajectory of motion with conservation law // AIP Conference Proceedings. — 2022. — Vol.2522. — Art.020002. [WoS] doi: 10.1063/5.0100817
75. Petrakova V., Shaydurov V. SIRV-D Optimal Control Model for COVID-19 Propagation Scenarios // Journal of Siberian Federal University. Mathematics & Physics. — 2023. — Vol.16, Iss.1. — P.1-11. [WoS]
76. Shaidurov V., Novikov A. Difference schemes for second-order ordinary differential equations with corrector and predictor properties // Russian Journal of Numerical Analysis and Mathematical Modelling. — 2022. — Vol.37, Iss.3. — P.175–187. [WoS Q3] doi: 10.1515/rnam-2022–0015
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