Journal is indexed in following databases:
- SCOPUS
- Web of Science Core Collection - Journal Citation Reports
- EBSCOhost
- Directory of Open Access Journals
- TRID Database - Transportation Research Board
- Index Copernicus Journals Master List
- BazTech
- Google Scholar
2022 Journal Impact Factor - 0.6
2022 CiteScore - 1.7
ISSN 2083-6473
ISSN 2083-6481 (electronic version)
Editor-in-Chief
Associate Editor
Prof. Tomasz Neumann
Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
e-mail transnav@umg.edu.pl
Cybersecurity of the Processes of Manoeuvring in Confined Waters
1 National University “Odessa Maritime Academy”, Odessa, Ukraine
2 Columbia Shipmanagement, Odessa, Ukraine
2 Columbia Shipmanagement, Odessa, Ukraine
ABSTRACT: In this work, the routes for inbound / outbound from each berth in the port of Chornomorsk were designed according to the ship’s pilotage plan for navigational purposes. On the basis of the received information, a computer-aided planning of recommended routes for pilotage of all types of vessels, which would call the port of Chornomorsk, was developed. The results of the automatic analysis by the computer program are designed as the matrix of coordinates for inbound / outbound at the port. In order to verify the cybersecurity of the introduced model of automatic planning of the path by the coordinates of trajectory points and using the decision support systems for the automatic control of the parameters of maneuvering by technical methods, radar observations were carried out. After observation the comparing analysis of the accuracy of ship and shore radar systems was done, the methodology of the observations for coastal systems developed. Conducted radar observation of 300 arrivals and 200 departures of vessels from the port of Chornomorsk according to the developed plans for each berth in the port. The recommended routes were integrated into the expanded computer program «Path Planning IS», which made it possible to obtain the matrixes of coordinates of the observations. A comparative analysis of the computer simulation and practical transition of ships in the recommended water area of the port demonstrated that the introduced model is confirmed by the results of the observations. On the basis of the analysis, it is determined that the developed model ensures the cybersecurity of the processes of maneuvering in confined waters.
KEYWORDS: Decision Support System (DSS), Pilotage Operations, Trajectory points, Verification of the ship's pilotage plan for navigation purposes, Coastal Radar System, Cybersecurity of Maneuvering, Observations of the Inbound / Outbound of Ships from the Port, Methodology for Planning the Route of the Voyage Cycle
REFERENCES
MSC-FAL.1/Circ3, Guidelines on maritime cyber risk management. Available at: https://wwwcdn.imo.org/localresources/en/OurWork/Facilitation/Facilitation/MSC-FAL.1-Circ.3-Rev.1.pdf (viewed on 2023-01-05).
Maritime cyber-attacks up by 900% in three years. Available at: https://thedigitalship.com/news/maritime-satellite-communications/item/6706-maritime-cyber-attacks-up-by-900-in-three-years?utm_source=dlvr.it&utm_medium=linkedin (viewed on 2023-01-11).
Acronis opublikovala doklad o kibergotovnosti, 2020. Available at: https://www.itweek.ru/security/news-company/detail.php?ID=214578 (viewed on 23-02-28).
Schroedinger’s Pet(ya). 2017. Available at: https://securelist.com/ schroedingers -petya/78870/ (viewed on 2023-02-18).
10 samykh vpechatlyayushchikh kiberatak v istorii, 2020. Available at: https://3dnews.ru/1009634/10-samih-vpechatlyayushchih-kiberatak-v-istorii (viewed on 2023-03-01).
Uyazvimosti. Positive Technologies. 2021. Available at: https://www.securitylab.ru/vulnerability/ (viewed on 2022-12-25).
V bolshinstve kompaniy mira ne veryat v vozmozhnost uspeshnogo protivostoyaniya khakeram, 2020. Available at: https://safe.cnews.ru/news/top/2020-09-22_v_bolshinstve_kompanij_mira (viewed on 2023-01-15).
Shumіlova K. V. (2022). Rozrobka sposobu planuvannya navіgatsіynikh rizikіv pri pіdgotovtsі reysovogo tsiklu sudna / Development of the method for planning navigational risks in preparation of a ship voyage cycle // Science and Education a New Dimension. – Budapest, Hungary, X(34), Issue 268, R. – 23–31. ISSN 2308-1996. - doi:10.31174/SEND-NT2022-268X34-05
Shumіlova, K. (2022). Sistematizovaniy pіdkhіd do klasifіkatsії navіgatsіynikh rizikіv reysovogo tsiklu morskogo sudna. Scientific Collection «InterConf+», (24(121), 337–358. - doi:10.51582/interconf.19-20.08.2022.032
Shumilova K. (2022). Classification of navigational risks of the ship's voyage cycle. The Scientific Heritage, 95, 52–72. https://doi.org/10.5281/ zenodo.7014246.
Sokolenko V. I. Sudovoy plan lotsmanskoy provodki.// Sudovozhdenie: Sb. nauchn. Trudov/ONMA. Vyp.20. – Odessa: «IzdatInform», 2011. – S. 209-220.
