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  5. Evaluation of the justification of decision-making at automated determination of the ship transfer route

Evaluation of the justification of decision-making at automated determination of the ship transfer route

I. Gannoshina, Yu. Kovalov, M. Dolyna
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Description: The assessment of the validity of decision-making with the automated determination of the route of the vessel’s transition, in which the multicriteria task of choosing a vessel’s route from a certain number of options, generated automatically, is solved using the hierarchy analysis method. In order to improve the reasonableness and efficiency of planning the transfer of the vessel, it is proposed for each of the options for the vessel’s transfer plan to determine the route of the vessel, which are ranked according to the characteristics of the route variant and the vessel’s transition plan for which it was designed. An analysis of the ship’s transition planning process showed that the task of determining the route is closely related to other tasks of transition planning, including measures that indirectly affect the choice of the vessel’s route. Therefore, there is a need to analyze and evaluate possible transition plans to increase the feasibility of determining the ship’s route when planning a transition. Assessing the situation, the captain of the vessel chooses a sufficient number of transition plans. The selected transition plans are formalized in the form of a matrix of penalties for laying a route through the elements of space. For each of the transition plans, a route is calculated using the method of determining the vessel’s route variant when planning the transition. The obtained route options are ranked based on the analysis of hierarchies, using a pre-formed, coordinated matrix of expert judgments on the characteristics of route options and transition plans for which they are calculated.


Keywords: ship transition planning, route, automation of the route determination process, hierarchy analysis method

References

1. Tihonov, V.I. (2011), “Sovershenstvovanie teorii sudovozhdeniya na vnutrennih vodnyih putyah: avtoref. dys.”
[Improving the theory of navigation on inland waterways: avtoref. dissertation], N. Novgorod, 39 p.
2. Vaskov, V.A. and Mironenko, A.A. (2010), “Formalizatsiya znaniy o manevrirovanii sudna v portovyih vodah na osnove
nechetkih funktsiy” [Formalization of knowledge about ship maneuvering in port waters based on fuzzy functions], Ekspluatatsiya
morskogo transporta, No. 2 (60), pp. 39-43.
3. Mironenko, A.A. (2013), “Model programmnogo dvizheniya sudna v stesnennyih vodah [Model of the program
movement of the vessel in the constrained waters], Mehatronika, avtomatizatsiya, upravlenie, No. 2, pp. 65-70.
4. Walther, L., Rizvanolli, A., Wendebourg, M. and Jahn, C. (2016), Modeling and optimization algorithms in ship
weather routing, International Journal of e-Navigation and Maritime Economy, Vol. 4, pp. 31-45.
5. Klimovskiy, A.O. and Ryizhov, V.A. (2017), “Podgotovka sudovoditeley s ispolzovaniem programmnogo
obespecheniya s funktsiey planirovaniya i ispolneniya perehoda” [Training navigators using software with the function of
planning and execution of the transition], Kompyuternyie instrumentyi v obrazovanii, No. 6, pp. 44-53.
6. Buniyamin, N., Wan Ngah, W.A.J., Sariff, N. and Mohamad, Z. (2011), Simple Local Path Planning Algorithm for
Autonomous Mobile Robots, Int. J. of Systems Applications, Eng. & Development, Issue 2,Vol. 5, pp.151-159.
7. Flacco, F., Kroger, T., De Luca, A. and Khatib, O. (2012), Depth Space Approach to Human-Robot Collision
Avoidance Proc. of IEEE Int. Conf. on Robotics and Automation RiverCentre, pp.338-345.
8. Chertkov, A.A., Vardomskaya, A.A. and Dmitriev, A.A. (2015), Rekursivnyiy metod optimizatsii logisticheskih putey
sredstvami MATLAB, Vestnik Gosudarstvennogo universiteta morskogo i rechnogo flota imeni admirala S.O. Makarova,
No. 6 (34), pp. 196-204.
9. Gao, S. and Huang, H. (2012), Real-time traveler information for optimal adaptive routing in stochastic time-dependent
networks, Transportation Research Part C: Emerging Technologies, Vol. 21, Issure 1, pp. 196-213. https://doi.org/
10.1016/j.trc.2011.09.007.
10. Kirsanov, A., Anavatti, S. and Ray, T. (2013), Path planning for the autonomous underwater vehicle, International
Conference on Swarm, Evolutionary, and Memetic Computing, pp. 476-486. https://doi.org/10.1007/978-3-319-03756-1.
11. Zeng, Z., Lian, L., Sammut, K., He, F., Tang, Y. and Lammas, A. (2015), A survey on path planning for persistent
autonomy of autonomous underwater vehicles, Ocean Engineering, Vol. 110, Part A, pp. 303-313. https://doi.org/
10.1016/j.oceaneng.2015.10.007.
12. Chertkov, A.A. (2017), Automation selection shortcuts routes of ships on the basis of modified BellmanFord
Algorithm, Vestnik Gosudarstvennogo universiteta morskogo i rechnogo flota imeni admirala S.O. Makarova, pp. 1113-1122.
https://doi.org/10.21821/2309-5180-2017-9-5-1113-1122.
13. Tymoshchuk, O.M., Hannoshyna, I.M., Parkhomenko, D.O. and Tkachuk, D.O. (2019), “Pidkhid do vyrishennia
zavdannia avtomatyzatsii protsesu vyznachennia marshrutu sudna pry planuvanni perekhodu” [Approach to the solution of the
problem of automation of the process of determining the route of the ship during the planning of the transition], Novitni
tekhnolohii. Zbirnyk naukovykh prats Pryvatnoho vyshchoho navchalnoho zakladu ”Universytet novitnikh tekhnolohii”, No.
1(8),pp. 105-111. https://doi.org/10.31180/2524-0102/2019.1.08.
14. Horodnov, V.P., Drobakha, H.A., Yermoshin, M.O. and other (2004), “Modelyuvannya boyovyy Diy voysk (syl)
protipovitryanoyi oborony ta informatsiyne zabezpechennya protsesiv upravlinnya nymy: monografia” [Modeling of combat
operations of air defense forces (forces) and information provision of their management processes: monograph], KHVU,
Kharkiv, 409 p.

Reference:
 Hannoshyna, I.M., Kovalov, Yu.H. and Dolyna, M.P. (2019), “Otsinka obgruntovanosti pryiniattia rishen pry avtomatyzovanomu vyznachenni marshrutu perekhodu sudna” [Evaluation of the justification of decis ion-making at automated determination of the ship transfer route], Systems of Arms and Military Equipment, No. 1(57), pp. 15-19. https://doi.org/10.30748/soivt.2019.57.02.