摘要
为构建具有高清纹理特征的美国白蛾三维模型,并对美国白蛾三维模型进行精度评价,开展单目多视角图像的美国白蛾三维重建的研究。首先构建昆虫多视角图像采集系统,实现对美国白蛾高质量序列图像自动化获取,建立美国白蛾高质量序列图像样本库。然后利用SFM与MVS相结合的方法,实现美国白蛾精准三维模型重建。最后以美国白蛾形态参数对重建的美国白蛾三维模型进行精度评估试验。结果表明,待评估值与参照值的相对误差小于5%、R^(2)大于0.95。所重建的美国白蛾精准三维模型可以为深度学习样本扩增、植保病虫害识别与防控提供重要基础数据。
In order to construct the 3D model of H.cunea with high-definition texture features,and to evaluate the accuracy of the 3D model of H.cunea objectively and quantitatively,the research and experiment of 3D reconstruction of H.cunea was carried out in this paper.Firstly,the multi-view images acquisition system for insect was constructed.The multi-view images acquisition system was used to acquire high-quality sequence images of H.cunea,and the sample library of high-quality sequence image of H.cunea was established.Secondly,Structure from Motion(SFM)and Multiple View Stereo(MVS)algorithm were combined for the accurate 3D model reconstruction of H.cunea.Finally,the accuracy evaluation experiment of the reconstructed 3D model of H.cunea was carried out by morphological parameters.The experimental results showed that the relative error between the evaluated value and the reference value was less than 5%,and the R^(2) was greater than 0.95.The precise 3D model of H.cunea reconstructed in this paper can provide basic and intuitive data for deep learning sample augmentation,identification and control of plant diseases and pests.
作者
舒卓
陈立平
陈梅香
张瑞瑞
郭新宇
温维亮
Shu Zhuo;Chen Liping;Chen Meixiang;Zhang Ruirui;Guo Xinyu;Wen Weiliang(College of Mechanical and Electronic Engineering,Northwest A&F University,Yangling,712100,China;National Engineering Research Center of Intelligent Equipment for Agriculture,Beijing,100097,China;National Engineering Research Center for Information Technology in Agriculture/Beijing Key Lab of Digital Plant,Beijing,100097,China)
出处
《中国农机化学报》
北大核心
2023年第8期168-173,共6页
Journal of Chinese Agricultural Mechanization
基金
国家自然科学基金面上项目(31971581)
北京市农林科学院创新能力建设专项(KJCX20200206)
北京市农林科学院杰出科学家培育专项(JKZX201903)。
关键词
三维重建
多视角图像
机器视觉
美国白蛾
重建效果评价
虫害防控
3D reconstruction
multi-view images
machine vision
Hyphantria cunea(Drury)
reconstruction effect evaluation
pest control
