Image recognition-based deep learning model for identifying the developmental stages of Acyrthosiphon pisum (Hemiptera: Aphididae)

IF 1.3 4区 农林科学 Q2 ENTOMOLOGY Applied Entomology and Zoology Pub Date : 2024-04-18 DOI:10.1007/s13355-024-00873-w
Masaki Masuko, Shingo Kikuta
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Abstract

The small size and extensive polymorphisms of aphids make it difficult to identify larvae and adults solely based on their morphology. Here, we present an identification tool for the developmental stages of Acyrthosiphon pisum (Hemiptera: Aphididae) based on deep learning as a proof of concept. You Only Look Once (YOLO) algorithm is one of the most effective deep learning techniques for object detection. Although several studies have been conducted using deep learning technology for the detection and counting of tiny pests, the type of light source and size of the images were the limiting factors, as training was highly focused on uniform datasets and small insects. One way to overcome this problem is to introduce many types of datasets obtained from various light sources and microscopic magnifications. This strategy minimizes errors and omissions in aphid detection across all developmental stages in aphid individuals to the greatest extent possible. The experimental results showed that our modified YOLOv8 model could obtain over 95.9% and 99% accuracy for mean average precision (mAP) and recall, respectively, under various light sources, such as yellow, white, and natural light, and stereomicroscope magnifications. This study showed an improved accuracy of aphid recognition at all developmental stages. The study presents a novel deep learning model utilizing the YOLO algorithm to identify developmental stages of A. pisum. This model achieves high accuracy across various light sources and magnifications, thereby enhancing aphid biology studies.

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基于图像识别的深度学习模型识别 Acyrthosiphon pisum(半翅目:蚜科)的发育阶段
蚜虫体型小、多态性强,因此很难仅凭其形态来识别幼虫和成虫。在此,我们提出了一种基于深度学习的蚜虫发育阶段识别工具,作为概念验证。只看一次(YOLO)算法是用于物体检测的最有效的深度学习技术之一。虽然已有多项研究利用深度学习技术检测和计算微小害虫,但光源类型和图像大小是限制因素,因为训练高度集中于统一数据集和小型昆虫。克服这一问题的方法之一是引入多种类型的数据集,这些数据集从不同的光源和显微放大镜中获取。这种策略可以最大程度地减少蚜虫个体各个发育阶段的蚜虫检测误差和遗漏。实验结果表明,我们改进的 YOLOv8 模型在不同光源(如黄光、白光、自然光)和立体显微镜倍率下的平均精确度(mAP)和召回率的准确率分别超过 95.9% 和 99%。这项研究表明,蚜虫在各个发育阶段的识别准确率都有所提高。该研究提出了一种利用 YOLO 算法的新型深度学习模型,用于识别 A. pisum 的发育阶段。该模型在各种光源和放大倍率下都能达到很高的准确性,从而提高了蚜虫生物学研究的水平。
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来源期刊
CiteScore
2.70
自引率
7.70%
发文量
37
审稿时长
6-12 weeks
期刊介绍: Applied Entomology and Zoology publishes articles concerned with applied entomology, applied zoology, agricultural chemicals and pest control in English. Contributions of a basic and fundamental nature may be accepted at the discretion of the Editor. Manuscripts of original research papers, technical notes and reviews are accepted for consideration. No manuscript that has been published elsewhere will be accepted for publication.
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