Cyber-physical System to Help Moor a Ship

: pp. 63 - 69
Lviv Polytechnic National University

A method of organizing an information cyber- physical system to assist in the mooring process has been considered in the article. It describes ways to organize the mooring of ships to the berth. The problems that occur during this operation have been listed. As the mooring process is labor- intensive and depends on the human factor, a system that will provide up-to-date real-time information to facilitate the mooring operation has been regarded. The structure and stages of development of the proposed solution have been described. The features of the selected elements have been indicated. Obtaining preliminary sensory results from two ports makes it possible to begin the next stage of system development.

  1. “MANDATORY RESOLUTIONS on the seaport of Mariupol”, Notice to Mariners, Edition No 33, Notice No 362–378, Sep 2, 2016. Available: viewer. html?file=/ntm/ 2016/ ntm33(362-378).pdf (In Ukrainian).
  2. Trelleborg Marine AutoMoor. [Online]. Available: https://
  3. Grebeniak A., Miyushkovych E., Paramud Y. Digital interfaces in cyber-physical systems. Advances in Cyber-Physical Systems. Volume 2, Number 1, 2017, pp. 6–10.
  4. A. O. Melnyk, D. V. Lykhotop, A. V. Grebeniak, “Embedded local Wi-Fi computer network with configuration using bluetooth technology”, Journal “Computer systems and networks”, Lviv, Ukraine, 2017, Issue 881, pp. 66-87. (In Ukrainian).
  5. D. V. Lykhotop, A.V. Grebeniak, “Basic approaches to designing the structures of embedded systems”, 8-th International Joint Youth Science Forum “litteris Et Artibus” & 13-th International Conference “Young Scientists Towards the Challenges of Modern Technology”, Lviv, Ukraine, November 22–24, 2018, pp. 999-999. (In Ukrainian).
  6. Grebeniak A.V., Golembo V.A.. Chotyryrivneva arkhitektura avtonomnoho mobillnoho ahenta dlya detsentralizovanoho samoorhanizovanoho kolektyvu. [Four level architecture autonomous mobile agent for decentralized self-organized collective.]. Naukovyy visnyk Chernivetsnkoho universytetu “Kompnyuterni systemy ta komponenty”. Chernivtsi, Ukraine, 2015, vol. 6.1, pp. 86-92 (In Ukrainian).
  7. Derhamy, H. Architectural Design Principles For Industrial Internet of ThingsLule˚a, Sweden , 18. C. 285.
  8. Lea, P. Internet of Things for architectsl: architecting IoT solutions by implementing sensors, communication infrastructure, edge computing, analytics, and security: Packt Publishing, 2018. 524c.
  9. Lee, E. A., Seshia, S. A. Introduction to Embedded Systems, A Cyber-Physical Systems Approach: MIT Press, 2017. 568c.
  10. Kranz, M. Building the Internet of Things Implement New Business Models, Disrupt Competitors, Transform Your Industry: Wiley, 2016. 272c. 
  11. Giada Embedded Motherboard. [Online]. Available: