Approved Courses for Research Degree Students (EE)

Department of Electronic Engineering

MPhil/PhD students are required to fulfill the stipulated core course and electives requirements.

Core Courses for PhD Students (4 Credits) for 2018 cohort or before:

Code	Course Title	Credits	2023-2024 Semester / Term
EE8001	Guided Studies	3	B
EE8461	Research Seminar I	0.5	A / B
EE8462	Research Seminar II	0.5	A / B

Core Courses for MPhil Students (2 Credits) for 2018 cohort or before:

Code	Course Title	Credits	2023-2024 Semester / Term
EE8001	Guided Studies	3	B

Core Courses for PhD Students (9 Credits) for 2019 cohort and thereafter:

Code	Course Title	Credits	2023-2024 Semester / Term
EE5410	Signal Processing	3	B
EE5425	Fundamentals of RF Circuit Engineering	3	B
EE5434	Machine Learning for Signal Processing Applications	3	A
EE5435	Advanced Topics in Applied Electromagnetics	3	A
EE5436	Fundamentals and Applications of Photonics	3	A
EE6428	Optical Communications	3	B
EE6453	Mobile Communication and Networks	3	---
EE6603	Wireless Communication Technologies	3	A
EE6605	Complex Networks: Modeling, Dynamics & Control	3	A
EE6610	Queueing Theory with Telecom Applications	3	B
EE6615	Nanotechnology for Devices & Microsystems	3	A
EE6619	Antenna Design for Wireless Communications	3	A
EE6620	Linear Systems Theory & Design	3	B

Research Methodology and Ethics Course(s): (4 credits):

Code	Course Title	Credits	2023-2024 Semester / Term
EE8001	Guided Studies	3	B
EE8461	Research Seminar I	0.5	A / B
EE8462	Research Seminar II	0.5	A / B

Electives for PhD /MPhil Students (PhD: 3 credits; MPhil: 4 credits):

Code	Course Title	Credits	2023-2024 Semester / Term
EE5410	Signal Processing	3	B
EE5412	Telecommunication Networks	3	B
EE5414	Development and Design in Embedded Systems	3	---
EE5415	Mobile Applications Design and Development	3	---
EE5425	Fundamentals of Radio Frequency (RF) Circuit Engineering	3	B
EE5430	Advanced CMOS Technology	3	---
EE5432	Applications of Lasers in Optoelectronics	3	---
EE5434	Machine Learning for Signal Processing Applications	3	A
EE5435	Advanced Topics in Applied Electromagnetics	3	A
EE5436	Fundamentals and Applications of Photonics	3	A
EE5437	Internet of Things Technologies for Future City Applications	3	B
EE5438	Applied Deep Learning	3	A
EE5439	Meta-device and Photonic System Analysis	3	A
EE5604	Applied Electromagnetics in Electronic Design	3	---
EE5806	Topics in Image Processing	3	---
EE5808	Topics in Computer Graphics	3	B
EE5809	Digital Audio Processing and Applications	3	---
EE5811	Topics in Computer Vision	3	B
EE5815	Topics in Security Technology	3	A
EE6412	Signaling, Switching and Routing in Telecommunication Networks	3	---
EE6413	Advanced Topics in Networking Technologies	3	---
EE6426	Radio Frequency (RF) Circuit Engineering	3	---
EE6427	Modern Power Electronics	3	---
EE6428	Optical Communications	3	B
EE6429	Optical Fibre and Waveguides	3	---
EE6430	Discrete-Time Control Systems	3	---
EE6432	Topics in Digital Video Broadcasting	3	---
EE6435	Multi-Dimensional Data Modeling and its Applications	3	B
EE6449	Electromagnetic Compatibility - EMC Theory, Design and Measurement	3	---
EE6453	Mobile Communication and Networks	3	---
EE6601	Topics in RF Circuit Design and Applications	3	---
EE6603	Wireless Communication Technologies	3	A
EE6605	Complex Networks: Modeling, Dynamics and Control	3	A
EE6610	Queueing Theory with Telecommunications Applications	3	B
EE6613	Green Electronics - Theory, Eco-design, Experiments and Applications	3	---
EE6614	Reliability Engineering in Electronics Industry	3	B
EE6615	Nanotechnology for Devices and Microsystems	3	A
EE6617	Detection & Estimation – Theory & Applications in Communications	3	A
EE6618	Three Dimensional (3D) Video Display Technology	3	---
EE6619	Antenna Design for Wireless Communications	3	A
EE6620	Linear Systems Theory and Design	3	B
EE6802	Advances in Digital Signal Processing	3	---

# Courses for MPhil students only
@ Courses for PhD students only