Portfolio item number 1
Short description of portfolio item number 1
Posts by Collection
portfolio
Portfolio item number 2
Short description of portfolio item number 2
publications
Paper Title Number 1
Published in Journal 1, 2009
This paper is about the number 1. The number 2 is left for future work.
Recommended citation: Your Name, You. (2009). "Paper Title Number 1." Journal 1. 1(1).
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Paper Title Number 2
Published in Journal 1, 2010
This paper is about the number 2. The number 3 is left for future work.
Recommended citation: Your Name, You. (2010). "Paper Title Number 2." Journal 1. 1(2).
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Paper Title Number 3
Published in Journal 1, 2015
This paper is about the number 3. The number 4 is left for future work.
Recommended citation: Your Name, You. (2015). "Paper Title Number 3." Journal 1. 1(3).
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Paper Title Number 4
Published in GitHub Journal of Bugs, 2024
This paper is about fixing template issue #693.
Recommended citation: Your Name, You. (2024). "Paper Title Number 3." GitHub Journal of Bugs. 1(3).
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talks
Talk 1 on Relevant Topic in Your Field
Published:
This is a description of your talk, which is a markdown file that can be all markdown-ified like any other post. Yay markdown!
Conference Proceeding talk 3 on Relevant Topic in Your Field
Published:
This is a description of your conference proceedings talk, note the different field in type. You can put anything in this field.
teaching
COMP SCI 4092/7092: Mobile and Wiresless Systems
Project, The University of Adelaide, School of Computer Science, 2020
Watchdog Project. This project-based-learning (PBL) course requires a group of students (3-4 students in one group) to develop a mobile platform for an accurate and reliable method for addressing wandering-off using an embedded camara system (e.g., a Raspberry Pi 4 with a webcam).
ETEN2000/ETEN5000 – Signals and Systems
Undergraduate/postgraduate course, Curtin University, School of Electrical Engineering, Computing and Mathematical Sciences (EECMS), 2022
The course will cover continuous-time and discrete-time signals, specifically their mathematical representations, properties and classifications, such as power and energy signals. Special attention is devoted to Linear time-invariant systems, where concepts such as impulse response, convolution are developed. The course also cover the Fourier series representation of periodic signals, which leads to continuous-time Fourier transform (and discrete-time Fourier transform), Laplace transform and Sampling theorem. Students will be introduced to Matlab.