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| Detailed information |
| Original study plan |
Master's programme Electronics and Information Technology 2024W |
| Objectives |
Students know and understand radar basics like radar-equation and radar-cross section and fundamental radar principles like continuous wave or pulse radars and can derive evaluation procedures for the widely used (e.g. in automotive radars) FMCW radar w.r.t. detection (CFAR), distance and velocity (2D-FFT), as well is angle of arrival (AoA) digital beamforming.
Students know basics around statistical detection, constant false alarm rate, frequency estimation, matched filter, ambiguity function, as well as thereof derived principles, like synthetic aperture (SAR), cooperative or modulated reflector measurements.
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| Subject |
- Radar history
- Radar equation
- Radar cross section (RCS)
- RF basics (radar relevant)
- Continuous wave (CW) and pulse radar
- Frequency modulated continuous wave (FMCW) radar
- Fourier transforms (CFT, DTFT, DFT, chirp-z)
- Windowing and spatially variant apodization (SVA)
- Matched filter
- Equivalent baseband description
- Radar detection in noise
- Probability of detection / false alarm
- Constant false alarm rate (CFAR)
- FMCW signal model
- FMCW range Doppler processing
- Digital beamforming (DBF)
- Synthetic aperture radar (SAR) basics
- Cooperative radar and modulated reflector radar basics
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| Criteria for evaluation |
Oral exam
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| Methods |
Lecture
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| Language |
English |
| Study material |
Lecture slides
Further recommended literature within slides
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| Changing subject? |
No |
| Corresponding lecture |
(*)MEMWFVORASV: VO Radarsignalverarbeitung (3 ECTS)
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