Russian Internet Journal of Electrical Engineering

A model of an expert system for the diagnosis and prediction of technical-consisting of a ship power system (SPS) in the condition of operation. A block diagram of the expert system with an optimal number of diagnostic parameters. It is shown that the implementation of modules "diagnosis" and "prediction" of the expert system. Designed model expert system can adequately and accurately diagnose the technical condition of the SPS in real time, to predict and prevent The appearance of emergency modes and faults, thereby increasing the life of the ship electromechanical the equipment and to avoid additional costs for capitally repair and demurrage.

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Steklov A.S., Podkovyrin D.S. Neuro-fuzzy model of diagnosing of a technical condition of the synchronous generator [Neyro-nechetkaya model diagnostiro-vaniya tekhnicheskogo sostoyaniya sinkhronnogo generatora], Glavnyy energetik [Chief Power Engineer], 2015, no.11-12, pp. 55-60. (in Russ.)

Kryukov O.V., Serebryakov A.V. The system of on-line diagnostics of technical condition of wind turbines [Sistema operativnoy diagnostiki tekhnicheskogo sostoyaniya vetroenergeticheskikh ustanovok], Elektrotekhnika [Electrical engineering], 2015, no.4, pp. 49-53. (in Russ.). DOI: 10.3103/S1068371215040069

Steklov A.S., Titov V.G., Serebryakov A.V. System diagnostics marine synchronous generator technical condition [Sistema diagnostiki tekhnicheskogo sostoyaniya sudovogo sinkhronnogo generatora], Trudy Nizhegorodskogo gosudarstvennogo tekhnicheskogo universiteta im. R.Ye. Alekseyeva [Proceedings of the Nizhny Novgorod State Technical University. RE Alekseeva], Nizhniy Novgorod, 2016, no.1, pp. 60-64. (in Russ.)

Serebryakov A.V., Titov V.G., Chernov Ye.A., Shakhov A.V. Differentiation load in autonomous consumer power systems [Differentsirovaniye nagruzki v sistemakh elektrosnabzheniya avtonomnykh potrebiteley], Trudy Nizhegorodskogo gosudarstvennogo tekhnicheskogo universiteta im. R.Ye. Alekseyeva [Proceedings of the Nizhny Novgorod State Technical University. RE Alekseeva], Nizhniy Novgorod, 2015, no.2(109), pp. 203-209. (in Russ.)

Kryukov O.V., Serebryakov A.V., Vasenin A.B. Diagnosis of electromechanical parts of wind power plants [Diagnostika elektromekhanicheskoy cha-sti vetroenergeticheskikh ustanovok], Yelektromekhanichni I yenergoz-berigayuchi sistemi [Electromechanical and energy saving systems], 2012, no.3, pp. 549-552. (in Russ.)

Stepanov S.E. Wind energy plant with the operational forecasting of the technical condition, Russian Internet Journal of Electrical Engineering, 2015, vol. 2, no.3, pp. 41-47. (in Russ.). DOI: 10.24892/RIJEE/20150307

Kryukov O.V., Serebryakov A.V. Forecast of power generation invariant wind power installation by method of fuzzy logic, Russian Internet Journal of Electrical Engineering, 2016, vol. 3, no.1, pp. 76-85. (in Russ.). DOI: 10.24892/RIJEE/20160109

Kryukov O.V., Serebryakov A.V. Method and system of decision-making forecasting technical condition of electrically driven gas pumping units, Electrical systems and complexes, 2015, no.4(29), pp. 35-38. (in Russ.)

Serebryakov A.V. Optimization of diagnostics of electromechanical parts of wind power plants [Optimizatsiya diagnostirovaniya elektromekhanicheskoy chasti vetroenergeticheskikh ustanovok], Elektrooborudovaniye: ekspluatatsiya i remont [Electrical equipment: maintenance and repair], 2013, no.3, pp. 39-46. (in Russ.)

Serebryakov A.V., Kryukov O.V. Intellektualnyye vetroenergeticheskiye ustanovki dlya avtonomnykh sistem elektrosnabzheniya [Intelligent wind turbines for independent power supply systems], Nizhniy Novgorod, Nizhegorodskiy gosudarstvennyy tekhnicheskiy universi-tet im. R.Ye. Alekseyeva, 2014, 120 p. (in Russ.)

Serebryakov A.V., Kryukov O.V., Vasenin A.B. Fuzzy model and Wind Turbine Control Algorithms [Nechetkiye modeli i algoritmy upravleniya vetroenergeticheskimi ustanovkami], Upravleniye v tekhnicheskikh, ergaticheskikh, organizatsionnykh i setevykh sistemakh [Management of Engineering, ergatic, organizational and network systems], 2012, pp. 467-469. (in Russ.)

Steklov A.S., Titov V.G., Serebryakov A.V. Determining the degree of efficiency of marine synchronous generators with the use of artificial neural networks, fuzzy, Bulletin of Chuvash University, 2016, no.1, pp. 97-104. (in Russ.)