Maltsev, A., & Surinov, I. (2021). Improving the navigational preparation of a bridge crew for entering/leaving a port, including activities in case of emergency. Eastern-European Journal of Enterprise Technologies, 3(3 (111)), 42–57. - doi:10.15587/1729-4061.2021.235092
Svіdotstvo pro reєstratsіyu avtorskogo prava na tvіr № 68552 Ukraina. Komp’yuterna programa «Sistema visokotochnogo planuvannya shlyakhu perekhodu morskogo sudna». A. S. Maltsev, A. P. Ben, O. V. Tereshchenkova, V. І. Sokolenko (Ukraina): Zayavnik Khersonska derzhavna morska akademіya. Data reєstratsіi 09.11.2016 roku.
Shumіlova K. V. (2021). Realіzatsіya strategіi kіberbezpeki v sistemі upravlіnnya bezpekoyu sudna | Implementation of the strategy of cybersecurity in safety management systems of the ship / Shumilova K.V. // Naukovo-tekhnіchniy zbіrnik «Sudnovodіnnya» / «Shipping & Navigation». – Odesa: NU «OMA», Vipusk 31, S. 99–107. ISSN 2306-5761 | 2618-0073. https://doi.org/10.31653/2306-5761.31.2021.99-107 .
IMO / Maritime cyber risk. Available at: https://www.imo.org/en/OurWork/Security/Pages/Cyber-security.aspx (viewed on 2023-01-25).
Shumilova K., Onishchenko O. (2020). Action planning in comprehensive shipping risk identification. The scientific heritage | International independent scientific journal. No 49, Р.1. – P. 40-46. ISSN 9215 – 0365. http://www.scientific-heritage.com/wp-content/uploads/2020/09/VOL-1-No-49-49-2020.pdf .
National vulnerability database / Information Technology Laboratory / NIST, 2021. Available at: https://nvd.nist.gov/ (viewed on 2023-01-03).
Acronis opublikovala doklad o kibergotovnosti, 2020. Available at: https://www.itweek.ru/security/news-company/detail.php?ID=214578 (viewed on 2023-02-05).
Schroedinger’s Pet(ya). 2017. Available at: https://securelist.com/schroedingers-petya/78870/ (viewed on 2023-01-20).
V bolshinstve kompaniy mira ne veryat v vozmozhnost uspeshnogo protivostoyaniya khakeram, 2020. Available at: https://safe.cnews.ru/news/top/2020-09-22_v_bolshinstve_kompanij_mira (viewed 2022-12-15).
10 samykh vpechatlyayushchikh kiberatak v istorii, 2020. Available at: https://3dnews.ru/1009634/10-samih-vpechatlyayushchih-kiberatak-v-istorii (viewed 2023-01-09).
Uyazvimosti. 2021. Available at: https://www.securitylab.ru/vulnerability/ (viewed 2023-01-25).
Vilskiy G.B. Informatsionnaya bezopasnost sudovozhdeniya: monografiya / G. B. Vilskiy. – Mikolaїv: Vidavnitstvo FOP Shvets V. D., 2014. – 336 s.
Neumann T. (2017). Automotive and telematics transportation systems. Paper presented at the 2017 International Siberian Conference on Control and Communications, SIBCON 2017 - Proceedings, doi:10.1109/SIBCON.2017.7998555 - doi:10.1109/SIBCON.2017.7998555
Shon N. T. Perspektivnaya beregovaya navigatsionnaya sistema bezopasnogo upravleniya dvizheniem sudov [Tekst] / Nguen Tkhan Shon // Sudovozhdenie: Sb. nauchn. trudov / ONMA Vyp.18 – Odessa: IzdatInform, 2010. – S. 111–127.
Burmaka, I., Vorokhobin, I., Melnyk, O., Burmaka, O., & Sagin, S. (2022). Method of Prompt Evasive Manuever Selection to Alter Ship's Course or Speed. Transactions on Maritime Science, 11(1), 7-15. - doi:10.7225/toms.v11.n01.w01
Nguen Tkhan Shon. Issledovanie tochnosti otsenki parametrov raskhozhdeniya v sistemakh upravleniya dvizheniem sudov. /Nguen Tkhan Shon.// vestnik ONMU/ vyp. 27. – Odessa.: ONMU, 2009. – s.146–158.
Surinov I. The way to improve the accuracy of control of maneuvering of the vessel by as- sensing the abscissa of the center of gravity / Ihor Surinov. // Science and Education a New Dimension. Natural and Technical Sciences, Surinov I. The way to improve the accuracy of control of maneuvering of the vessel by as- sensing the abscissa of the center of gravity / Ihor Surinov. // Science and Education a New Dimension. Natural and Technical Sciences, VIII(29). – 2020. – Issue №238. – Pp. 58–62. - doi:10.31174/SEND-NT2020-238VIII29-14
Citation note:
Surinov I., Shumilov D.: Cybersecurity of the Processes of Manoeuvring in Confined Waters. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 17, No. 3, doi:10.12716/1001.17.03.25, pp. 723-732, 2023
Authors in other databases:
57225090112
QBPVKJwAAAAJDmytro Shumilov Shumilov:
Other publications of authors:
File downloaded 99 times
