基于改进SSD网络的鲍鱼幼鱼检测计数方法

IF 7.7 Q1 AGRICULTURE, MULTIDISCIPLINARY
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引用次数: 0

摘要

鲍鱼的检测和计数是鲍鱼繁殖密度估计的关键技术之一。繁殖期的鲍鱼个体较小,分布密集,且个体之间存在遮挡,因此现有的物体检测算法对繁殖期鲍鱼的检测精度较低。为解决这一问题,本研究提出了一种基于改进的 SSD 网络的幼鲍检测与计数方法。该方法的创新点在于首先,提出了多层特征动态融合方法,以获取更多的颜色和纹理信息,提高对小体型幼鲍的检测精度;其次,提出了多尺度注意力特征提取方法,以突出幼鲍的形状和边缘特征信息,提高对密集分布和个体覆盖的幼鲍的检测精度;最后,采用损失反馈训练方法,增加图像中数据和幼鲍像素的多样性,以获得更高的小体型幼鲍的检测精度。实验结果表明,所提方法检测结果的[email protected]值、[email protected]值和[email protected]值分别为 91.14%、89.90%和 80.14%。计数结果的精确率和召回率分别为 99.59% 和 97.74%,优于 SSD、FSSD、MutualGuide、EfficientDet 和 VarifocalNet 模型的计数结果。所提出的方法可为实时监测鲍鱼幼体的养殖密度提供支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Detection and counting method of juvenile abalones based on improved SSD network

Detection and counting of abalones is one of key technologies of abalones breeding density estimation. The abalones in the breeding stage are small in size, densely distributed, and occluded between individuals, so the existing object detection algorithms have low precision for detecting the abalones in the breeding stage. To solve this problem, a detection and counting method of juvenile abalones based on improved SSD network is proposed in this research. The innovation points of this method are: Firstly, the multi-layer feature dynamic fusion method is proposed to obtain more color and texture information and improve detection precision of juvenile abalones with small size; secondly, the multi-scale attention feature extraction method is proposed to highlight shape and edge feature information of juvenile abalones and increase detection precision of juvenile abalones with dense distribution and individual coverage; finally, the loss feedback training method is used to increase the diversity of data and the pixels of juvenile abalones in the images to get the even higher detection precision of juvenile abalones with small size. The experimental results show that the [email protected] value, [email protected] value and [email protected] value of the detection results of the proposed method are 91.14%, 89.90% and 80.14%, respectively. The precision and recall rates of the counting results are 99.59% and 97.74%, respectively, which are superior to the counting results of SSD, FSSD, MutualGuide, EfficientDet and VarifocalNet models. The proposed method can provide support for real-time monitoring of aquaculture density for juvenile abalones.

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来源期刊
Information Processing in Agriculture
Information Processing in Agriculture Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
21.10
自引率
0.00%
发文量
80
期刊介绍: Information Processing in Agriculture (IPA) was established in 2013 and it encourages the development towards a science and technology of information processing in agriculture, through the following aims: • Promote the use of knowledge and methods from the information processing technologies in the agriculture; • Illustrate the experiences and publications of the institutes, universities and government, and also the profitable technologies on agriculture; • Provide opportunities and platform for exchanging knowledge, strategies and experiences among the researchers in information processing worldwide; • Promote and encourage interactions among agriculture Scientists, Meteorologists, Biologists (Pathologists/Entomologists) with IT Professionals and other stakeholders to develop and implement methods, techniques, tools, and issues related to information processing technology in agriculture; • Create and promote expert groups for development of agro-meteorological databases, crop and livestock modelling and applications for development of crop performance based decision support system. Topics of interest include, but are not limited to: • Smart Sensor and Wireless Sensor Network • Remote Sensing • Simulation, Optimization, Modeling and Automatic Control • Decision Support Systems, Intelligent Systems and Artificial Intelligence • Computer Vision and Image Processing • Inspection and Traceability for Food Quality • Precision Agriculture and Intelligent Instrument • The Internet of Things and Cloud Computing • Big Data and Data Mining
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