Clutter Mitigation Based on Spectral Depolarization Ratio for Dual-Polarization Weather Radars

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Abstract

In this article, a spectral polarimetric filter named moving spectral depolarization ratio (MsDR) filter is proposed to mitigate the effects of clutter and noise for dual-polarization weather radar without cross-polar measurements. The filter is based on a spectral polarimetric variable termed as spectral depolarization ratio (sDR). sDR can be estimated by any polarimetric weather radar, making the MsDR filter widely applicable. Taking advantage of the spectral polarimetric features and the range-Doppler continuity of precipitation, the MsDR filter is implemented in the range-Doppler spectrogram. The performance of the MsDR filter is assessed using data collected by 1) an X-band full-polarimetric radar interfered by narrow-band clutter (both stationary and moving) and sidelobe wind turbine clutter; 2) a C-band operational dual-polarization radar affected by radio frequency interference. In addition, the implementation of the MsDR filter is straightforward, and the computational complexity is relatively low. Hence, the MsDR filter has great potential to be applied in real-time for operational radar systems at different frequencies.

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APA

Yin, J., Chen, H., Li, Y., & Wang, X. (2021). Clutter Mitigation Based on Spectral Depolarization Ratio for Dual-Polarization Weather Radars. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 14, 6131–6145. https://doi.org/10.1109/JSTARS.2021.3088324

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