FEATURES OF THE CONSTRUCTION OF MODERN HIGHPRECISION INTELLIGENT VESSEL TRAFFIC MANAGEMENT SYSTEMS

  • A. P. Ben Kherson State Maritime Academy, Kherson
  • I. V. Palamarchuk Kherson State Maritime Academy, Kherson
Keywords: decision support system, intelligent system ship control system, ship control, human factor, navigation

Abstract

The article deals with the creation of intellectual traffic control system ships. The key areas of research in this field, the influence of the human factor in decision-making processes of ships control. An important issue today is to increase the accuracy of compliance by ships planned trajectory. The presence of a significant number of maritime accidents which occurred recently, including a large number of casualties and severe technological implications, the main cause of which was the «human factor» and reject clearly demonstrates the need for a modern high-precision intelligent systems ship traffic control, taking into account features the process of human interaction with technical means of navigation and adoption of its decisions in difficult navigation conditions and critical situations. Development of such systems requires taking into account the features of human interaction with technical facilities ship control. It is shown that the creation of intellectual traffic ship control system will ship simultaneously solve complex problems of strategic and operational management positions with the movement of vehicles to achieve the objectives of safety and economic efficiency. The main idea of research is to study the features of the processes of formation and decision-making skippers to improve the process of interaction skippers with information navigation, improving the quality of decisions, which he accepted, and the development of new approaches to building intelligent systems precision motion control ships. Determined that an important area of future research is to study the impact of maneuvering characteristics of ships on the development of control actions in precision intelligent decision support systems navigators.

References

1. Vaguthenko L. L. (2013). Sovremennihe informacionnihe tekhnologii v sudovozhdenii. Odessa : ONMA.
2. Vaguthenko L. L. (2013). Raskhozhdenie s sudami smetheniem na paralleljnuyu liniyu puti. Odessa : Fenіks.
3. Vaguthenko L. L. (2012). Algoritm vihrabotki rekomendaciyj po raskhozhdeniyu s sudami. Sudovozhdenie : sb. nauch. trudov ONMA. Odessa : IzdatInform, 21, 42–50.
4. Aleksishin A. V. (2012). Raschet granichnihkh pelengov k zonam bezopasnosti sudov. Naukoviyj vіsnik Khersonsjkoї derzhavnoї morskoї akademії : naukoviyj zhurnal.
Kherson : Vidavnictvo KhDMA, № 2 (7), 8–15.
5. Aleksishin A. V. (2013). Vihyavlenie situaciyj opasnogo sblizheniya sudov s pomothjyu granichnihkh pelengov v avtomatizirovannihkh kompleksakh sudovozhdeniya Problemi tekhnіki : naukovo- virobnichiyj zhurnal ONMU. Odessa, 1, 117–123.
6. Cihmbal N. N. & Petrichenko E. A. (2011). Osnovnihe principih ucheta navigacionnihkh opasnosteyj razlichnihkh tipov pri raskhozhdenii sudov. Sudovozhdenie : sb. nauch. trudov ONMA. Odessa : IzdatInform, 20, 238–242.
7. Cihmbal N. N., Burmaka I. A. & Tyupikov E. E. (2007). Gibkie strategii raskhozhdeniya sudov. Odessa : KP OGT.
8. Bi X.Y. & Liu X.J. (2015). Research on Double Collision Avoidance Mechanism of Ships at Sea. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, 9, No. 1, 13-16.
9. Lisowski J. (2014). Game Strategies of Ship in the Collision Situations. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, 8, No. 1, 69-77.
10. Benj A. P. (2009). Metodih ocenki opasnosti traektorii dvizheniya sudov v sistemakh podderzhki prinyatiya resheniyj. Vestnik KhNTU: sb. nauch. trudov Khersonskogo nacionaljnogo tekhnicheskogo universiteta, 1 (34), 429–433.
11. Benj A. P. (2010). Principi pobudovi sistem pіdtrimki priyjnyattya rіshenj sudnovodіya. Suchasnі іnformacіyjnі ta іnnovacіyjnі tekhnologії na transportі (MINTT-2010) : materіali drugoї naukovo-praktichnoї konferencії. Kherson : Vidavnictvo KhDMІ, 8–11.
12. Maltsev A. S. (2006). Intellektualjnihe gibridnihe sistemih podderzhki prinyatiya resheniyj pri raskhozhdenii sudov. Sudovozhdenie : sb. nauchn. trudov ONMA, 11, 74–86.
13. Maltsev A. S., Golikov V. V., Safin I. V. & Mamontov V. V. (2013). Metodologicheskie osnovih manevrirovaniya sudov pri sblizhenii. Odessa : IzdatInform.
14. Patent na korisnu modelj UA № 97227, MPK (2015.01) G08G, 3/00. Pristrіyj dlya іnformacіyjnogo zabezpechennya procesu upravlіnnya sudnom / O. M. Tovstokoriyj,
S. E. Maljcev, A. P. Ben. – Zareєstrovaniyj v Derzhavnomu reestrі patentіv Ukraїni na korisnі
modelі 10.03.2015.
15. Patent na korisnu modelj UA № 100293, MPK (2015.01) G08G, 3/00. Sposіb іnformacіyjnogo zabezpechennya procesu upravlіnnya sudnom / O. M. Tovstokoriyj, S. E. Maljcev, A. P. Ben. – Zareєstrovaniyj v Derzhavnomu reestrі patentіv Ukraїni na korisnі modelі 27.07.2015.
Published
2016-07-23
Issue
Vol 1 No 14 (2016): Scientific Bulletin of the Kherson State Maritime Academy
Section
SEA AND RIVER TRANSPORT