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Stator Winding Inter-Turn Short-Circuit Modelling of a Squirrel-Cage Induction Motor

Technology, Present Problems of Power System Control, 2011, No. 1, 43-53. [9] KOWALSKI C., WOLKIEWICZ M., WIERZBICKI R., Converter-fed induction motor modelling with inter- turn stator faults, Przegląd Elektrotechniczny, 2010, No. 4, 220-224, (in Polish). [10] GHATE V.N., DUDUL S.V., DHOLE G. M., Generalized Model of Three-Phase Induction Motor for Fault Analysis, IEEE Int. Conf. Computational Technologies in Electrical and Electronics Engineering, 2008, 232-237. [11] LIANG B., BALL A.D., IWNICKI S.D., Simulation and fault

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Analysis of Current Signals in a Partially Demagnetized Vector Controlled Interior Permanent Magnet Generator

). Comparison of Demagnetization Models for Finite-Element Analysis of Permanent-Magnet Synchronous Machines. IEEE Transactions on Magnetics , 43(11), pp. 3964–3968. Wang, C., Delgado Prieto, M., Romeral, L., Chen, Z., Blaabjerg, F. and Liu, X. (2016). Detection of Partial Demagnetization Fault in PMSMs Operating under Nonstationary Conditions. IEEE Transactions on Magnetics , IEEE, 52(7), pp. 1–4. Whaley, D. M. M., Soong, W. L. L. and Ertugrul, N. (2005). Investigation of Switched-Mode Rectifier for Control of Small-Scale Wind Turbines. Fourtieth IAS Annual

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FUZZY ADAPTIVE CONTROL OF NONLINEAR TWO-MASS SYSTEM

References [1] WAI R., LIN C.M., HSU C.F., Adaptive fuzzy sliding-mode control for electrical servo drive, Fuzzy Sets and Systems, 2004, 143, 2, 295-310. [2] PILTAN F., SULAIMAN N., ALLAHDADI S., DIALAME M., ZARE A., Position Control of Robot Manipulator: Design a Novel SISO Adaptive Sliding Mode Fuzzy PD Fuzzy Sliding Mode Control, Int. Journal of Artificial Intelligence and Expert System, 2011, 2, 5, 208-228. [3] KNYCHAS S., DERUGO P., SZABAT K., Damping of the torsional vibration using adaptive fuzzy

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An Overview of Design, Control, Power Management, System Stability and Reliability in Electric Ships

., 2007, 43(1), 139–149. [84] M itra P., V enayagamoorthy G.K., Implementation of an intelligent reconfiguration algorithm for an electric ships power system , IEEE Trans. Ind. Appl., 2011, 47(5), 2292–2300. [85] B ose S., P al S., N atarajan B., S coglio C.M., D as S., S chulz N.N., Analysis of optimal reconfiguration of shipboard power systems , IEEE Trans. Power Syst., 2012, 27(1), 189–197. [86] C hristopher E., S umner M., T homas D.W.P., W ang X., D e W ildt F., Fault location in a zonal DC marine power system using active

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An Investigation of Direct Torque Control and Hysteresis Current Vector Control for Motion Control Synchronous Reluctance Motor Applications

References Antonello, R., Carraro, M., Peretti, L. and Zigliotto, M. (2016). Hierarchical Scaled-States Direct Predictive Control of Synchronous Reluctance Motor Drives. IEEE Transactions on Industrial Electronics , 63(8), pp. 5176–5185. Bianchi, N., Bolognani, S., Carraro, E., Castiello, M. and Fornasiero, E. (2016). Electric Vehicle Traction Based on Synchronous Reluctance Motors. IEEE Transactions on Industry Applications , 52(6), pp. 4762–4769. Buja, G. S. and Kazmierkowski, M. P. (2004). Direct Torque Control of PWM Inverter-Fed AC Motors

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ANTI-WINDUP STRATEGY FOR AN LQ CURRENT CONTROLLER WITH OSCILLATORY TERMS FOR THREE-PHASE GRID-TIE VSCs IN SMES SYSTEMS

.G., GONZÁLEZ S.A., ECHEVERRÍA N.I., FISCHER J.R., CARRICA D.O., Generalized Predictive Current Control for Grid-Tie Three-Phase Inv., IEEE Trans. on Industr. Electronics, 2016, 63, 7, 4475-4484. [10] KAZMIERKOWSKI M., JASIŃSKI M., WRONA G., DSP-Based Control of Grid-Connected Power Converters Operating Under Grid Distortions, IEEE Transaction on Industrial Informatics, 2011, 7, 2, 204-211. [11] DANNEHL J., FUCHS F., THOGERSEN P., PI State Space Current Control of Grid-Connected PWM Converters With LCL Filters, IEEE Trans. on Power Electr

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Dynamic Performance of Estimator-based Speed Sensorless Control of Induction Machines Using Extended and Unscented Kalman Filters

. 779-787. De Pelegrin, J., Torrico, C. R. C. and Carati, E. G. (2016). A Model-Based Suboptimal Control to Improve Induction Motor Efficiency. Journal of Control, Automation and Electrical Systems, 27(1), pp. 69-81. Eisenberg, B. and Sullivan, R. (2008). Why is the Sum of Independent Normal Random Variables Normal? Mathematics Magazine, 81(5), pp. 362-366. Fodor, D. and Tóth, R. (2004). Speed sensorless linear parameter variant H∞ control of the induction motor. In: 2004 43rd IEEE Conference on Decision and Control (CDC

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SMART GRID CONDITION ASSESSMENT: CONCEPTS, BENEFITS, AND DEVELOPMENTS

K., SEIDL N., CASTALDO P.V., Condition assessment of cable insulation systems in operating nuclear power plants, IEEE Transactions on Dielectrics and Electrical Insulation, 1999, 6, 3, 376-384. [19] LAULETTA J.L., SOZER Y., DE ABREU-GARCIA J.A., A novel sensing device for underground cable condition assessment, IEEE Electrical Insulation Conference (EIC), 2015, 523-528. [20] STEPHEN B., STRACHAN S.M., MCARTHUR S.D.J., MCDONALD J.R., HAMILTON K., Design of trip current monitoring system for circuit breaker condition assessment, IET

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NATURAL CAPACITOR VOLTAGE BALANCE IN MULTILEVEL FLYING CAPACITOR CONVERTRS. A REVIEW OF RESEARCH ACHIEVEMENTS

References [1] MEYNARD T., FADEL M., AOUDA N., Modelling of multilevel converters, IEEE Trans. Ind. Elec., 1997, 44, 3, 356-364. [2] MEYNARD T.A., FOCH H., THOMAS P., COURAULT J., JAKOB R., NAHRSTAEDT M., Multicell converters: Basics concepts and industry applications, IEEE Trans. Ind. Electron., 2002, 49, 5, 955-964. [3] MEYNARD T.A., FOCH H., FOREST F., TURPIN C., RICHARDEAU F., DELMAS L., GATEAU G., LEFEUVRE T.A., Multicell converters: Derived topologies, IEEE Trans. Ind. Electron., 2002, 49, 5, 978

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