Radar entomology has developed such that routine long-term monitoring of insect flight through the atmospheric boundary layer is now practical. Typical entomological radars use X-band (9.4 GHz) marine transceivers with a vertical pencil beam and rotate the plane of polarisation about the beam axis. Ideally, insect species and other parameters (mass etc.) should be estimated from the measured radar cross-section variation with polarisation angle. For this, a library of known insect cross-section polarisation signatures is required. Two models are currently used to parameterise the polarisation signature: the harmonic model and a model using the scattering matrix for symmetric targets (SM3). Data from the literature and a doctoral research project are presented and analysed to obtain parameters for both the harmonic and SM3 models. Knowledge of the measurement errors allows SM3 parameter uncertainties to be quantified in most cases using a maximum likelihood approach. Results for 68 insects representing 24 species are presented. These include several economically significant species (e.g. bees and locusts), with individual insect masses ranging from 9 mg to 3 g
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机译:雷达昆虫学的发展使得现在可以对昆虫穿过大气边界层的飞行进行常规的长期监测了。典型的昆虫学雷达使用具有垂直笔形光束的X波段(9.4 GHz)船用收发器,并使偏振面绕光束轴旋转。理想情况下,应根据测得的雷达横截面随极化角的变化估算昆虫的种类和其他参数(质量等)。为此,需要一个已知的昆虫横截面极化特征库。当前使用两种模型来参数化极化特征:谐波模型和使用针对对称目标的散射矩阵的模型(SM3)。提出并分析了来自文献和博士研究项目的数据,以获得谐波模型和SM3模型的参数。知道测量误差后,在大多数情况下,可以使用最大似然方法对SM3参数的不确定性进行量化。给出了代表24种物种的68种昆虫的结果。其中包括几种具有经济意义的物种(例如蜜蜂和蝗虫),单个昆虫的质量范围为9 mg至3 g
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