利用雷达截面库模拟龙卷风碎片的极化雷达信号

B. Cheong, D. Bodine, Y. Zhu, C. Fulton, S. Torres, T. Maruyama, R. Palmer
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引用次数: 0

摘要

为了研究龙卷风中碎片颗粒的散射特性,开发了一个数值极化雷达模拟器。负微分反射率的区域通常已被观测到,但仍需从物理上加以解释。有一些假设表明,具有高雷达横截面(RCS)值的物体的常见碎片排列和/或主要散射,但由于龙卷风内部的危险,这些假设极具挑战性。然而,可以通过代表性模拟来数值构建场景以验证合理的原因。这是我们开发雷达模拟器的主要动机。这项工作的新颖之处在于基于物理空气阻力模型的真实轨迹推导,以及通过真实偏振RCS建模和暗室测量得出的每个碎片颗粒的RCS贡献的代表性多样性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Emulating polarimetric radar signals from tornadic debris using a radar-cross-section library
In an effort to investigate scattering characteristics of debris particles in tornadoes, a numerical polarimetric radar emulator was developed. Regions of negative differential reflectivity have commonly been observed but are still yet to be explained physically. There are hypotheses that suggest common debris alignment and/or dominant scattering from objects with high radar-cross-section (RCS) values, but they are extremely challenging to verify due to the danger within tornadoes. It is, however, possible to numerically construct the scenes through representative simulation to verify the plausible causes. This serves as our primary motivation to develop the radar emulator. The novel aspects of this work are the realistic trajectory derivation, which is based on physical air-drag model, and the representative diversity of RCS contributions from each debris particle, developed through a realistic polarimetric RCS modeling and anechoic chamber measurements.
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