Zakharov Viktor Vasil'evich

Publications in Math-Net.Ru

1. Population forecasting and dynamic games against nature
   
   Mat. Teor. Igr Pril., 16:1 (2024),  44–60
2. Integral inflow and outflow model and its applications
   
   Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 20:2 (2024),  121–135
3. Dependent retailers’ demand in game theoretic model of supply chain
   
   Contributions to Game Theory and Management, 16 (2023),  99–109
4. Principle of dynamic balance of demographic process and the limits of World population growth
   
   Dokl. RAN. Math. Inf. Proc. Upr., 513 (2023),  108–114
5. Two epidemic models of malaria and their practical applications
   
   Mat. Teor. Igr Pril., 15:2 (2023),  33–52
6. Balance model of COVID-19 epidemic based on percentage growth rate
   
   Informatics and Automation, 20:5 (2021),  1034–1064
7. Predicting the dynamics of the coronavirus (COVID-19) epidemic based on the case-based reasoning approach
   
   Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 16:3 (2020),  249–259
8. Dynamic adaptation of genetic algorithm for the large-scale routing problems
   
   UBS, 73 (2018),  108–133
9. Game-theoretic approach for modeling of selfish and group routing
   
   Contributions to Game Theory and Management, 10 (2017),  162–174
10. On the existence of IDP-core in cooperative differential games
    
    Mat. Teor. Igr Pril., 9:4 (2017),  18–38
11. Competitive green vehicles assignment in transportation network
    
    UBS, 55 (2015),  185–223
12. Multi-period cooperative vehicle routing games
    
    Contributions to Game Theory and Management, 7 (2014),  349–359
13. The Nash equilibrium in multy-product inventory model
    
    Contributions to Game Theory and Management, 7 (2014),  191–200
14. Competitive routing of traffic navigation systems
    
    UBS, 49 (2014),  129–147
15. Traffic flows' system equilibrium in megapolis and navigators' strategies: game theory approach
    
    Mat. Teor. Igr Pril., 4:4 (2012),  23–44
16. Stable cooperation in dynamic VRP
    
    Mat. Teor. Igr Pril., 4:2 (2012),  39–56
17. Game Theory Approach for Supply Chains Optimization
    
    Contributions to Game Theory and Management, 4 (2011),  188–198
18. Game theory approach for supply chains optimization in case of deterministic demand
    
    Mat. Teor. Igr Pril., 3:1 (2011),  23–59
19. Data transmissions with information leakage
    
    Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2011, no. 2,  40–54
20. A method for estimating the core of root game
    
    Mat. Teor. Igr Pril., 2:1 (2010),  3–26
21. A method for estimating the core of root game
    
    UBS, 31.1 (2010),  5–29
22. Dynamic Regularization of Self-Enforcing International Environmental Agreement in the Game of Heterogeneous Players
    
    Contributions to Game Theory and Management, 1 (2007),  68–91


23. V. F. Demianov
    
    Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2014, no. 2,  154–156