Fast Implementation of Insect Multi-Target Detection Based on Multimodal Optimization

Entomological radars are important for scientific research of insect migration and early warning of migratory pests. However, insects are hard to detect because of their tiny size and highly maneuvering trajectory. Generalized Radon–Fourier transform (GRFT) has been proposed for effective weak maneu...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2021-02, Vol.13 (4), p.594
Main Authors: Wang, Rui, Zhang, Yiming, Tian, Weiming, Cai, Jiong, Hu, Cheng, Zhang, Tianran
Format: Article
Language:English
Subjects:
generalized radon-fourier transform
multimodal optimization
particle swarm optimization
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Summary:Entomological radars are important for scientific research of insect migration and early warning of migratory pests. However, insects are hard to detect because of their tiny size and highly maneuvering trajectory. Generalized Radon–Fourier transform (GRFT) has been proposed for effective weak maneuvering target detection by long-time coherent detection via jointly motion parameter search, but the heavy computational burden makes it impractical in real signal processing. Particle swarm optimization (PSO) has been used to achieve GRFT detection by fast heuristic parameter search, but it suffers from obvious detection probability loss and is only suitable for single target detection. In this paper, we convert the realization of GRFT into a multimodal optimization problem for insect multi-target detection. A novel niching method without radius parameter is proposed to detect unevenly distributed insect targets. Species reset and boundary constraint strategy are used to improve the detection performance. Simulation analyses of detection performance and computational cost are given to prove the effectiveness of the proposed method. Furthermore, real observation data acquired from a Ku-band entomological radar is used to test this method. The results show that it has better performance on detected target amount and track continuity in insect multi-target detection.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs13040594