Modeling principles of the digital infrastructure of it services in sustainable low carbon transport systems

  • Abstract
  • Keywords
  • References
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  • Abstract

    The principles of adaptive management of sustainable low carbon transport systems (SCTS) are developed based on the interaction of intellectual and Internet technologies, which ensure the effectiveness of core elements of the system throughout the life cycle of digital infrastructure and IT services. The technologies of proactive (anticipatory) management are accompanied by targeted procedures for reconfiguring the structures of transport system, and provide a comprehensive forecast of the system's behavior and increase its efficiency on the basis of a large array of digital data. The 4D model of SCTS transformation into the digital environment is developed, which allows integrate the most important modules of the transport system, ensuring highly efficient interaction of various objects in the interest of customers.



  • Keywords

    Adaptive Management; Architecture; Digital Infrastructure; IT Service; Lifecycle; Low Carbon Transport System.

  • References

      [1] Mirotin L.B., Nekrasov A.G., Gudkov V.A., 2013. Increase in the efficiency of freight transportations on the basis of the creation of a stable transport-logistical system of a modular type for high-speed handling and delivery of goods, Moscow: Tehpoligratsentr, рр: 232.

      [2] Nikolaoshin V.M, Zudilin N.A, Sinitsyna A.S., 2011. Service in transport: training. Allowance for stud. Institutions of higher education. Prof. Education. - 4 th. ed., Moscow: The publishing center «Academy», рр: 304.

      [3] Transport Strategy of the Russian Federation for the period until 2030, approved by the Government of the Russian Federation of November 22, 2008 N 1734-r, as amended. Order of the Government of the Russian Federation No. 1032-r of 11.06.2014. Date Views 03.03.2017.

      [4] Eliseev S.Yu., Nikolashin V.М., Sinitsyna A.S., 2013. Logistic management of freight transport and terminal-warehouse activities: a textbook, Moscow: FGBOU «Educational and Methodological Center for Education in Railway Transport», рр: 428

      [5] Nekrasov A.G., Sinitsyna A.S., 2016. Logistic engineering as a tool for integrating logistics systems. Journal Logistics, 12: 40-45.

      [6] Kupriyanovsky V.P., Kupriyanovskaya Yu.V., Sinyagov S.A., Dobrynin A.P., Chernykh K.Yu. 2016. Digital economy - various ways to the effective application of technology (BIM, PLM, CAD, IOT, Smart City, BIG DATA and others). Journal International Journal of Open Information Technologies, Vol. 4, 1: 4-12.

      [7] Kupriyanovsky V.P., Namiot D.E., Drozhzhinov V.I., Kupriyanovskaya Yu.V., Ivanov M.O. 2016. Internet Things in industrial enterprises. International Journal of Open Information Technologies,Vol. 4, 12: 69-78.

      [8] Kupriyanovsky V.P., Namiot D.E., Sinyagov S.A. 2016. Cyber-physical systems as the basis of the digital economy. International Journal of Open Information Technologies. Vol. 4, 2: 19-25.

      [9] INDUSTRIE 4.0 - smart production of the future (State Hi Tech Strategy 2020, Germany). Date Views 06.02.2018.

      [10] Sokolov B.V., Ptushkin A.I. 2010. Analytical review «The state of research on the problem of managing the life cycle of artificially created objects». Grant of the RFBR №09-07-11004-ano. SPb.: SPIIRAN. pp: 56.

      [11] In Chalcis, the program «smart city» starts. - Date Views 03.03.2017.

      [12] Sokolov B.V., Nekrasov A.G., Mirotin L.B. 2011. Development and implementation of methodology and techniques for joint multi-criteria synthesis and adaptive management of the creation, application and development of functionally stable integrated transport-logistics and information systems of a new generation. Journal Vestnik transporta, 6: 25-30.

      [13] Okhtilev M.Yu., Sokolov B.V., Yusupov R.M. 2006. Intellectual technologies for monitoring and managing the structural dynamics of complex technical objects. Moscow: Science. pp: 410.

      [14] Sokolov B.V., Yusupov R.M., 2008. Neo-cybernetics-opportunities and prospects for development. Report at the general plenary session of the fifth scientific conference «Management and Information Technologies» (UIT-2008). Russia. - St. Petersburg. pp10.

      [15] Bir S., 2007. Brain firm. Moscow: URSS. pp: 350.

      [16] Kupriyanovsky V.P., Dobrynin A.P., Sinyagov S.A., Namiot D.E., 2017. A holistic model of transformation in the digital economy - how to become digital leaders. Journal International Journal of Open Information Technologies, ISSN: 2307-8162. vol.5, p.1: 26-33.

      [17] Nekrasov A.G., Sinitsyna A.S., 2017. Transformation of integrated transport and logistics systems into the digital industry. Journal Logistics. Eight: 36-41.

      [18] Vont R., Pering E., Tennenhau D., 2003. Adaptive and proactive computer systems. Journal Open Systems. 7: 4-9.

      [19] Yusupov R.M., Sokolov B.V., 2006. Problems of the development of cybernetics and computer science at the present stage. SPb.: Publishing House of SPbSPU, pp. 6-21.

      [20] IT service management. Introduction. itSMF., 2003, pp: 227.

      [21] Nekrasov A.G., Ataev K.I., Nekrasova M.A., 2011. Managing the processes of security and risk in supply chains: educational-methodical. Allowance. Moscow: Publishing house «Tehpoligratsentr», pp: 120.

      [22] Trofimenko Yu.V., Nekrasov A.G., 2016. Methodological issues of Ensuring Operational Sustainability and Logistics Systems. Science Journal of Transportation. ISSN 2410-9088. Especial lssue No. 07 International cooperation Journals MADI-SWJTU-UTC. Moscow-Chengdu-Hanoi. pp: 23-28.




Article ID: 13216
DOI: 10.14419/ijet.v7i2.28.13216

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