THE GOVERNMENT, INDUSTRY, LOGISTICS, INNOVATIONS, AND INTELLECTUAL MOBILITY IN THE DIGITAL ECONOMYy

  • Василий Павлович Куприяновский National Competence Center for Digital Economy
  • Сергей Николаевич Евтушенко Government of the Russian Federation
  • Олег Николаевич Дунаев The Russian Union of Industrialists and Entrepreneurs
  • Галина Викторовна Бубнова Moscow State University of Railway Engeneering (MIIT)
  • Владимир Иванович Дрожжинов National Competence Center for Digital Economy
  • Дмитрий Евгеньевич Намиот Lomonosov Moscow State University http://orcid.org/0000-0002-4463-1678
  • Сергей Анатольевич Синягов National Competence Center for Digital Economy

Abstract

Highly developed and modern transport and logistics systems are today’s key factors in the country's economic competitiveness. Roads, railways, inland waterways system, seaports, and airports contribute to the unification of different regions of the country, population centers and employment, as well as to international exchanges. Maintaining and improving efficient and effective transport and logistics infrastructures for the movement of people and goods continue to be the most important moments in today's national and global markets. This becomes especially important given the projected population growth and the inevitable drastic changes in the industry, energy (especially in the oil and gas sectors), and agricultural production. The movement of goods and the component of production between their producers, the growth of urban logistics, international supply chains, and logistics are already the place of a junction of such phenomena as the digital economy and new industries. It is necessary to say that in each final product, logistics ranges from 10% to 20%. The logistics costs vary greatly and can be a negligible component for purely digital products sent over the Internet, or up to 60%, for example, for oil. This article discusses logistics and mobility in the digital economy.

Author Biographies

Василий Павлович Куприяновский, National Competence Center for Digital Economy

Deputy Director of the National Competence Center for Digital Economy, Lomonosov Moscow State University

Сергей Николаевич Евтушенко, Government of the Russian Federation

Head of the Working Group on the establishment and development of the national segment of the Russian Federation, international information systems development of the digital economy, Active State Advisor of the Russian Federation

Олег Николаевич Дунаев, The Russian Union of Industrialists and Entrepreneurs

Vice-Chairman of the RSPP International Cooperation

Галина Викторовна Бубнова, Moscow State University of Railway Engeneering (MIIT)

Doctor of Economics, Professor, Head the Department of Economics, organization and management of production

Владимир Иванович Дрожжинов, National Competence Center for Digital Economy

Candidate of Physical and Mathematical Sciences, Lomonosov Moscow State University

Дмитрий Евгеньевич Намиот, Lomonosov Moscow State University

Candidate of Physical and Mathematical Sciences, Senior Researcher, the Laboratory of Open Information Technologies, Faculty of Computational Mathematics and Cybernetics

