Neural Network-Guided Smart Trap for Selective Monitoring of Nocturnal Pest Insects in Agriculture

Neural Network-Guided Smart Trap for Selective Monitoring of Nocturnal Pest Insects in Agriculture

Insect pests remain a major threat to agricultural productivity, particularly in open-field cropping systems where conventional monitoring methods are labor-intensive and lack scalability. This study presents the design, implementation, and field evaluation of a neural network-guided smart trap spec...

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Bibliographic Details
Main Authors: Joel Hinojosa-Dávalos, Miguel Ángel Robles-García, Melesio Gutiérrez-Lomelí, Ariadna Berenice Flores Jiménez, Cuauhtémoc Acosta Lúa
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Agriculture
Subjects:
automated insect trap
neural networks
pest monitoring
Lepidoptera
Diptera
precision agriculture
Online Access:https://www.mdpi.com/2077-0472/15/14/1562
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Summary:Insect pests remain a major threat to agricultural productivity, particularly in open-field cropping systems where conventional monitoring methods are labor-intensive and lack scalability. This study presents the design, implementation, and field evaluation of a neural network-guided smart trap specifically developed to monitor and selectively capture nocturnal insect pests under real agricultural conditions. The proposed trap integrates light and rain sensors, servo-controlled mechanical gates, and a single-layer perceptron neural network deployed on an ATmega-2560 microcontroller by Microchip Technology Inc. (Chandler, AZ, USA). The perceptron processes normalized sensor inputs to autonomously decide, in real time, whether to open or close the gate, thereby enhancing the selectivity of insect capture. The system features a removable tray containing a food-based attractant and yellow and green LEDs designed to lure target species such as moths and flies from the orders Lepidoptera and Diptera. Field trials were conducted between June and August 2023 in La Barca, Jalisco, Mexico, under diverse environmental conditions. Captured insects were analyzed and classified using the iNaturalist platform, with the successful identification of key pest species including <i>Tetanolita floridiana</i>, <i>Synchlora</i> spp., <i>Estigmene acrea</i>, <i>Sphingomorpha chlorea</i>, <i>Gymnoscelis rufifasciata</i>, and <i>Musca domestica</i>, while minimizing the capture of non-target organisms such as <i>Carpophilus</i> spp., <i>Hexagenia limbata</i>, and <i>Chrysoperla</i> spp. Statistical analysis using the Kruskal–Wallis test confirmed significant differences in capture rates across environmental conditions. The results highlight the potential of this low-cost device to improve pest monitoring accuracy, and lay the groundwork for the future integration of more advanced AI-based classification and species recognition systems targeting nocturnal Lepidoptera and other pest insects.
ISSN:2077-0472

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