The article analyzes the maintenance and repair at the present time, thanks to monitoring systems and technical diagnostics. the method of carrying out maintenance and repair on the principle of operating the mechanism was described, according to the documentation of the shipowners' companies, which is currently in use. The analysis of possible updating of methods of monitoring and technical diagnostics of systems of ship power plants, as well as the necessary mechanisms to ensure the normal operation of the vessel is carried out. This method allows you to carry out maintenance and repair, as necessary, in advance before the mechanism is disabled, without relying on the operating time of the mechanisms. Updating monitoring systems and maintenance will increase the operating time of the mechanisms. In addition, when implementing this method on autonomous vessels in the future, it will allow for a much faster response to a possible failure of the mechanism, which in turn will minimize the downtime of the vessel
ship power plant, technical diagnostics, monitoring
1. Osnovnye trendy vnedreniya tehnologiy iskusstvennogo intellekta v upravlenii morskimi avtonomnymi nadvodnymi sudami / A. I. Epihin, A. V. Ignatenko, D. E. Stu-denikin, E. V. Hekert // Ekspluataciya morskogo transporta. - 2021. - № 1(98). - S. 88-96. - DOIhttps://doi.org/10.34046/aumsuomt98/14. - EDN FKIHOI.
2. Kondratyev, S. I. A diagnostic system of an intelligent component based on Bayesian ac-curate inference networks / S. I. Kondratyev, A. I. Epikhin, S. O. Malakhov // Journal of Physics: Conference Series, Novosibirsk, 12-14 maya 2021 goda. - Novosibirsk, 2021. - P. 012022. - DOIhttps://doi.org/10.1088/1742-6596/2032/1/012022. - EDN VGBGQW.
3. Epikhin, A. I. Method for synthesis of an intelligent automatic system for diagnosing combustion engine vibration of the power supply system of an unmanned vessel / A. I. Epikhin // Journal of Physics: Conference Series, Novorossiysk, Virtual, 15-16 iyunya 2021 goda. - No-vorossiysk, Virtual, 2021. - P. 012023. - DOIhttps://doi.org/10.1088/1742-6596/2061/1/012023. - EDN TBWJOM.
4. Khekert, E. V. Analysis of methods to optimize control systems for power supply of ma-rine vessels using fuzzy logic and fractal analysis / E. V. Khekert, A. I. Epikhin // Journal of Physics: Conference Series, Novorossiysk, Virtual, 15-16 iyunya 2021 goda. - Novorossiysk, Vir-tual, 2021. - P. 012088. - DOIhttps://doi.org/10.1088/1742-6596/2061/1/012088. - EDN RLTBKV.
5. Epihin, A. I. Realizaciya gibridnyh bortovyh algoritmov kontrolya v diagnosti-ke glavnogo dvigatelya SEU s ispol'zovaniem sovremennyh ustroystv / A. I. Epihin // Ekspluataciya morskogo transporta. - 2021. - № 1(98). - S. 58-64. - DOIhttps://doi.org/10.34046/aumsuomt98/9. - EDN XNXEHU.
6. Research of tribological properties of coatings of piston rings of a marine internal combus-tion engine / O. N. Volintiru, M. V. Vasilescu, A. I. Epikhin [et al.] // Ekspluataciya morskogo transporta. - 2022. - No 3(104). - P. 107-111. - DOIhttps://doi.org/10.34046/aumsuomtl04/16. - EDN PEKAAR.
7. Kovalenko, I. Yu. Opredelenie tehnicheskogo sostoyaniya SDVS s pomosch'yu iskus-stvennyh neyrosetey / I. Yu. Kovalenko, A. I. Epihin // Vestnik gosudarstvennogo mor-skogo universiteta imeni admirala F.F. Ushakova. - 2022. - № 1(38). - S. 14-16. - EDN XYQBMY.
8. Kondratyev, S. I. Using telematics data to support effective solutions for tracking and monitoring the power system condition of unmanned vessels / S. I. Kondratyev, A. I. Epikhin // Journal of Physics: Conference Series, Novorossiysk, Virtual, 15-16 iyunya 2021 goda. - No-vorossiysk, Virtual, 2021. - P. 012089. - DOIhttps://doi.org/10.1088/1742-6596/2061/1/012089. - EDN QOSRJQ.
9. Vnedrenie telematicheskih tehnologiy v razvitie sovremennogo obschestva na vnutrennih vodnyh putyah / A. I. Epihin, D. S. Tormashev, E. V. Zarubin, V. S. Machek // Ekspluataciya morskogo transporta. - 2021. - № 3(100). - S. 92-99. - DOIhttps://doi.org/10.34046/aumsuomt100/13. - EDN MFFUHM.