Сергей Анатольевич Синягов, National Competence Center for Digital Economy

Lomonosov Moscow State University

References

1. Application of digital technologies to innovation in manufacturing. FINAL REPORT | 23 SEPTEMBER 2016. Institute for Manufacturing. Education and Consultancy Services Limited, University of Cambridge.
2. HIGH VALUE MANUFACTURING LANDSCAPE 2016. INTERIM REPOR.Institute for Manufacturing. Education and Consultancy Services Limited, University of Cambridge.
3. A Science and Innovation Audit report sponsored by the Department for Business, Energy & Industrial Strategy Driving productivity growth through innovation in high value manufacturing October 2016.
4. WEF 2017 https://www.weforum.org/agenda/2017/01/designing-iinnovation-policies-in-emerging-economies Retrieved: Mar, 2017.
5. From Industry 4.0 to Digitising Manufacturing. An End User Perspective Conference Report .Manufacturing Technology Centre. 2016.
6. CAPTURING VALUE FROM GLOBAL NETWORKS.Strategic approaches to configuring international.production, supply and service operations.Institute for Manufacturing – Education and Consultancy Services Limited, University of Cambridge. 2014
7. Towards a sustainable industrial system. With recommendations for education, research, industry and policy.Institute for Manufacturing – Education and Consultancy Services Limited, University of Cambridge. 2008.
8. Alliance Industrie du Futur: Hadrien Szigeti, Dassault Systèmes – Jean Sreng, CEA Tech LIST – Sara Tucci-Piergiovanni, CEA.Plattform Industrie 4.0 2016. Federal Ministry for Economic Affairs and Energy (BMWi) Public Relations.
9. Acatech STUDY Industrie 4.0 in a Global Context .Strategies for Cooperating with International Partners. Henning Kagermann, Reiner Anderl, Jürgen Gausemeier, Günther Schuh, Wolfgang Wahlster (Eds.). 2016.
10. Acatech STUDY Industrie 4.0 International Benchmark, Options for the Future and Recommendations for Manufacturing Research. 2016.
11. Digitization of Industrie – Plattform Industrie 4.0 . PROGRESS REPORT. APRIL 2016. Federal Ministry for Economic Affairs and Energy (BMWi) Public Relations.
12. Building our Industrial Strategy. Green Paper. January 2017. HM Government.
13. Strengthening UK manufacturing supply chains. An action plan for government and industry. BIS. Crown copyright 2015.
14. Interaction Model for Industrie 4.0 Components.Plattform Industrie 4.0 2016. Federal Ministry for Economic Affairs and Energy (BMWi) Public Relations.
15. Technical Overview: Secure cross-company communication.Plattform Industrie 4.0 2016. Federal Ministry for Economic Affairs and Energy (BMWi) Public Relations.
16. Network-based Communication for Industrie 4.0 – Proposal for an Administration Shell.Plattform Industrie 4.0 2016. Federal Ministry for Economic Affairs and Energy (BMWi) Public Relations.
17. Tech LIST – Eric Truffet, JCE StrasbourgAlliance Industrie du Futur: Hadrien Szigeti, Dassault Systèmes.
18. Kupriyanovsky V. P. et al. Economics of innovations for digital railways. Experience in the UK //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 3. – S. 79-99.
19. Kuprijanovskij V. P. i dr. Novaja paradigma cifrovoj zheleznoj dorogi-standartizacija zhiznennogo cikla aktivov //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 2. – S. 64-84.
20. Kuprijanovskij V. P. i dr. Informacionnye tehnologii v sisteme universitetov, nauki i innovacii v cifrovoj jekonomike na primere Velikobritanii //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 4. –S.30-39
21. Ukaz Prezidenta Rossijskoj Federacii «O Strategii nauchno-tehnologicheskogo razvitija Rossijskoj Federacii « ot 1 dekabrja 2016 goda # 642.
22. Kuprijanovskij V. P. i dr. Optimizacija ispol'zovanija resursov v cifrovoj jekonomike //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 12. – S.86-96.
23. Kuprijanovskij V. P., Namiot D. E., Sinjagov S. A. Kiber-fizicheskie sistemy kak osnova cifrovoj jekonomiki //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 2. – S.18-25.
24. Kuprijanovskij V. P. i dr. Internet Veshhej na promyshlennyh predprijatijah //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 12. – S.69-78.
25. Kupriyanovsky V. et al. Industries transformation in the digital economy–the ecosystem and life cycle //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 1. – S. 34-49.
