Maize plant height automatic reading of measurement scale based on improved YOLOv5 lightweight model

IF 3.5 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE PeerJ Computer Science Pub Date : 2024-08-05 DOI:10.7717/peerj-cs.2207
Jiachao Li, Ya’nan Zhou, He Zhang, Dayu Pan, Ying Gu, Bin Luo
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Abstract

Background Plant height is a significant indicator of maize phenotypic morphology, and is closely related to crop growth, biomass, and lodging resistance. Obtaining the maize plant height accurately is of great significance for cultivating high-yielding maize varieties. Traditional measurement methods are labor-intensive and not conducive to data recording and storage. Therefore, it is very essential to implement the automated reading of maize plant height from measurement scales using object detection algorithms. Method This study proposed a lightweight detection model based on the improved YOLOv5. The MobileNetv3 network replaced the YOLOv5 backbone network, and the Normalization-based Attention Module attention mechanism module was introduced into the neck network. The CioU loss function was replaced with the EioU loss function. Finally, a combined algorithm was used to achieve the automatic reading of maize plant height from measurement scales. Results The improved model achieved an average precision of 98.6%, a computational complexity of 1.2 GFLOPs, and occupied 1.8 MB of memory. The detection frame rate on the computer was 54.1 fps. Through comparisons with models such as YOLOv5s, YOLOv7 and YOLOv8s, it was evident that the comprehensive performance of the improved model in this study was superior. Finally, a comparison between the algorithm’s 160 plant height data obtained from the test set and manual readings demonstrated that the relative error between the algorithm’s results and manual readings was within 0.2 cm, meeting the requirements of automatic reading of maize height measuring scale.
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基于改进型 YOLOv5 轻量级模型的玉米株高自动读取测量标尺
背景株高是玉米表型形态的重要指标,与作物生长、生物量和抗倒伏性密切相关。准确获取玉米株高对培育高产玉米品种具有重要意义。传统的测量方法劳动强度大,且不利于数据记录和存储。因此,利用物体检测算法实现从测量秤上自动读取玉米株高是非常必要的。方法本研究提出了一种基于改进型 YOLOv5 的轻量级检测模型。MobileNetv3 网络取代了 YOLOv5 骨干网络,并在颈部网络中引入了基于归一化注意力模块的注意力机制模块。CioU 损失函数被替换为 EioU 损失函数。最后,使用组合算法实现了从测量秤上自动读取玉米株高。结果改进后的模型平均精确度达到 98.6%,计算复杂度为 1.2 GFLOPs,占用内存 1.8 MB。计算机的检测帧频为 54.1 fps。通过与 YOLOv5s、YOLOv7 和 YOLOv8s 等模型的比较,可以看出本研究中改进模型的综合性能更胜一筹。最后,将算法从测试集中获得的 160 个植株高度数据与人工读数进行比较,结果表明算法结果与人工读数的相对误差在 0.2 厘米以内,符合玉米高度测量秤自动读数的要求。
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来源期刊
PeerJ Computer Science
PeerJ Computer Science Computer Science-General Computer Science
CiteScore
6.10
自引率
5.30%
发文量
332
审稿时长
10 weeks
期刊介绍: PeerJ Computer Science is the new open access journal covering all subject areas in computer science, with the backing of a prestigious advisory board and more than 300 academic editors.
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