Arulmurugan, R., 2016. Comparative evaluation of new FLC controller based MPPT for a DC to DC buck-boost zeta converter. WSEAS Trans. Power Syst., 11: 27-34.
Arulmurugan, R. and T. Venkatesan, 2015. Research and experimental implementation of a CV- FOINC algorithm using MPPT for PV power system. J. Electr. Eng. Technol., 10: 30-40.
Arulmurugan, R. and N. Suthanthiravanitha, 2015. Model and design of a fuzzy-based Hopfield NN tracking controller for standalone PV applications. Electr. Power Syst. Res., 120: 184-193. CrossRef | Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Tracking of photovoltaic power system with new fuzzy logic control strategy. J. Electr. Eng. . Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Performance calculation of electrical energy output and power conversion efficiency of standalone PV system. Aust. J. Basic Applied Sci., 8: 149-159.
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Performance calculation and probability Lifecycle price investigation of standalone photovoltaic power supply for a residential Applications. J. Electr. Eng., Vol. 14. . Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Improved fractional order VSS inc-cond MPPT algorithm for photovoltaic scheme. Int. J. Photoenergy. 10.1155/2014/128327. CrossRef | Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Enhanced maximum power tracking for PV energy system using new optimized P&O algorithm with cyclic measurement tracking controller. J. Electr. Eng. . Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2014. Adaptive fuzzy logic control based optimal hopfield neural network of standalone photovoltaic system with battery storage. J. Renewable Sustainable Energy, Vol. 6. 10.1063/1.4878844. CrossRef |
Arulmurugan, R. and N. Suthanthiravanitha, 2013. Investment cost evaluation and sizing approach of isolated residential PV scheme. Int. J. Simulat. Syst. Sci. Technol., 14: 42-53. Direct Link |
Arulmurugan, R. and N. Suthanthiravanitha, 2012. Optimal design of dc to dc boost converter with closed loop control PID mechanism for high voltage photovoltaic application. Int. J. Power Electron. Drive Syst., 3: 434-444.