A Motor-Driven and Computer Vision-Based Intelligent E-Trap for Monitoring Citrus Flies

Citrus flies are important quarantine pests in citrus plantations. Electronic traps (e-traps) based on computer vision are the most popular types of equipment for monitoring them. However, most current e-traps are inefficient and unreliable due to requiring manual operations and lack of reliable det...

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Bibliographic Details
Published in:Agriculture (Basel) 2021-05, Vol.11 (5), p.460
Main Authors: Huang, Renjie, Yao, Tingshan, Zhan, Cheng, Zhang, Geng, Zheng, Yongqiang
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Artificial neural networks
Attractants
automatic motor-driven e-trap
citrus fly detection and recognition
Computer vision
Control algorithms
convolutional neural networks
Design
Disasters
Flies
Fruits
Image analysis
Image processing
Insects
Monitoring
Monitoring systems
Neural networks
Pattern analysis
pest management
Pests
Prototypes
Recognition
Statistical analysis
Traps
Wireless communications
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Summary:Citrus flies are important quarantine pests in citrus plantations. Electronic traps (e-traps) based on computer vision are the most popular types of equipment for monitoring them. However, most current e-traps are inefficient and unreliable due to requiring manual operations and lack of reliable detection and identification algorithms of citrus fly images. To address these problems, this paper presents a monitoring scheme based on automatic e-traps and novel recognition algorithms. In this scheme, the prototype of an automatic motor-driven e-trap is firstly designed based on a yellow sticky trap. A motor autocontrol algorithm based on Local Binary Pattern (LBP) image analysis is proposed to automatically replace attractants in the e-trap for long-acting work. Furthermore, for efficient and reliable statistics of captured citrus flies, based on the differences between two successive sampling images of the e-trap, a simple and effective detection algorithm is presented to continuously detect the newly captured citrus flies from the collected images of the e-trap. Moreover, a Multi-Attention and Multi-Part convolutional neural Network (MAMPNet) is proposed to exploit discriminative local features of citrus fly images to recognize the citrus flies in the images. Finally, extensive simulation experiments validate the feasibility and efficiency of the designed e-trap prototype and its autocontrol algorithm, as well as the reliability and effectiveness of the proposed detection and recognition algorithms for citrus flies.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture11050460