Dr. K. Vinoth  Kumar

Dr. K. Vinoth Kumar

Professor
Karunya Institute of Technology and Sciences, India


Highest Degree
Ph.D. in Computer Science from Karunya Institute of Technology and Sciences (Deemed University), India

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Area of Interest:

Computer Sciences
100%
Information Technology
62%
Artificial Intelligence
90%
Electrical Machines
75%
Sensor
55%

Selected Publications

  1. Ramya, K.C., K.V. Kumar, K. Geetha and C.S. Boopathi, 2018. Design of D shaped plasmon-photonic crystal fiber for bio sensing application. Results Phys., 10: 993-994.
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  2. Kumar, K.V., N.M. Sam and K. Sony, 2018. Life management concepts of transformer investigations. Int. J. Eng. Technol., 7: 227-229.
  3. Kumar, K.V., K.C. Ramya, S. Karthikumar and K.K. Kumar, 2018. Design of temperature sensor using twisted photonic crystal fiber. Results Phys., 10: 856-857.
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  4. Kumar, K.V., K. Sony and K.C. Ramya, 2018. Investigation of hybrid integrating wind solar energy source into distribution grid with condensed harmonics. J. Adv. Res. Dynamical Control Syst., 10: 1098-1105.
  5. Kumar, K.V., A. Achenkunju, J. Mathew and A. Mathew, 2018. Investigation of fast fourier and wavelet transform approach in electrical machines. Int. J. Pure Applied Math., 118: 21-27.
  6. Kumar, K.V. and K. Sony, 2018. Diagnosis analysis using soft computing approach methodology. World J. Technol. Eng. Res., 13: 24-29.
  7. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2017. Eccentricity problem in asynchronous machines. J. Elect. Eng., 17: 265-269.
  8. Kumar, K.V. and P.A. Michael, 2017. Hazards and its remedial measures in hydro power plant: An overview. J. Elect. Eng., 17: 302-304.
  9. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2016. Investigation of broken bar and eccentricity problem in asynchronous machines using PDT and MCSA technique. J. Elect. Eng., 16: 422-427.
  10. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2015. Spectrum analysis of sidebands in industrial drives. Int. J. Measur. Technol. Instrument. Eng., 5: 1-13.
  11. Renius, J.S. and K.V. Kumar, 2014. Analysis of variable speed chopper fed brushless direct current motor. TELKOMNIKA Indonesian J. Elect. Eng., 12: 8060-8068.
  12. Renius, J.S. and K.V. Kumar, 2014. Analysis of variable speed PFC chopper fed BLDC motor drive. ARPN J. Eng. Applied Sci., 9: 2521-2527.
  13. Kumar, K.V., S.S. Kumar, V. Jose and N.T. Abraham, 2014. Simulation analysis of Ac/Dc adapter under zero no-load power consumption using simulink process. Int. J. Power Elect. Drive Syst., 4: 329-336.
  14. Kumar, K.V., S.S. Kumar, V. Jose and N.T. Abraham, 2014. Analysis of direct torque control of industrial drives using zone-shifting SVM. Int. J. Power Elect. Drive Syst., 4: 438-443.
  15. Kumar, K.V., S.S. Kumar and N.T. Abraham, 2014. Literature survey of SAR algorithm in photovoltaic system. Int. J. Elect. Comput. Eng., 4: 155-161.
  16. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2014. Experimental analysis of variety of faults in asynchronous squirrel cage motor. J. Elect. Eng., 14: 254-259.
  17. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2014. Diagnosis of stator fault in asynchronous machine using soft computing methods. ARPN J. Eng. Applied Sci., 9: 62-75.
  18. Kumar, K.V. and J.S. Renius, 2014. Modeling of variable frequency synchronous buck converter. Int. J. Power Elect. Drive Syst., 5: 237-243.
  19. Fredderics, A., K.V. Kumar and A. Shankar, 2014. The FHA analysis of dual-bridge LLC type resonant converter. Int. J. Power Elect. Drive Syst., 4: 538-546.
  20. Stallon, SD., K.V. Kumar and S.S. Kumar, 2013. Simulation of high step-up DC-DC converter for photovoltaic module application using MATLAB/SIMULINK. Int. J. Intelli. Syst. Applic., 2: 72-82.
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  21. Kumar, K.V., S.S. Kumar and S.D. Stallon, 2013. Soft computing module of high step-up DC-DC converter for PV module using simulink environment. Int. J. Power Elect. Drive Syst., 3: 53-61.
  22. Kumar, K.V., S.S. Kumar and N.T. Abraham, 2013. SAR algorithm method in photovoltaic system using MPPT. Int. J. Power Elect. Drive Syst., 3: 438-443.
  23. Stallon, S.D., K.V. Kumar and S.S. Kumar, 2012. High efficient module of boost converter in PV module. Int. J. Elect. Comput. Eng., 21: 758-764.
  24. Kumar, K.V., S.S. Kumar, A.S. Geo, J. Yohannan, T. Thomas and P.G. Sreekanth, 2012. Fault diagnosis in induction machines for internal fault identification scheme. Int. J. Recent Technol. Eng., 1: 34-37.
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  25. Kumar, K.V., S.S. Kumar and A.I. Selvakumar, 2012. Recent techniques to identify the stator fault diagnosis in three phase induction motor. Int. J. Energy Optimiz. Eng., 1: 106-120.
  26. Kumar, K.V. and S.S. Kumar, 2012. Lab view based condition monitoring of induction machines. Int. J. Intelli. Tech. Applic., 4: 56-62.
  27. Kumar, K.V. and S.S. Kumar, 2012. Condition monitoring of industrial drives using ATMEGA 32L. Eur. J. Scient. Res., 79: 290-297.
  28. Kumar, V., S.S. Kumar and K. Reddy, 2011. Implementation of scalar control technique in SVPWM switched three-level inverter fed induction motor using DSP controller. Int. J. Power Elect. Drive Syst., 1: 83-93.
  29. Kumar, K.V. and S.S. Kumar, 2011. Modeling and simulation of induction motor fault detection using symmetrical component analysis. Int. J. Elect. Energy Syst., 3: 31-37.
  30. Kumar, K.V. and S.S. Kumar, 2011. A review of voltage and current signature diagnosis of industrial drives. Int. J. Power Elect. Drive Syst., 1: 75-82.
  31. Kumar, K.V. and S.S. Kumar, 2011. A review of condition monitoring of industrial drives. Int. J. Elect. Elect. Eng., 4: 183-194.
  32. Michael, P.A., K.V. Kumar, K.K. Reddy, S.S. Kumar and N. Devarajan, 2010. Implementation of SVPWM in FPGA through MATLAB/SIMULNK environment. Int. J. Eng. Sci. Technol., 2: 458-459.
  33. Kumar, K.V., P.A. Michael, J.P. John and S.S. Kumar, 2010. Simulation and comparison of SPWM and SVPWM control for three phase inverter. ARPN J. Eng. Applied Sci., 5: 61-74.
  34. Kumar, K.V. and S.S. Kumar, 2010. A comprehensive study of artificial intelligence based fault diagnosis in induction motor. Int. J. Latest Trends Comput., 1: 1-6.
  35. Kumar, R.S., K.V. Kumar and K.K. Ray, 2009. Sliding mode control of induction motor using simulation approach. Int. J. Control Comput. Sci. Network Security, 9: 93-104.
  36. Kumar, R.S., K.V. Kumar and K.K. Ray, 2009. Fuzzy logic based fault detection in induction machines using lab view. Int. J. Comput. Sci. Network Security, 9: 226-243.