Deep Mukherjee

Assistant Professor

Deep Mukherjee began his career in education as an Assistant Professor under School of Electronics Engineering in Kalinga Institute of Industrial Technology(KIIT) Deemed to be University in 2012. He has six years of experience in teaching and two years of experience in industry. He teaches Industrial Automation & Control, Fiber Optics Instrumentation, Instrumentation- I & II, Biomedical Instrumentation, Process Control, Control System, Electrical & Electronics Measurement, Analog Electronics and Digital Electronics. He holds a bachelor’s degree (B.E) in Applied Electronics & Instrumentation Engineering from Burdwan University and a master’s degree (M.TECH) in Instrumentation & Control Engineering from Calcutta University. He is a member of The Institution of Engineering & Technology(MIET) UK and recently has been also playing role as reviewer in a Scopus indexed journal. His research interest includes development of fractional order controllers for nonlinear process, nonlinear controller, optimization techniques. He has been also presenter at conferences on his research article. He is involved under departmental committee member for accreditation process. He organized two days workshop on Soft Computing Techniques in Engineering Applications. He organized two days workshop on Process Instrumentation Technologies in collaboration with IET kolkata local network. He played a role as publicity chair in an International Conference CINE. He conducted one day seminar on Sensor & Sensing Technologies. He Played role as an organizing committee member also in 6th WCASET. Recently he also organized one day workshop on Process Dynamics Control & Applications in association with IET Kolkata network. He has been guiding B.TECH level projects and under his guidance a group of students won best project in State level during Engineering Students Innovation Challenge(ESIC).

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Email :
[email protected]
Scopus Id :
57190444259

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Journals/Conferences :
Mukherjee.D., & Kundu.P.(2018). An optimized robust FOPID controller for stability in unstable system. IEEE-ICRIEECE.
Mukherjee.D., & Kundu.P.(2018). A stability analysis of inverted pendulum system using fractional-order MIT rule of MARC controller. SPRINGER-AISC,701.
Mukherjee.D., & Kundu.P.(2018). A performance analysis of fractional order based MARC controller over optimal fractional order PID controller on inverted pendulum. International Journal of Engineering & Technology (UAE),7.
Mukherjee.D., & Rastogi.K.(2017). A performance analysis between FOPID &IOPID controller on a coupled tank. IEEE-ICISC.
Mukherjee.D., & Kundu.P.(2016). PID controller design for an interacting tank level process with time delay using MATLAB FOMCON toolbox. IEEE-CIEC.
Mukherjee.D., & Bandyopadhyay.S.(2014). Design of two stage CMOS operational amplifier in 180nm technology with low power and high CMRR. International Journal of Recent Trends in Engineering and Technology,11.