*Courses Developed:
- Applied Estimation Theory [EEE G641] (Status: Approved)
- Green Communications and Networks [EEE F430] (Status: Approved)
- Applied Probability and Stochastic Processes (Status: Submitted to Department Committee for Academics)
- Interdisciplinary course: Quantum communications and networks (Status: Submitted to Department Committee for Academics)
*Labs/Assignments/Tutorials/Projects/Seminars developed/introduced for the following courses:
- Communication Systems (MATLAB based experiments, practice questions sets)
- Advanced digital communication (MATLAB tutorials, SDR based experiments, assignments, projects)
- Mobile telecommunications and networks (MATLAB tutorials, assignments, seminars, SDR based experiments)
- Coding theory and practice (MATLAB based experiments, demos, projects, seminars)
- Advanced satellite communication (MATLAB assignments, projects)
- Applied estimation theory (MATLAB based assignments, projects, seminars)
- Automotive communication systems (MATLAB and VANET simulator based labs)
- Advanced digital signal processing (MATLAB based assignments, projects, seminars)
- Signals and systems (MATLAB demos, MATLAB Tutorial)
*Courses (Teaching/Taught)
Number of distinct courses taught (on-campus): Lecture (10), Tutorial (5)
Number of courses taught (off-campus): Lecture (01)
[Jan. 2023- May 2023]
Green Communications and Networks (Lecture)
[Mar. 2023- Jul. 2023]
Electrical Sciences (Tutorials)
[Aug. 2022- Dec. 2022]
Satellite communications (Lecture)
Advanced digital signal processing (Lecture)
[Jan. 2022- May 2022]
Undergraduate:
Signals and systems (Lecture, Tutorial)
Analog electronics (Tutorial)
[Aug. 2021- Dec. 2021]
Higher degree: Applied estimation theory (Lecture)
Coding theory and practice (Lecture)
[Mar. 2021- Jul. 2021]Higher degree: Advanced digital communication (Lecture)
[Jan. 2021- May 2021]
Automotive communication systems [WILP course]
Undergraduate: Signals and Systems (Tutorial)
[Nov. 2020- Mar. 2021]Coding theory and practice (Lecture)
[Aug. 2020- Dec. 2020]
Higher degree: Applied estimation theory (Lecture)
[Jan. 2020- May 2020]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Satellite communication (Lecture)
[Aug. 2019- Dec. 2019]
Higher degree: Applied estimation theory (Lecture), Coding theory and practice (Lecture)
Undergraduate: Communication Systems (Tutorial)
[Jan. 2019- May 2019]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Mobile Telecommunications and Networks (Lecture)
[Aug. 2018- Dec. 2018]
Higher degree: Advanced satellite communication (Lecture)
Advanced digital signal processing (Lecture)
Undergraduate: Communication Systems (Lecture)
[Jan. 2018- May 2018]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Signals and systems (Tutorial), Electrical sciences (Tutorial)
[Aug. 2017- Dec. 2017]
Higher degree: Advanced satellite communication (Lecture)
Undergraduate: Communication Systems (Lecture, Lab, Tutorial)
[Jan. 2017- May 2017]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Mobile Telecommunications and Networks (Lecture)
Signals and Systems (Tutorial)
[Aug. 2016- Dec. 2016]
Higher degree: Advanced satellite communication (Lecture)
Undergraduate: Communication Systems (Lecture, Lab, Tutorial)
[Jan. 2016- May 2016]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Mobile Telecommunications and Networks (Lecture)
[Aug. 2015- Dec. 2015]
Undergraduate: Satellite communication (Lecture)
Data communications and networking (Lecture)
[Jan. 2015- May 2015]
Higher degree: Advanced digital communication (Lecture)
Undergraduate: Microprocessor programming and interfacing (Tutorial)
- Teaching Feedback (Undergraduate course)
The best feedback I have ever received! Thanks a lot, Mr. Anonymous!
- Teaching Feedback (Higher degree course)
Thanks, Mr. Roshan!