Kuznetsov M.E., Nikishova M.I. (2023). Methodology for assessing scenarios of tourism industry development in Kamchatka krai on the basis of digital twin technology. Economic and Social Changes: Facts, Trends, Forecast, 16(1), 103–121. DOI: 10.15838/esc.2023.1.85.6
Azrapkin A.I. (2022). Using simulation modeling for assessing socio-economic attractiveness. Informatsionnye sistemy i tekhnologii=Information Systems and Technologies, 2(130), 83–91 (in Russian).
Belinha J., Jorge R., Dinis L. (2009). Analysis of 3D solids using the natural neighbour radial point interpolation method. Computer Modeling in Engineering & Sciences, 44(1), 1–34. DOI:10.3970/cmes.2009.044.001
Bolton R.N. et al. (2018). Customer experience challenges: Bringing together digital, physical and social realms. Journal of Service Management. 29(5), 776–808.
Boschert S., Rosen R. (2016). Digital Twin – the simulation aspect. In: Hehenberger P., Bradley D. (Eds.). Mechatronic Futures.
Coronado P.D.U., Lynn R., Louhichi W., Parto M., Wescoat E., Kurfess T. (2018). Part data integration in the Shop Floor Digital Twin: Mobile and cloud technologies to enable a manufacturing execution system. Journal of Manufacturing Systems, 48, 25–33.
Forrester J.W. (1958). Industrial dynamics: A major breakthrough for decision makers. Harvard Business Review, 36(4), 37–66.
Glaessgen E., Stargel D. (2012). The Digital Twin Paradigm for future NASA and U.S. Air Force vehicles. In: AIAA/ASME/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials. American Institute of Aeronautics and Astronautics.
Gorelova G.V. (2020). Statement the problem of simulation of decision-making processes in complex organizational-technical systems. Izvestiya YuFU. Tekhnicheskie nauki=Izvestiya SFedU. Engineering Sciences, (211), 134–144 (in Russian).
Grieves M. (2005). Product lifecycle management: The new paradigm for enterprises. Int. J. Product Development, 2(1/2), 71–84.
Grieves M. (2016). Origins of the Digital Twin Concept. Working Paper. DOI:10.13140/RG.2.2.26367.61609
Grieves M., Vickers J. (2017). Digital twin: Mitigating unpredictable, undesirable emergent behavior in complex systems. In: Kahlen F.J., Flumerfelt S., Alves A. (Eds). Transdisciplinary Perspectives on Complex Systems. Cham: Springer.
Hribernik K.A., Rabe L., Thoben K.D., Schumacher J. (2006). The product avatar as a product-instance-centric information management concept. Int. J. Prod. Lifecycle Manag., 1(4), 367.
Katalevskii D.Yu., Suslov S.A. (2022). Simulation modeling in complex project management. Ploblemy teorii i practiki uptavlenia=International Journal of Management Theory and Practice, 2, 101–115 (in Russian).
Kritzinger W., Karner M., Traar G., Henjes J., Sihn W. (2018). Digital Twin in manufacturing: A categorical literature review and classification. IFAC-Papers OnLine, 51(11), 1016–1022.
Lawson D., Marion G. (2008). An Introduction to Mathematical Modelling. Bioinformatics and Statistics Scotland Given. DOI:10.5860/choice.32-5134
Lee J., Bagheri B., Kao H.A. (2015). A cyber-physical systems architecture for industry 4.0-based manufacturing systems. Manufacturing Letters, 3, 18–23.
Meadows D.H., Randers J., Meadows D.L. (2005). Limits to Growth: The 30-Year Update. London: Earthscan.
Mittal S., Khan M.A., Romero D., Wuest T. (2019). Smart manufacturing: Characteristics, technologies and enabling factors. Proc. of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 233(5), 1342–1361. DOI: 10.1177/0954405417736547
Molodetskaya S.F. (2020). Development of decision support methods under uncertainty. Voprosy upravleniya=Management Issues, 4(65), 102–114 (in Russian).
Novysh B.V., Yurcha I.A. (2020). Simulation model for assessing the economic potential of regions. Ekonomika. Upravlenie. Innovatsii=Economics. Management. Innovations, 7(1), 88–94 (in Russian).
Olenev N.N. (2008). Dinamicheskaya balansovaya model’ regional’noi ekonomiki. Materialy IV mezhdunarodnoi nauchnoi konferentsii “Innovatsionnoe razvitie i ekonomicheskii rost” [Dynamic Balance Model of Regional Economy. Proceedings of the 4th International Scientific Conference “Innovative Development and Economic Growth”]. Moscow: RUDN.
Prokhorov A., Lysachev M. (2020). Tsifrovoi dvoinik. Analiz, trendy, mirovoi opyt [Digital Twin. Analysis, Trends, World Experience]. Moscow: AlyansPrint.
Saddik A. (2018) Digital twins: The convergence of multimedia technologies. IEEE MultiMedia, 25(2), 87–92. DOI:10.1109/MMUL.2018.023121167
Savostyanov D.A. (2021). Applying system dynamics to analyze the social and economic benefits of infrastructural projects. Vestnik SamGUPS, 1(51), 36–46 (in Russian).
Shafto M., Conroy M., Doyle R. et al. (2010). Modeling, simulation, information technology and processing roadmap. Technology Area, 11. Available at: https://www.nasa.gov/pdf/501321main_TA11-MSITP-DRAFT-Nov2010-A1.pdf
Shpak P.S., Sycheva E.G., Merinskaya E.E. (2020). The concept of digital twins as a modern trend of digital economy. Vestnik Omskogo universiteta. Seriya “Ekonomika”=Herald of Omsk University. Series “Economics”, 1, 57–68 (in Russian).
Söderberg R. et al. (2017). Toward a Digital Twin for real-time geometry assurance in individualized production. CIRP Annals, 66(1), 137–140.
Tao F. et al. (2018). Digital twin-driven product design framework. International Journal of Production Research, 57(1), 1–19. DOI:10.1080/00207543.2018.1443229