UAV-SfM Photogrammetry for Canopy Characterization Toward Unmanned Aerial Spraying Systems Precision Pesticide Application in an Orchard
文献类型: 外文期刊
第一作者: Bing, Qi
作者: Bing, Qi;Chen, Liping;Bing, Qi;Chen, Liping;Zhang, Ruirui;Zhang, Linhuan;Li, Longlong
作者机构:
关键词: UAV-SfM; canopy characteristic; precision pesticide application; UASS; orchard
期刊名称:DRONES ( 影响因子:4.8; 五年影响因子:5.0 )
ISSN:
年卷期: 2025 年 9 卷 2 期
页码:
收录情况: SCI
摘要: The development of unmanned aerial spraying systems (UASSs) has significantly transformed pest and disease control methods of crop plants. Precisely adjusting pesticide application rates based on the target conditions is an effective method to improve pesticide use efficiency. In orchard spraying, the structural characteristics of the canopy are crucial for guiding the pesticide application system to adjust spraying parameters. This study selected mango trees as the research sample and evaluated the differences between UAV aerial photography with a Structure from Motion (SfM) algorithm and airborne LiDAR in the results of extracting canopy parameters. The maximum canopy height, canopy projection area, and canopy volume parameters were extracted from the canopy height model of SfM (CHMSfM) and the canopy height model of LiDAR (CHMLiDAR) by grids with the same width as the planting rows (5.0 m) and 14 different heights (0.2 m, 0.3 m, 0.4 m, 0.5 m, 0.6 m, 0.8 m, 1.0 m, 2.0 m, 3.0 m, 4.0 m, 5.0 m, 6.0 m, 8.0 m, and 10.0 m), respectively. Linear regression equations were used to fit the canopy parameters obtained from different sensors. The correlation was evaluated using R2 and rRMSE, and a t-test (alpha = 0.05) was employed to assess the significance of the differences. The results show that as the grid height increases, the R2 values for the maximum canopy height, projection area, and canopy volume extracted from CHMSfM and CHMLiDAR increase, while the rRMSE values decrease. When the grid height is 10.0 m, the R2 for the maximum canopy height extracted from the two models is 92.85%, with an rRMSE of 0.0563. For the canopy projection area, the R2 is 97.83%, with an rRMSE of 0.01, and for the canopy volume, the R2 is 98.35%, with an rRMSE of 0.0337. When the grid height exceeds 1.0 m, the t-test results for the three parameters are all greater than 0.05, accepting the hypothesis that there is no significant difference in the canopy parameters obtained by the two sensors. Additionally, using the coordinates x0 of the intersection of the linear regression equation and y=x as a reference, CHMSfM tends to overestimate lower canopy maximum height and projection area, and underestimate higher canopy maximum height and projection area compared to CHMLiDAR. This to some extent reflects that the surface of CHMSfM is smoother. This study demonstrates the effectiveness of extracting canopy parameters to guide UASS systems for variable-rate spraying based on UAV oblique photography combined with the SfM algorithm.
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