Modem trends and prospects of ship power plants and their elements in relation to the concept of an autonomous vessel and crewless (pilotless) navigation, incorporating meeting the potential newer requirements / restrictions of international maritime legislation regarding airborne pollutions from ships. The use of alternative fuels and the alternative to marine power technology from the shore when such vessels are moored in ports, at equipped roadsteads, as well as the use of “clean electricity” to supply power to marine transport facilities and offshore infrastructure. Remote control of ship’s main power plant and auxiliaries of an autonomous vessel, control of process parameters and assessment of their technical condition using artificial neuro-fuzzy networks. Creation of digital twins and forecasting of the technical condition, modeling of scenarios during the life cycle of ship technical equipment.
marine power plants, energy-efficiency, ship’s fuels, electronic control, crewless navigation, autonomous shipping, integrated automation systems, fuzzy-neural network
1. Hudyakov S.A., Ignatenko A.B. Sovremennye sudovye malooborotnye dizel'nye dvigateli: so stoyanie, perspektivy i problemy// Ekspluataciya morskogo transporta. - 2020 - №1 (94) -2020.
2. MARITIME FORECAST TO 2050. Energy Transition Outlook 2020. [Elektronnyy resurs] https://eto.dnv.com/2020
3. Postanovlenie Pravitel'stva Rossiyskoy Federacii №2031 ot 5 dekabrya 2020 goda «O provedenii eksperimenta po opytnoy ekspluatacii avtonomnyh sudov pod Gosudarstvennym flagom Rossiyskoy Federacii». - Moskva, 2020 - 8s.
4. Epihin A.I. Obzor sovremennyh sposobov avtomaticheskogo upravleniya sudovyh energeticheskih ustanovok // «Vestnik Volzhskoy gosudarstvennoy akademii vodnogo transporta». Tom 54, vypusk №54. - Nizhniy Novgorod, 2018.
5. Goreva T.P., Pornyagin H.H., Pyukke G.A. Neyrosetevye modeli diagnostiki tehnicheskih sistem // Vestnik KRAUNC. Fiziko-matematicheskie nauki. Petropavlovsk-Kamchatskiy.-2012.-№1.
6. Epihin A.I. Diagnosticheskie moduli sistemy podderzhki prinyatiya resheniy dlya tankerov-gazovozov // «Vestnik Astrahanskogo gosudarstvennogo tehnicheskogo universiteta». Seriya «Morskaya tehnika i tehnologiya»,- 2017 -Vypusk №2.
7. Epihin A.I., Hekert E.V., Modina M.A. Principy neyro-upravleniya i varianty arhitektury neyronnyh setey, primenitel'no k slozhnoy dinamicheskoy sisteme SEU-sudno // «Morskie intellektual'nye tehnologii»,- 2020,-№4 (50).- t.4
8. Pat. RF № RU 2737457 S1 / Epihin A.I. Avtomaticheskaya sistema s neyro-nechetkoy set'yu dlya kompleksnoy tehnicheskoy diagnostiki i upravleniya sudovoy energeticheskoy ustanovkoy; opubl. 30.11.2020, Byul. № 4, «Izobreteniya. Poleznye modeli».
9. Ignatenko A.B., Migel' D.V. Razvitie sudovyh sistem pitaniya s berega - AMR / Coldlroning // Nauchno-tehnicheskie, ekonomicheskie i pravovye aspekty razvitiya transportnogo kompleksa: materialy III nacional'noy nauchnoprakticheskoy konferencii 14-15 noyabrya 2019 goda v 2 ch. 41. - Novorossiysk: RIO EMU im. adm. F.F. Ushakova. - 2019 - Novorossiysk, 2019.
