THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology

THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology

THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology

THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology

THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology
THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0. - Problems of Information Technology
AZERBAIJAN NATIONAL ACADEMY OF SCIENCES

№2, 2020

THE ROLE OF CYBER-PHYSICAL SYSTEMS IN INDUSTRY 4.0.

Irada Y. Alakbarova

As a result of improved computer and network technologies, social networks, mobile devices, tracking and surveillance devices are rapidly expanding into our daily lives, generating big data in real time. Today, the physical and virtual environments are closely intertwined and interactive. This situation has led to the emergence of special systems - cyber-physical systems (CPS), which allow physical systems that work in the real world to interact with cyber systems. Concepts such as the Internet of things, big data, artificial intelligence, and cloud computing, including CPS, led to the 4th Industrial Revolution (Industry 4.0). CPS has a special place in Industry 4.0. The article discusses the nature, trends and stages of the development of the CPS concept, analyzes the relationships between the CPS and the Internet of things, a smart city and an artificial society. The role, prospects and problems of CPS in Industry 4.0 are determined. Proposals are developed for the effective use of Cyber-Physical Social Systems (CPSS) for the formation of e-government and socio-economic development of the country (pp.91-101).

Keywords: cyber-environment, physical systems, Industry 4.0, cyber-physical systems, Internet of things, smart city, artificial society, cyber-physical social systems.
DOI : 10.25045/jpit.v11.i2.09
References
  • Pisching M.A., Diolin F.J., Filho J.S., Miyagi P.E. Service composition in the cloud-based manufacturing focused on the Industry 4.0 / Proceedings of the IFIP Advances in International and Communication Technology, 2015, pp.65–72.
  • Frazzona E.M., Hartmannb J., Makuschewitzb T., Scholz-Reiterc B. Towards Socio-Cyber-Physical Systems in Production Networks / Proceedings of the Forty Sixth CIRP Conference on Manufacturing Systems, 2013, pp.49–54.
  • Guo W., Zhang Y., Li L. The integration of CPS, CPSS, and ITS: A focus on data // Tsinghua Science and Technology, 2015, vol.20, no.4, pp.327–335.
  • Sztipanovits J., Koutsoukos X., Karsai G., Kottenstette N., Antsaklis P., Gupta V., Goodwine B., Baras J., Shige W. Toward a Science of Cyber-Physical System Integration / Proceedings of the IEEE, 2012, 100:29–44.
  • Navickas V., Kuznetsova S.A., Gruzauskas V. Cyber–physical systems expression in industry 4.0 context // Financial and credit activity: problems of theory and practice, 2017, vol.2, no.23. http://fkd.org.ua/article/view/121475/0
  • Greer Ch., Burns M., Wollman D., Griffor E. Cyber-Physical Systems and Internet of Things, National Institute of Standards and Technology Special Publication 1900-202, 2019, 61p. https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.1900-202.pdf
  • Lee E.A. Cyber-Physical Systems – Are Computing Foundations Adequate? Position Paper. NSF Workshop on Cyber-Physical Systems: Research Motivation, Techniques and Roadmap, 2006.
  • Rajkumar R. A Cyber-Physical Future / Proceedings of the IEEE, vol.100, Special Centennial Issue, May 13, 2012, pp.1309–1312.
  • Kwei-Jay L., Panahi M. A real-time service-oriented framework to support sustainable cyber-physical systems / Proceedings of the 8th IEEE International Conference on Industrial Informatics, 2010, pp.15–21.
  • Woochul K., Kapitanova K., Sang Hyuk S. RDDS: A Real-Time Data Distribution Service for Cyber-Physical Systems / IEEE Transactions on Industrial Informatics, 2012, vol.8, no.2, pp.393–405.
  • Monostori L. Cyber–physical Production Systems: Roots, Expectations and R&D Challenges // Procedia CIRP, 2014, vol.17, pp.9–13.
  • Pisching M., Junqueira F., Santos Filho D., Miyagi P.E. An architecture for organizing and locating services to the Industry 4.0 / Proceedings of the 23rd ABCM International Congress of Mechanical Engineering, Rio de Janeiro, Brasil, 6-11 december 2015, https://www.researchgate.net/publication/289248543_an_architecture_for_organizing_and_locating_services_to_the_industry_40
  • Derler P., Lee E.A., Vincentelli A.S. Modeling Cyber-Physical Systems / Proceedings of the IEEE, 2012, vol.100, pp.13–28.
  • Ashton K. That ‘Internet of Things’ Thing // RFID, 2009, https://www.rfidjournal.com/articles/pdf?4986
  • ITU-T Recommendations, https://www.itu.int/ITU-T/recommendations/rec.aspx?rec=y.2060.
  • Ibarra-Esquer J, González-Navarro F, Flores-Rios B, Burtseva L, Astorga-Vargas M. Tracking the Evolution of the Internet of Things Concept Across Different Application Domains // Sensors, 2017, vol.17, no.6, pp.1379.
  • CassandrasG. Smart Cities as Cyber-Physical Social Systems // Engineering, 2016, vol.2, issue 2, pp.156–58.
  • Wang F.-Y. Social computing digital dynamics of science, technology and humanities // Basic Sci. China, 2015, vol.22, no.5, pp.65–67.
  • Wang F.-Y. Software-defined system and knowledge automation: Parallel sublimation from Newton to Merton // Automat, 2015, vol.41, no.1, pp.1–8.
  • Le-Feng C., Tao Y. Intelligent energy dispatching robot and its knowledge automation: Information, physics and social integration: Frame-work, technology and challenges // Procedia CSEE, 2018, vol.38, no.1, pp.25–40.
  • Zhong ,  Dong-sheng  Y.,  Ding  W.,  Wei-ming  Z.,  Wenji  M.  Cyber-Physical-Social  Systems  for  Command  and  Control // IEEE Intelligent Systems, 2011, no.26, pp.92–96.
  • Epstein J.M., Axtell R.L. Growing Artificial Societies, Complex adaptive systems, Institution Press & MIT Press, 1996, 228 p.
  • Əliquliyev R.M., Ələkbərova İ.Y. Sosial informatika: sosial proseslərin analizində informasiya texnologiyalarinin tətbiqi // İnformasiya cəmiyyəti problemləri, 2019, №2, s.3–17.
  • Wang F.Y. The emergence of intelligent enterprises: From CPS to CPSS / Proceedings of the Intelligent Systems Conference, IEEE, 2010, vol.25, no.4, pp.85–88.
  • Frazzon M. , Hartmann J., Makuschewitz T., Scholz-Reiter B. Socio-Cyber-Physical Systems in Production Networks // Procedia CIRP, 2013, vol.7, pp.49–54
  • Zhang J. J., Wang F.-Y., Wang X., Xiong G., Zhu F., Lv Y., … Lee Y. Cyber-Physical-Social Systems: The State of the Art and Perspectives // IEEE Transactions on Computational Social Systems, 2018, vol.5, no.3, pp.829–840.
  • Lee J., Bagheri B., Kao H. A Cyber-Physical Systems architecture for Industry 4.0-based manufacturing systems // Manufacturing Letters, 2015, no.3, pp.18–23.