Ph.D. in Electrical Engineering at Shiv Nadar Institution of Eminence University Course Details 2026

Frequently Asked Questions

Ph.D. in Electrical Engineering

The Department of Electrical Engineering (EED) at Shiv Nadar Institution of Eminence (SNIoE) was started in 2011 under the aegis of School of Engineering (SoE), Shiv Nadar University. Its vision is to establish itself as a centre of excellence in terms of research and teaching in its chosen areas. Department has identified signal processing, wireless communication, microelectronics, embedded system, machine intelligence, RF and microwave, machine drives, power electronics and power systems as its focused areas of research and teaching. With an intake of 120 students, the department offers a unified B. Tech programme in Electrical & Computer Engineering. The department offers Ph.D. program for full-time and part-time students and allow them to conduct research in both fundamental and applied areas of engineering. The department currently has 21 full-time and 2 part-time Ph.D. scholars.

AREAS OF RESEARCH 

• IoT system architecture, IoT enabling technologies, IoT communication & networking protocols. IoT for smart agriculture, smart health, and smart cities. 

• SIW/ OAM/Active/ MIMO Antenna, active and passive circuit, Sub-terahertz and terahertz antennas, photoconductive antennas, 5G antennas and devices, microwave devices, slow wave structure designs for traveling wave tubes, fabrication of slow wave structures, radar based detection for medical purposes. 

• Multi-antenna (MIMO) systems for next-generation wireless systems (5G/6G), 5G and beyond, wireless communication, optical wireless communications, RIS-assisted communication aspects in 5G/6G wireless. 

• Machine learning based computer vision algorithms and applications such as facial expression recognition, machine learning in wireless communication, brain signal processing applications. 

• Applications of universal compression and sequential change detection problems. 

• Reliability-aware design of advanced computing architecture; modelling of advanced transistor architectures and on-chip interconnects, and their circuit implications, CAD algorithms for VLSI. 

• Semiconductor/MEMS sensors and devices for various applications e.g. RF, biomedical, IoT etc. 

Organic and flexible electronics: organic solar cells, perovskite solar cells, and fundamental studies on charge transport in organic semiconducting materials and devices. 

• Transport in semiconductor, TCAD, advanced semiconductor devices, VLSI for smart power applications. 

• Electromagnetics, energy systems, photovoltaic power system, power electronics.

How Promilo Works for Students

College Search Made Easy, Find the Right College for You in Minutes, Not Months!

Search your Career Goal

Discover courses, internships, and jobs that sync with your goals.

Register for Free

Get access to premium features and connect directly with experts. You're all set!

Book a Free Meeting

Schedule a free online meeting or talk to experts Jump into a meeting with pro-experts. We got you!

Stack Up Rewards

Your time is valuable, and we appreciate every moment you spend with us. That's why we continue to reward you for your engagement.