Shaoyang Kong scite author profile

Migration is a key process in the population dynamics of numerous insect species, including many that are pests or vectors of disease. Identification of insect migrants is critically important to studies of insect migration. Radar is an effective means of monitoring nocturnal insect migrants. However, species identification of migrating insects is often unachievable with current radar technology. Special-purpose entomological radar can measure radar cross-sections (RCSs) from which the insect mass, wingbeat frequency and body length-to-width ratio (a measure of morphological form) can be estimated. These features may be valuable for species identification. This paper explores the identification of insect migrants based on the mass, wingbeat frequency and length-to-width ratio, and body length is also introduced to assess the benefit of adding another variable. A total of 23 species of migratory insects captured by a searchlight trap are used to develop a classification model based on decision-tree support vector machine method. The results reveal that the identification accuracy exceeds 80% for all species if the mass, wingbeat frequency and length-to-width ratio are utilized, and the addition of body length is shown to further increase accuracy. It is also shown that improving the precision of the measurements leads to increased identification accuracy.

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Insect Multifrequency Polarimetric Radar Cross Section: Experimental Results and Analysis

Kong

Wang

et al. 2021

IEEE Trans. Geosci. Remote Sensing

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Comprehensive analysis of polarimetric radar cross-section parameters for insect body width and length estimation

Kong

et al. 2021

Sci. China Inf. Sci.

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Shaoyang Kong

Migratory Insect Multifrequency Radar Cross Sections for Morphological Parameter Estimation

Entomological Radar Overview: System and Signal Processing

Identification of Migratory Insects from their Physical Features using a Decision-Tree Support Vector Machine and its Application to Radar Entomology

Insect Multifrequency Polarimetric Radar Cross Section: Experimental Results and Analysis

Comprehensive analysis of polarimetric radar cross-section parameters for insect body width and length estimation

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