Fuzzy Logic Algorithms to Identify Birds, Precipitation, and Ground Clutter in S-Band Radar Data Using Polarimetric and Nonpolarimetric Variables

Abstract The statistical properties of the radar echoes from biological, precipitation, and ground targets observed with the McGill S-band dual-polarization radar have been used to devise a polarimetric and a nonpolarimetric fuzzy logic algorithm for pixel-by-pixel target identification. Radar obser...

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Bibliographic Details
Published inJournal of atmospheric and oceanic technology Vol. 36; no. 12; pp. 2401 - 2414
Main Authors Radhakrishna, Basivi, Fabry, Frédéric, Kilambi, Alamelu
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.12.2019
Subjects
Algorithms
Birds
Clutter
Dual polarization radar
Echoes
Fuzzy logic
Identification
Pixels
Precipitation
Radar
Radar clutter
Radar data
Radar echoes
Radar observation
Radar polarimetry
Scattering cross sections
Target recognition
Temporal resolution
Velocity
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Summary:Abstract The statistical properties of the radar echoes from biological, precipitation, and ground targets observed with the McGill S-band dual-polarization radar have been used to devise a polarimetric and a nonpolarimetric fuzzy logic algorithm for pixel-by-pixel target identification. Radar observations of migrating birds show distinctly different polarimetric features during their relative approach and departure from the radar site illustrating the dependency of radar parameters on the canting angle and scattering cross section. The devised algorithms have been tested with two independent events, each consisting of 2 h of radar observations with a 5-min temporal resolution. One event consisted of precipitation without birds while the other contained only birds. The misclassifications were 10.12% and 9.6%, respectively, for the two cases for the nonpolarimetric algorithm, and 1.99% and 0.92% for the polarimetric algorithm. The results indicate that even though nonpolarimetric radar membership functions may be considered adequate for separating radar echo returns from birds, precipitation, and ground targets, they are not sufficiently skilled if a greater accuracy is required. Target identification without polarimetric variables especially fails in the region of zero isodop and in precipitation with an echo top below 4 km.
ISSN:0739-0572
1520-0426
DOI:10.1175/JTECH-D-19-0088.1