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Dr. Deepakkumar M. Fulwani
Professor
Room No. 227, First Floor
Department of Electrical Engineering
Indian Institute of Technology Jodhpur
(IIT Jodhpur)
eMail: df@iitj.ac.in
Office Phone +91 291-2801355
I work on Control Theory and Applications of Control Theory. Control is an essential, yet invisible tool, to achieve many important objectives for a system. In application of control, I work on Microgrids, Control of Power Converters, Drives and attack detection and mitigation for Cyber-Physical Systems. Regarding theoretical work on control, I work on Event-Triggered Control for different systems and, in particular, singularly perturbed systems.
I am a Professor at Department of Electrical Engineering, IIT Jodhpur. I earned Ph.D. degree from IIT Bombay in 2009. I served at IIT Guwahati for one year; i also worked at IIT Kharagpur for a semester. Since 2011, I have been serving IIT Jodhpur.
Research Interest
Control of MicroGrids.
Drives and Control of Power Converters.
Control Theory.
Research Grants (Sponsored Research)
Development of Grid Forming Inverter using Virtual Oscillator based Nonlinear Control Strategy. Funding Agency: Science and Engineering Research Board (SERB) Government of India, Core Research Grant, Role-PI, Status: Ongoing.
Drive Development for PM assisted Synchronous Reluctance Motor, Industry Sponsored Consultancy Project, Role-PI, Status: Ongoing.
Centre for Advanced Security Technology Development in Cyber-Physical Systems, funding agency Ministry of Electronics and Information Technology, Government of India, (Role: Co-Principle Investigator) (Ongoing).
Development of System to Mitigate Second Order Harmonic Ripple in AC/DC Microgrid using Advanced Control Techniques (Core Research Grant, SERB-DST) Completed)
Hub & Spoke Consortia for e2Wand e3W Electric Drives – Design, Development and Prototyping of Advanced IM and Synchronous Reluctance Drives and Vehicle Integration for e2Wand e3w Applications (Completed), (Role: Co-Principle Investigator)
Development of Programmable PV emulator, Funding Agency: DST (Completed)
Co-Principle Investigator of Establishment of the Centre of Excellence in Solar Thermal Research and Education; I am developing smart DC grid as a part of this project. Funding Agency: MNRE (completed)
Co-Principle Investigator of Energy Efficient Building. Funding Agency: DST (Completed)
Students
Ph.D. Students (Completed)
Dr. Suresh Singh: Mitigation of Negative Impedance Instabilities in DC/DC Converters and DC-Microgrids using Nonlinear Control (Completed 2016). (Working in Enerxinx Power System Consulting, Bangalore)
Dr. Ram Niwash Mahia: Input-Output Dynamic Properties of Complex Networks (completed 2018). (Working as a Faculty member with NIT Hamirpur)
Dr. Aditya Raw Gautam: Nonlinear Control for Mitigation of Second-order Harmonic Ripple Problem in Single-Phase Inverters (Completed 2019). (Working as a Faculty member with BITS Pilani)
Dr. Manisha Bhandari : Event Triggered Control of Singularly Perturbed Systems (Completed 2020) (Registered in RTU; Jointly Supervised) (Working as faculty member with RTU Kota)
Dr. Nupur Rathore: Sliding Mode Control strategies for energy efficiency and power quality in power converters (Completed March 2020). (Working with Mercedes Benz, Bangalore, R&D as a Senior Technical Lead. )
Dr. Shivam Chaturvedi: Robust Control Techniques for Virtual Impedance Shaping to Mitigate and Share the Double Line Frequency Ripple in Microgrids (Completed in March 2021) (Joined Michigan State University as Post-Doc Researcher).
Ph.D. Students (In Progress)
Poonam Sahoo: Event-Triggered Control (Thesis Submitted)
Mohit Kachhwaha: Control issues in Power Converters (Thesis Submitted)
Himani Modi: DC Microgrids
Rahul Singh :Drives
Rahul Noniya : Grid Forming Inverters
Mahesh Kumar: Attack detection for Dynamical Systems.
M.Tech. Students
Raju Jaitwar Sliding Mode Control of an Active Suspension System at IIT Guwahati April 2011
Priyanka Bhartiya Development of Sensor less buck converter for high current applications, July 2013
Nupur Rathore Development of programmable PV Emulator, July 2013 (Jointly supervised) [Joined IITJ for Ph.D.]
Supratim Shit, Consensus algorithms for multi-agent system. July 2013 (Jointly supervised)
Shruti Srivastava: Development of Feedback Controlled System Architecture for Scheduling Hard and Soft Real Time Tasks on a Multiprocessor Platform, July 2015. (Currently working as a Senior Manager, Morgan Stanley)
Mahaveer Singh: Characterization of Sets of Driver Nodes of Complex Networks with Actuators Saturation, July 2015. (Works in DRDO)
Mohit Kachhwaha: Modeling of Z and Quasi-Z source DC-DC converters for Variable Frequency Operation July 2017 (Joined IIT/J for Ph.D.)
Lobzang Namgail: Event triggered Composite Nonlinear Feedback Control July 2017 (Joined IISc for Ph.D.)
Jitendra Rathore: Dynamic Performance Improvement of Bridgeless PFC Boost Rectifier Using ISM Control (Joined as Deputy Manager, Volvo Eicher Commercial Vehicles, Indore)
Arimardan Chauhan: Analysis of Multi source single load system considering cable resistance in droop controlled DC microgrid (Joined as Asst. manager, Maruti Suzuki India Ltd., Gurugram)
Sandeep Yadav (2020): Integral Sliding Mode Control Of Induction Motor For Electric Vehicles (Working as JRF, NIT Bhopal).
Sanskrati Upadhyay (2021): Designing Scheduling Algorithms for Mixed Criticality Real Time Systems on Uniprocessor and Multiprocessor Platforms. (Joined Intel).
Irfan Ahmad (2021): Integral Sliding Mode Control (ISMC) in Dual Input qZSI. (Joined Ph.D. program from University of Rhode Island (USA) )
Sameer Duriseti (2021): Robust Control of Power Converters for Welding Applications
Poonam Maheswari (2022): Digital Twin for the Enterprise – A case of a Department of an Academic Institute (Joined Intel )
Vibhor Jaiswal (2022): Sliding Mode Control of a DC Microgrid. (Joined Bajaj Automotive)
Shubhanjali Srivastav(2022): Distributed Droop Control of a DC Microgrid. (Joined L&T)
Nabadyuti Purkayastha (2022): Event Triggered Control of Magnetic Levitation system.
Pallavi Sikha (2022): Control of Converters Emulated as Loss Free Resistor Using Sliding Mode Technique