Difference between revisions of "Projects:2020s1-1231 Radar Waveform Design"
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This project will study the performance of several advanced digital binary and polyphase waveforms | This project will study the performance of several advanced digital binary and polyphase waveforms | ||
and compare their performance to unmodulated pulses and linear FM pulses with comparable time-bandwidth products. Comparisons will be made in terms of key performance metrics, including sidelobe levels, Doppler tolerance, resolution, performance in the presence of noise and EM interference. This study will initially be carried out using theoretical simulations, with the findings then verified using a software-defined dual channel transceiver. | and compare their performance to unmodulated pulses and linear FM pulses with comparable time-bandwidth products. Comparisons will be made in terms of key performance metrics, including sidelobe levels, Doppler tolerance, resolution, performance in the presence of noise and EM interference. This study will initially be carried out using theoretical simulations, with the findings then verified using a software-defined dual channel transceiver. | ||
Revision as of 11:04, 25 March 2020
Abstract here
Contents
Introduction
This project will study the performance of several advanced digital binary and polyphase waveforms and compare their performance to unmodulated pulses and linear FM pulses with comparable time-bandwidth products. Comparisons will be made in terms of key performance metrics, including sidelobe levels, Doppler tolerance, resolution, performance in the presence of noise and EM interference. This study will initially be carried out using theoretical simulations, with the findings then verified using a software-defined dual channel transceiver.
Project team
Project students
- Wong Ming Eer
- Shalin Shah
Supervisors
- Brian Ng
- Dr Waddah Al-Ashwal (SRC Australia)
Advisors
Objectives
Creating radar waveform using Matlab to understand the basic principals.
Background
Topic 1
Method
Results
Conclusion
References
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.
