IEEE MTT-S Distinguished Microwave Lecture: Microwave Photonic Radars: What can Photonics bring to Radars?

#microwave #photonics #radars #optical #radio #antennas #wireless #communication
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Abstract:

As the only method for all-weather and long-distance target detection and recognition, radar has been intensively studied since it was proposed, and is considered as an essential sensor for future intelligent society. In the past few decades, great efforts have been devoted to improving radar’s functionality, precision, and response time, of which the key is to generate, control, and process a wideband signal at a high speed. Thanks to the high frequency, large bandwidth, low loss transmission, and electromagnetic immunity provided by modern photonics, implementation of the radars in the optical domain can provide better performance in terms of resolution, coverage, and speed which may not be achievable using traditional, even state-of-the-art electronics. In this talk, I'll give an overview of the photonic technologies that are currently known to be attractive for radars. System architectures and their performance that may interest the radar society are emphasized. Emerging technologies in this area and possible future research directions are discussed.



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  • Date: 08 Apr 2024
  • Time: 01:00 PM to 02:00 PM
  • All times are (UTC+10:00) Sydney
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  • Starts 23 March 2024 12:00 PM
  • Ends 08 April 2024 11:59 PM
  • All times are (UTC+10:00) Sydney
  • No Admission Charge


  Speakers

Prof. Shilong Pan

Topic:

Microwave Photonic Radars: What can Photonics bring to Radars?

 

As the only method for all-weather and long-distance target detection and recognition, radar has been intensively studied since it was proposed, and is considered as an essential sensor for future intelligent society. In the past few decades, great efforts have been devoted to improving radar’s functionality, precision, and response time, of which the key is to generate, control, and process a wideband signal at a high speed. Thanks to the high frequency, large bandwidth, low loss transmission, and electromagnetic immunity provided by modern photonics, implementation of the radars in the optical domain can provide better performance in terms of resolution, coverage, and speed which may not be achievable using traditional, even state-of-the-art electronics. In this talk, I'll give an overview of the photonic technologies that are currently known to be attractive for radars. System architectures and their performance that may interest the radar society are emphasized. Emerging technologies in this area and possible future research directions are discussed.

Biography:

Shilong Pan is currently a professor of Nanjing University of Aeronautics and Astronautics, China. His research has focused on microwave photonics, which includes optical generation and processing of microwave signals, analog photonic links, photonic microwave measurement, and integrated microwave photonics. He has authored or co-authored over 300 papers in peer-reviewed journals. Prof. Pan is currently a deputy Editor of Chinese Optics Letters, an associate editor of IEEE/Optica Journal of Lightwave Technology and IEEE Transactions on Microwave Theory and Techniques and is the vice chair of IEEE MTT-22 Microwave Photonics. He has also served as a Chair of a number of international conferences, symposia, and workshops, including the TPC Chair of IEEE ICOCN 2015, the TPC chair of IEEE MWP2023, a TPC Co-chair of IEEE MWP2017, and a General Co-chair of IEEE MWP2021. Prof. Pan is a Fellow of IEEE, Optica, and SPIE. He was selected as an IEEE Photonics Society Distinguished Lecturer in 2019 and an IEEE MTT-S Distinguished Microwave Lecturer in 2022, and was a recipient of IEEE MTT-S Outstanding Young Engineer Award in 2021.