Research on section-based canopy leaf area online calculation model for the whole growth period of fruit trees
文献类型: 外文期刊
第一作者: Dou, Hanjie
作者: Dou, Hanjie;Wang, Mengmeng;Zhai, Changyuan;Zhang, Yanlong;Gu, Chenchen;Feng, Fan;Wang, Mengmeng;Zhao, Chunjiang;Dou, Hanjie;Zhao, Chunjiang
作者机构:
关键词: Orchard; Precision variable-rate spraying; Whole growth period; Section-based canopy; LiDAR; Leaf area calculation model
期刊名称:COMPUTERS AND ELECTRONICS IN AGRICULTURE ( 影响因子:8.9; 五年影响因子:9.3 )
ISSN: 0168-1699
年卷期: 2025 年 233 卷
页码:
收录情况: SCI
摘要: Fruit tree canopy leaf area is an important metric for calculating airflow and pesticide dose for accurate variable- rate applications (VRAs) in orchard air-assisted spraying. Existing canopy leaf area calculation models have been established based on the data of a single growth period and the whole canopy leaf area, and it is difficult to meet the precise VRA needs of orchard spraying during whole growth period of fruit trees. In this study, a feature information detection system for fruit tree canopies was designed based on light detection and ranging (LiDAR). Canopy leaf area and LiDAR point cloud detection tests were carried out on peach trees during their whole growth period. The changes of area of individual leaves, leaf number, LiDAR point clouds, and section-based canopy leaf areas and volumes at different growth stages were obtained. Based on least squares regression (LSR) Gaussian fitting and backpropagation (BP) neural network methods, the online calculation models of section-based canopy leaf area was established, and a model modification method was proposed. The R2 values of the LSR and BP models increased from 0.865 and 0.863 to 0.906 and 0.898, respectively, and the root-mean- square error (RMSE) decreased from 5110.65 cm2 and 5208.74 cm2 to 4325.37 cm2 and 4600.74 cm2, respectively. The accuracy of the model constructed by LSR Gaussian fitting was relatively high, and it was easier to deploy in VRA programs. Compared with those of the existing calculation models, the calculation accuracy and generality of the model constructed in this paper are improved, thus providing model support for the research and development of airflow and pesticide dose on-demand control systems for orchard precision variable-rate spraying.
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