[[1] LINARES-FLORES J., SIRA-RAMIREZ H., DC motor velocity control through a DC-to-DC power converter, Proc. of IEEE Decision and Control Conf. CDC, 2004, 5, 5297-5302.10.1109/CDC.2004.1429649]Search in Google Scholar
[[2] TARCZEWSKI T., NIEWIARA Ł., GRZESIAK L.M., Torque ripple minimization for PMSM using voltage matching circuit and neural network based adaptive state feedback control, Proc. of IEEE EPE 14-ECCE Conf., 2014, 1-10. 10.1109/EPE.2014.6911041]Search in Google Scholar
[[3] FANG J., LI W., Li H., XU X., Online inverter fault diagnosis of Buck-Converter BLDC motor combinations, IEEE Trans. Power Electronics, 2015, 30, 5, 2674-2688. 10.1109/TPEL.2014.2330420]Search in Google Scholar
[[4] FENG G., MEYER E., LIU Y.F., A new digital control algorithm to achieve optimal dynamic performance in DC-to-DC converters, IEEE Trans. Power Electronics, 2007, 22, 4, 1489-1498. 10.1109/TPEL.2007.900605]Open DOISearch in Google Scholar
[[5] LING R., MAKSIMOVIC D., LEYVA R., Second-order sliding-mode controlled synchronous buck DCDC converter, IEEE Trans. Power Electronics, 2016, 31, 3, 2539-2549. 10.1109/TPEL.2015.2431193]Open DOISearch in Google Scholar
[[6] TARCZEWSKI T., GRZESIAK L., Constrained state feedback speed control of PMSM based on model predictive approach, IEEE Trans. Industrial Electronics, 2016, 63, 6, 3867-3875. 10.1109/TIE.2015.2497302]Open DOISearch in Google Scholar
[[7] TARCZEWSKI T., NIEWIARA Ł., GRZESIAK L.M., Constrained state feedback control of DC-DC power converter based on model predictive approach, Proc. of IEEE EFEA Conf., 2016, 1-6. 10.1109/EFEA.2016.7748814]Search in Google Scholar
[[8] SAFONOV M.G., ATHANS M., Gain and phase margin for multiloop LQG regulators, IEEE Trans. Automatic Control, 1977, 22, 2, 173-179. 10.1109/TAC.1977.1101470]Search in Google Scholar
[[9] ROBANDI I., NISHIMORI K., NISHIMURA R., ISHIHARA N., Optimal feedback control design using genetic algorithm in multimachine power system, International Journal of Electrical Power and Energy Systems, 2001, 23, 4, 263-271. 10.1016/S0142-0615(00)00062-4]Search in Google Scholar
[[10] UFNALSKI B., GRZESIAK L.M., Particle swarm optimization of artificial neural-network-based online trained speed controller for battery electric vehicle, Bulletin of the Polish Academy of Sciences: Technical Sciences, 2012, 60, 3, 661-667. 10.2478/v10175-012-0059-9]Search in Google Scholar
[[11] KAMIŃSKI M., Design of adaptive state space controller for two-mass system using BAT algorithm, Proc. of SENE Conf. 2015, (in Polish). ]Search in Google Scholar
[[12] KARABOGA D., BASTURK B., A powerful and efficient algorithm for numerical function optimization: artificial bee colony (ABC) algorithm, Journal of Global Optimization, 2007, 39, 3, 459-471. 10.1007/s10898-007-9149-x]Open DOISearch in Google Scholar
[[13] KARABOGA D., BASTURK B., On the performance of artificial bee colony (ABC) algorithm, Applied Soft Computing, 2008, 8, 1, 687-697. 10.1016/j.asoc.2007.05.007]Open DOISearch in Google Scholar
[[14] SIRA-RAMIREZ H., SILVA-ORTIGOZA R., Control Design Techniques in Power Electronics Devices, Springer-Verlag, London, 2006. ]Search in Google Scholar
[[15] GRZESIAK L.M., TARCZEWSKI T., PMSM servo-drive control system with a state feedback and a load torque feedforward compensation, COMPEL, 2013, 32, 1, 364-382. 10.1108/03321641311293939]Search in Google Scholar
[[16] KARABOGA D., AKAY B., A modified artificial bee colony (ABC) algorithm for constrained optimization problems, Applied Soft Computing, 2011, 11, 3, 3021-3031. 10.1016/j.asoc.2010.12.001]Open DOISearch in Google Scholar
[[17] GOLDBERG D.E., DEB K., A comparison of selection schemes used in genetic algorithms, Foundations of Genetic Algorithms, 1991, 69-93. 10.1016/B978-0-08-050684-5.50008-2]Search in Google Scholar
[[18] KARABOGA D., BASTURK, B., Artificial bee colony (ABC) optimization algorithm for solving constrained optimization problems, International Fuzzy Systems Association World Congress, 2007, 789-798. 10.1007/978-3-540-72950-1_77]Search in Google Scholar