10. Intellektual'naya sistema upravleniya sudovoy energeticheskoy ustanovkoy s is-pol'zovaniem adaptivnogo mnogorezhimnogo neyrosetevogo regulyatora primenitel'no k morskim avtonomnym sudam / A. I. Epihin, E. V. Hekert, A. A. Ivanchenko, G. A. Zelen-kov // Ekspluataciya morskogo transporta. - 2021. - № 4(101). - S. 112-119. - DOIhttps://doi.org/10.34046/aumsuomtl01/15. - EDN PGYDCO.
11. Karakaev A.B. Razrabotka metodologii, metodov i modeley analiza vliyaniya raz-lichnyh variantov postroeniya struktury i rezhimov podderzhaniya i vosstanovleniya ra-botosposobnosti sudovyh elektroenergeticheskih sistem (Chast' 1) [Tekst] / A.B. Karakaev, A.V. Lukanin, E.V.Hekert//Ekspluataciya morskogo transporta. 2016. № 3 (80). S. 54-60.
12. Epihin, A. I. Primenenie neyronnyh setey na baze mnogosloynogo per-ceptrona s ispol'zovaniem nechetkoy logiki dlya tehnicheskoy diagnostiki sudovyh tehnicheskih sredstv / A. I. Epihin, S. I. Kondrat'ev, E. V. Hekert // Ekspluataciya morskogo transporta. - 2020. - № 3(96). - S. 111-119. - DOIhttps://doi.org/10.34046/aumsuomt96/15. - EDN HRSSSY.
13. Epihin, A. I. Iskusstvennyy intellekt, perspektivy primeneniya v upravlenii sudovymi energeticheskimi ustanovkami / A. I. Epihin, S. I. Kondrat'-ev // Ekspluataciya morskogo transporta. - 2020. - № 4(97). - S. 95-100. - DOIhttps://doi.org/10.34046/aumsuomt97/17. - EDN XFNNQR.
14. Dinamicheskoe formirovanie koridora bezopasnosti pri planirovanii marshruta dvizheniya sudna / D. E. Studenikin, S. I. Kondrat'ev, E. V. Hekert, M. A. Modina // Morskie intellektual'nye tehnologii. - 2021. - № 2-4(52). - S. 128-131. - DOIhttps://doi.org/10.37220/MIT.2021.52.2.081. - EDN RQCPEO.
15. Khekert E.V., Epikhin A.I.ANALYSIS OF METHODS TO OPTIMIZE CONTROL SYSTEMS FOR POWER SUPPLY OF MARINE VESSELS USING FUZZY LOGIC AND FRACTAL ANALYSIS V sbornike: Journal of Physics: Conference Series. Ser. "International Conference on Actual Issues of Mechanical Engineering, AIME 2021" 2021. S. 012088.
16. Sostoyanie problemy i metody snizheniya vrednyh vybrosov sudovyh energetiche-skih ustanovok / T. A. Makarevich, E. V. Hekert, Yu. S. Kuznecova [i dr.] // Eksplua-taciya morskogo transporta. - 2022. - № 2(103). - S. 127-134. - DOIhttps://doi.org/10.34046/aumsuomt103/27. - EDN XABIKE.
17. Belov, A. A. Primenenie metoda izmereniya chastichnyh razryadov dlya opredeleniya sostoyaniya izolyacii vysokovol'tnyh vraschayuschihsya mashin / A. A. Belov, V. V. Shkoda, E. G. Popova // Tehnicheskie i tehnologicheskie sistemy : Materialy dve-nadcatoy Mezhdunarodnoy nauchnoy konferencii, Krasnodar, 25-27 noyabrya 2021 goda. - Krasnodar: Obschestvo s ogranichennoy otvetstvennost'yu "Izdatel'skiy Dom - Yug", 2021. - S. 11-21. - EDN ZRPPSF.
18. Varianty realizacii sistem upravleniya elektronnymi diagnosticheskimi i in-formacionnymi kompleksami posredstvom mikrokontrollera STM32F100C8T6 / Ya. M. Kashin, S. V. Kliment'ev, A. V. Pavrozin [i dr.] // Elektronnyy setevoy po-litematicheskiy zhurnal "Nauchnye trudy KubGTU". - 2022. - № 1. - S. 70-78. - EDN SVRGUM.
19. Shvec, O. V. Antikrizisnoe upravlenie v transportnoy otrasli / O. V. Shvec, N. S. Chebanova, I. E. Nekrasova // Nauka Krasnoyar'ya. - 2016. - T. 5. - № 3-3. - S. 267-273. - EDN WCFRRL.
