Mitigation of Ground Clutter in Airborne Bistatic Radar Systems
ID:35 View Protection:ATTENDEE Updated Time:2020-08-05 10:16:59 Hits:1337 Oral Presentation

Start Time:2020-06-09 15:00(Asia/Shanghai)

Duration:15min

Session:R Regular Session » R03Radar Signal Processing

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Abstract
Space-Time Adaptive Processing is a commonly used technique to mitigate ground clutter reflections from an airborne radar system. It estimates a covariance matrix based on spatial and temporal information, and the estimate is thereafter used to suppress the ground clutter. In a side-looking monostatic radar system, the adaptivity of the estimate is rather straight forward based on radar observations. However, in this paper, we consider bistatic systems where the power of adaptivity is limited due to nonstationarity of the ground clutter reflections over the range dimension. To overcome this, scenario dependent transformations are commonly used when forming the sample covariance matrix. In this contribution we instead investigate a detector where the clutter covariance matrix is determined from the geometry of the bistatic scenario. Using a Monte-Carlo simulation, we investigate how sensitive the detector is to errors in the assumed geometry, and compare this with state-of-the-art adaptive methods. The results indicates that a good clutter rejection is obtained for errors of order 10^3 m for assumed transmitter position and 10^0 km/h for assumed transmitter velocity.
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Speaker
Jacob Klintberg
Chalmers University of Technology, Sweden

Submission Author
Jacob Klintberg Chalmers University of Technology, Sweden
Tomas McKelvey Chalmers University of Technology, Sweden
Patrik Dammert Electronic Defense Systems, Saab AB, Sweden
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Important Date
  • Conference Date

    Jun 08

    2020

    to

    Jun 11

    2020

  • Jan 12 2020

    Draft paper submission deadline

  • Apr 15 2020

    Early Bird Registration

  • Dec 31 2020

    Registration deadline

Sponsored By
IEEE Signal Processing Society
Organized By
Zhejiang University
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