26. Kuprijanovskij V. P. i dr. Transformacija promyshlennosti v cifrovoj jekonomike-proektirovanie i proizvodstvo //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 1. – S. 50-70.
27. Kuprijanovskij V. P. i dr. Intellektual'naja mobil'nost' v cifrovoj jekonomike //International Journal of Open Information Technologies. – 2017. – T. 5. – #. 2. – S. 46-63.
28. Technology and Innovation Futures 2017 .Crown copyright 2017
29. An Introduction to Corporate Foresight. ARUP 2017
30. Internet of Things Applications For Dummies®, Qorvo Special Edition Published by John Wiley & Sons, Inc.2017
31. Internet of Things For Dummies®, Qorvo Special Edition Published by John Wiley & Sons, Inc.2017
32. National Academies of Sciences, Engineering, and Medicine. 2016. Advancing the discipline of regulatory science for medical product development: An update on progress and a forward-looking agenda: Workshop summary. Washington, DC: The National Academies Press. doi: 10.17226/23438.
33. IOM (Institute of Medicine) and NRC (National Research Council). 2014. Technologies to enable autonomous detection for BioWatch: Ensuring timely and accurate information for public health officials: Workshop summary. Washington, DC:The National Academies Press.
34. IEC-SEG7 Task Team3 Note on Architecture and models Youichi NONAKA Team Leader Hitachi Ltd. 2017/02/03
35. NIST GCR 16-007 Economic Analysis of Technology Infrastructure Needs for Advanced Manufacturing Smart Manufacturing. August 2016
36. NISTIR 8059 Materials Testing Standards for Additive Manufacturing of Polymer Materials: State of the Art and Standards Applicability Aaron M. Forster Materials and Structural Systems Division Engineering Laboratory This publication is available free of charge from: http://dx.doi.org/10.6028/NIST.IR.8059 May 2015
37. IEC-SEG7 Task Team3 Note on Architecture and models Youichi NONAKA Team Leader Hitachi Ltd. 2017/02/03
38. ENGINEERING & MANUFACTURING 2025+ BUILDING THE WORLD A DHL perspective on future Engineering & Manufacturing Supply Chains 2015
39. 3D PRINTING AND THE FUTURE OF SUPPLY CHAINS A DHL perspective on the state of 3D printing and implications for logistics November 2016
40. Big Data in Materials Research and Development: Summary of a Workshop .Copyright 2014 by the National Academy of Sciences.
41. Brian Underdahl Enterprise Mobility For Dummies, Oracle 2nd Edition 2016 by John Wiley & Sons, Inc., Hoboken, New Jersey
42. ROBOTICS IN LOGISTICS. A DPDHL perspective on implications and use cases for the logistics industry. DHL March 2016
43. Evaluating Alternatives for Landside Transport of Ocean Containers The Tioga Group, Inc. Philadelphia, PA CDM Smith Cambridge, MA Richard G. Little Pinehurst, NC.2015 National Academy of Sciences.
44. Multi-State, Multimodal, Oversize/Overweight Transportation CPCS Washington, DC in association with Perkins Motor Transport, Inc. Northfield, MN and Portscape, Inc. Lexington, MA. National Academy of Sciences 2016
45. A National Training and Certification Program for Transit Vehicle Maintenance Instructors Transportation Learning Center Silver Spring, MD with Educational Data Systems, Inc. Dearborn, MI National Academy of Sciences 2015.
46. Kuprijanovskij V. P. i dr. Novaja pjatiletka BIM–infrastruktura i umnye goroda //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 8. – S. 20-35.
47. Kuprijanovskij V. P. i dr. Internet cifrovoj zheleznoj dorogi //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 12. – S. 53-68.
48. Jarcev D. I. i dr. Jekonomika standartizacii v cifrovuju jepohu i informacionno-kommunikacionnye tehnologii na primere Britanskogo instituta standartov //International Journal of Open Information Technologies. – 2016. – T. 4. – #. 6. – S. 1-9.
Published
2017-05-30
How to Cite
КУПРИЯНОВСКИЙ, Василий Павлович et al. THE GOVERNMENT, INDUSTRY, LOGISTICS, INNOVATIONS, AND INTELLECTUAL MOBILITY IN THE DIGITAL ECONOMYy. Modern Information Technologies and IT-Education, [S.l.], v. 13, n. 1, p. 74-96, may 2017. ISSN 2411-1473. Available at: <http://sitito.cs.msu.ru/index.php/SITITO/article/view/184>. Date accessed: 16 sep. 2025. doi: https://doi.org/10.25559/SITITO.2017.1.396.
Section
Cognitive information technologies in the digital economics

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