Eshaan Ghosh

Educational Qualifications:

Doctor of Philosophy (Ph.D.), Electrical and Computer Engineering, University of Windsor, Canada, 2018

Bachelor of Technology (B.Tech), Instrumentation and Control Engineering, Haldia Institute of Technology, India, 2012

Publication list:

Journal:

  1. H. Dhulipati, E. Ghosh, S. Mukundan, J. Tjong and N. C. Kar, “Adagrad Algorithm based Optimal Slot-pole Selection for Reduced Inductance Harmonics in Concentrated Wound Multiphase PMSM,” in the Proc. of IEEE International Magnetics Conference, pp. 1-1, Singapore, 2018.
  2. A. Mollaeian, M. Mehdi, E. Ghosh, A. Edrisy, S. Kim, J. Tjong, and N. C. Kar, “Investigation of Electromagnetic Torque Capability Reduction of Electric Machine due to Magnetic Property Deterioration of Laminations,” at the proc. IEEE International Conference on Magnetism, San Francisco, USA, 2018.
  3. E. Ghosh, A. Mollaeian, S. Kim and N. C. Kar, “DNN predictive magnetic flux control for harmonics compensation in a magnetically unbalanced induction motor,” in the Proc. of IEEE International Magnetics Conference, pp. 1-1 Dublin, 2017.
  4. E. Ghosh, A. Mollaeian, S. Kim, J. Tjong and N. C. Kar, “DNN-Based Predictive Magnetic Flux Reference for Harmonic Compensation Control in Magnetically Unbalanced Induction Motor,” IEEE Transactions on Magnetics, vol. 53, no. 11, pp. 1-7, Nov. 2017.
  5. E. Ghosh, A. Mollaeian, S. Kim, J. Tjong and N. C. Kar, “Intelligent flux predictive control through online stator inter-turn fault detection for fault-tolerant control of an induction motor,” in the Proc. of IEEE International Conference on Industrial Technology (ICIT), pp. 306-311, Toronto, ON, 2017.
  6. A. Mollaeian, E. Ghosh, H. Dhulipati, J. Tjong and N. C. Kar, “3-D Sub-Domain Analytical Model to Calculate Magnetic Flux Density in Induction Machines with Semi- closed Slots Under No-Load Condition,” IEEE Transactions on Magnetics, vol. 53, no. 6, pp. 1-5, June 2017.
  7. E. Ghosh, A. Mollaeian, W. Hu and N. C. Kar, “A Novel Control Strategy for Online Harmonic Compensation in Parametrically Unbalanced Induction Motor,” IEEE Transactions on Magnetics, vol. 52, no. 7, pp. 1-4, July 2016.
  8. E. Ghosh, A. Mollaeian, W. Hu and N. C. Kar, ” A Novel Control Strategy for Online Harmonic Compensation in Parametrically Unbalanced Induction Motor,” in the Proc. of IEEE International Magnetics Conference, pp. 1-1, San Diego, 2016.
  9. A. Mollaeian, E. Ghosh, H. Dhulipati, J. Tjong and N. C. Kar, “3-D sub-domain analytical model to calculate magnetic flux density in induction machines with semi-closed slots under no-load condition,” in the Proc. of IEEE Conference on Electromagnetic Field Computation (CEFC), pp. 1-1, Miami, FL, 2016.
  10. E. Ghosh, F. Ahmed, A. Mollaeian, J. Tjong and N. C. Kar, “Online parameter estimation and loss calculation using duplex Neural-Lumped parameter thermal network for a faulty induction motor,” in the Proc. of IEEE Conference on Electromagnetic Field Computation (CEFC), pp. 1-1, Miami, FL, 2016.
  11. F. Ahmed, E. Ghosh, and N. C. Kar, “Transient thermal analysis of a copper rotor induction motor using a lumped parameter temperature network model,” in the Proc. of IEEE Transportation Electrification Conference and Expo, pp. 1-6, Dearborn, MI, 2016.
  12. E. Ghosh, F. Ahmed, M. M. Sangdehi and N. C. Kar, “Temperature influenced online stator resistance estimation using an improved swarm intelligence technique for an induction machine,” in the Proc. of IEEE Transportation Electrification Conference and Expo (ITEC), pp. 1-6, Dearborn, MI, 2015

Conference:

[1] E. Ghosh, F. Ahmed, M. M. Sangdehi and N. C. Kar, “Temperature influenced online stator resistance estimation using an improved swarm intelligence technique for induction machine,” IEEE Transportation Electrification Conference and Expo (ITEC), , Dearborn, MI, 2015

[2] F. Ahmed, E. Ghosh and N. C. Kar, “Transient thermal analysis of a copper rotor induction motor using a lumped parameter temperature network model,” 2016 IEEE Transportation Electrification Conference and Expo (ITEC), Dearborn, MI, 2016,

[3] E. Ghosh, F. Ahmed, A. Mollaeian, J. Tjong and N. C. Kar, “Online Parameter Estimation and Loss Calculation using Duplex Neural-Lumped Parameter Thermal Network for Faulty Induction Motor,” accepted by the IEEE Conference on Electromagnetic Field Computation, Florida, 2016.

[4]  A. Mollaeian, E. Ghosh, J. Tjong and N. C. Kar, “3-D Sub-domain Analytical Model to Calculate Magnetic Flux Density of Induction Machine with Semi-closed Slots under No-Load Condition,” accepted by the IEEE Conference on Electromagnetic Field Computation, Florida, 2016.

Conferences/workshops attended:

[1] IEEE Intermag Conference, San Diego, USA, January 2016.

[2] Attended the Coil Winding, Insulation & Electrical Manufacturing Exhibitions at Chicago on October 6, 2016.

[3]  IEEE Transportation Electrification Conference and Expo (ITEC), Dearborn, MI, USA, 2015

[4] EPT-150 Industrial Motor Testing Training at D&V Electronics, Vaughan, Ontario, Canada, May 2015

Awards/Achievements/Scholarships

  1.  University of Windsor Graduate Teaching Assistance Scholarship.
  2. Research Scholarship from the Canada Research Chair Program in Electrified Transportation Systems at the Centre for Hybrid Automotive Research and Green Energy.
  3. Outstanding Student Scholarship from Graduate Student society
  4. Ontario Centres of Excellence Scholarship for Industry-Academic R&D Collaboration

Industrial Experience and Projects worked on:

  1. Worked at D&V electronics, Vaughan, Canada (September 2015 – August 2016) on development of a 48VDC and a High voltage High Performance High Voltage DC-DC Converter, Modelling of the RG-BS20 ( a regenerative battery simulator made at D&V Electronics) and working on System on Chip (SoC) devices as well as microcontrollers to produce the low-cost integration for seamless operation of converter and communication with human machine interfaces.
  2. Worked with IGB Automotive, Windsor (September 2013 – December 2013)  on performance, efficiency, noise and vibration analysis of small blower fans for the purpose of optimum car seat heating.
  3. Development of Electric Baja Car for Electric vehicle race, Windsor

Area of Research: High Speed Induction Motor Drives