On mathematical models of COVID-19 pandemic
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Publication:6587454
DOI10.33048/semi.2023.20.075zbMATH Open1543.92057MaRDI QIDQ6587454
Olga Igorevna Krivorotko, Sergey I. Kabanikhin
Publication date: 14 August 2024
Published in: Sibirskie Elektronnye Matematicheskie Izvestiya (Search for Journal in Brave)
inverse problemsforecastingepidemiologymean field gamesSIRagent-based modelsCOVID-19time-series models
Time series, auto-correlation, regression, etc. in statistics (GARCH) (62M10) Epidemiology (92D30) Mean field games (aspects of game theory) (91A16)
Cites Work
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- Tensor-Train Decomposition
- Random migration processes between two stochastic epidemic centers
- Continuous time finite state mean field games
- A two-stage model for the SIR outbreak: accounting for the discrete and stochastic nature of the epidemic at the initial contamination stage
- Global optimal vaccination in the SIR model: properties of the value function and application to cost-effectiveness analysis
- A maximum principle for SDEs of mean-field type
- Tensor based approach to the numerical treatment of the parameter estimation problems in mathematical immunology
- Numerical-statistical and analytical study of asymptotics for the average multiplication particle flow in a random medium
- Mean-field backward stochastic differential equations: A limit approach
- Identification of biological models described by systems of nonlinear differential equations
- Iterative regularization methods for nonlinear ill-posed problems
- Existence and stability of stationary solutions to spatially extended autocatalytic and hypercyclic systems under global regulation and with nonlinear growth rates
- Mean field games
- Anonymous sequential games
- A contribution to the mathematical theory of epidemics.
- The application of mathematics to medical problems.
- A time delay dynamical model for outbreak of 2019-nCov and the parameter identification
- On the connection between symmetric \(N\)-player games and mean field games
- Mathematical modeling of COVID-19 transmission dynamics with a case study of Wuhan
- Logistic equation and COVID-19
- Mean field control problems for vaccine distribution
- Diffusion-reaction compartmental models formulated in a continuum mechanics framework: application to COVID-19, mathematical analysis, and numerical study
- COVID-19: data-driven mean-field-type game perspective
- The SIRC model and influenza A
- HIV dynamics: Modeling, data analysis, and optimal treatment protocols
- The wave of advance of advantageous genes.
- Numerically statistical investigation of the partly super-exponential growth rate in the COVID-19 pandemic (throughout the world)
- Global and local optimization in identification of parabolic systems
- Mean field game for modeling of COVID-19 spread
- Finite Difference Methods for Mean Field Games
- Probabilistic Analysis of Mean-Field Games
- Dynamic models of segregation†
- A Short History of Mathematical Population Dynamics
- On Identifiability of Nonlinear ODE Models and Applications in Viral Dynamics
- Definitions and examples of inverse and ill-posed problems
- Further Notes on the Basic Reproduction Number
- Adaptive Holt-Winters Forecasting
- Analysis of a Reaction-Diffusion System Modeling Man--Environment--Man Epidemics
- Sensitivity analysis and practical identifiability of some mathematical models in biology
- Evidence that coronavirus superspreading is fat-tailed
- Controlling Propagation of Epidemics via Mean-Field Control
- Mean Field Games and Mean Field Type Control Theory
- The Logic of Animal Conflict
- Mean Field Games: Numerical Methods
- Singular value decomposition in an inverse source problem
- Mean field games based on stable-like processes
- PROJECTIVE STRUCTURES, FLAT BUNDLES, AND KÄHLER METRICS ON MODULI SPACES
- Fluctuations in the abundance of a species considered mathematically.
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