|
Theoretical analysis of cloaking problem for 3D model of heat conduction
G. V. Alekseev
|
143–149 |
|
|
A mathematical model of within-host COVID-19 dynamics
D. V. Alekseev, A. V. Galatenko, V. V. Galatenko, S. A. Nersisyan, V. M. Staroverov
|
150–151 |
|
|
Model predictive control of dynamic systems with mixed uncertainty and its application to supply chain management
E. V. Chausova
|
152–157 |
|
|
Penalty method to solve an optimal control problem for a quasilinear parabolic equation
A. Yu. Chebotarev, N. M. Park, P. R. Mesenev, A. E. Kovtanyuk
|
158–163 |
|
|
Evaluation of the boiled water mass fraction during its heating by a laser heating element
V. M. Chudnovskii, M. A. Guzev
|
164–166 |
|
|
Numerical simulation of the heat transfer process in biological tissues during laser heating
E. P. Dats
|
167–169 |
|
|
Modeling and simulation of cerebral blood flow autoregulation considered as an output regulation control problem
A. E. Golubev
|
170–175 |
|
|
Artificial intelligence in medicine. What technologies will improve the quality of solutions?
V. V. Gribova, E. A. Shalfeeva
|
176–178 |
|
|
Investigation of the efficiency of graph data representation for a cardiovascular disease predictive model by deep learning methods
L. S. Grishina, A. Yu. Zhigalov, I. P. Bolodurina, E. L. Borshhuk, D. N. Begun, Yu. V. Varennikova
|
179–184 |
|
|
Numerical study of the solid walls effect on the velocity of a liquid jet formed as the result of vapor bubble collapse near a rod
V. A. Kosyakov, A. D. Zakharov, R. V. Fursenko
|
185–189 |
|
|
Predicting subdifferential switching surface in a steady-state complex heat transfer problem using deep learning
K. S. Kuznetsov, E. V. Amosova
|
190–194 |
|
|
Numerical solution of shielding problem for 3D model of electrostatics in the presence of anisotropic layer
A. V. Lobanov
|
195–200 |
|
|
Inverse problem of recovering the electron diffusion coefficient
N. N. Maksimova, R. V. Brizitskii
|
201–206 |
|
|
Time-fractional numerical modelling applied to diffusion-wave processes of bacterial biomass growth
L. I. Moroz
|
207–212 |
|
|
Mathematical modeling of the evolutionary dynamics of plankton community
G. P. Neverova, O. L. Zhdanova
|
213–217 |
|
|
Numerical methods for systems of diffusion and superdiffusion equations with Neumann boundary conditions and with delay
V. G. Pimenov, A. B. Lozhnikov, M. Ibrahim
|
218–224 |
|
|
Influence of weighted function exponent in WFEM on error of solution for hydrodynamic problems with singularity
A. V. Rukavishnikov
|
225–231 |
|
|
2D reaction-diffusion model of quorum sensing characteristics during all phases of bacterial growth
Y. Shuai, A. G. Maslovskaya, C. Kuttler
|
232–237 |
|
|
Computer design of cylindrical cloaking shell for the magnetostatics model
Yu. E. Spivak
|
238–244 |
|
|
Efficient Parareal algorithm for solving time-fractional diffusion equation
M. A. Sultanov, V. E. Misilov, Y. Nurlanuly
|
245–251 |
|
|
Numerical simulation of the submerged hot jet propagation in a bounded domain with obstacles
D. A. Tereshko, A. P. Kudryashov
|
252–254 |
|
|
Using 2D/3D convolutional neural networks and direct numerical modeling for transcranial ultrasound problems
A. V. Vasyukov, A. S. Stankevich, K. A. Beklemysheva, I. B. Petrov
|
255–256 |
|
|
Analysis and computer implementation of the mathematical model of $180^{^\circ}$ domain structures formation in ferroelectrics
E. M. Veselova
|
257–262 |
|
|
On the problem of determining the scattering coefficient in frequency modulated sounding of a medium
P. A. Vornovskikh, E. V. Ermolaev, I. V. Prokhorov
|
263–268 |
|
|
An extrapolation method for improving the linearity of CT-values in X-ray pulsed tomography
I. P. Yarovenko, I. G. Kazantsev
|
269–275 |
Обратная связь: