Key information
- Faculty
- Faculty of Engineering Sciences
- Teaching department
- Electronic and Electrical Engineering
- Credit value
- 15
- Restrictions
-
This course is aimed at graduate-level engineers with a background in electronic engineering or physics. Available as a short course.
- Timetable
-
Alternative credit options
There are no alternative credit options available for this module.
This module is aimed at graduate-level engineers with a background in electronic engineering or physics. The emphasis is on physical principles, and on modern radar systems and signal processing techniques, for both civilian and defence applications.
It considers a wide range of techniques used in radar systems including, the radar equation, noise, clutter and detection, displays, pulse doppler processing and STAP, pulse compression and waveform design. The module also looks in detail at many real radar systems including synthetic aperture radar, tracking radar, avionics and radionavigation, phased array radar, electronic warfare, stealth and counter-stealth, bistatic radar and sonar. It concludes with system design examples.
Module deliveries for 2024/25 academic year
Intended teaching term:
Term 2 ÌýÌýÌý
Undergraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
100%
Exam
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
10
- Module leader
-
Professor Hugh Griffiths
- Who to contact for more information
- eee-msc-admin@ucl.ac.uk
Intended teaching term:
Term 2 ÌýÌýÌý
Postgraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
100%
Exam
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
1
- Module leader
-
Professor Hugh Griffiths
- Who to contact for more information
- eee-msc-admin@ucl.ac.uk
Last updated
This module description was last updated on 19th August 2024.
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