Fully digital, urban networked staring radar: Simulation and experimentation

Darren Griffiths*, Mohammed Jahangir, Jithin Kannanthara, Gwynfor Donlan, Chris J. Baker, Michail Antoniou, Yeshpal Singh

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

The application and uses of drones in all areas are continuously rising, especially in civilian use cases. This increasing threat requires reliable drone surveillance in urban environments. Radar is the obvious candidate with its ability to detect small objects at range, in all weather conditions. The use of an L‐band networked radar for urban sensing of S‐UAS targets is explored. Small echoes from S‐UAS places a premium on synchronisation, which is the fundamental key for high performance networked radar. The effect of timing errors on the operation of the network radar is investigated theoretically and experimentally, and the processing tools for synchronising data based on the direct signal returns of the transmitter are developed. Also, drone detection using bistatic L‐band staring radar is achieved both in simulation and then in real field trials where the SNR and detection performance are computed and analysed. The updated direct signal synchronisation method for bistatic staring radar is shown to provide comparable SNR and positional accuracy for S‐UAS targets as the monostatic staring radar.
Original languageEnglish
Pages (from-to)1-17
Number of pages17
JournalIET Radar, Sonar & Navigation
Early online date5 Nov 2023
DOIs
Publication statusE-pub ahead of print - 5 Nov 2023

Bibliographical note

Acknowledgments:
This research is supported by a DSTL funded PhD and UK National Quantum Technology Hub in Sensing and Timing (EP/T001046/1) projects. The author thanks the Microwave integrated systems laboratory (MISL) team for contribution in data collection for the radar trials.

Keywords

  • Doppler radar
  • micro Doppler
  • oscillators
  • multistatic radar
  • phased array radar
  • distributed sensors
  • phase locked loops
  • synchronisation
  • passive radar
  • performance evaluation

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