文献类型: 外文期刊
作者: Wu, Yandong 1 ; Wen, Weiliang 2 ; Gu, Shenghao 2 ; Huang, Guanmin 2 ; Wang, Chuanyu 2 ; Lu, Xianju 2 ; Xiao, Pengliang 1 ; Guo, Xinyu 2 ; Huang, Linsheng 1 ;
作者机构: 1.Anhui Univ, Natl Engn Res Ctr Agroecol Big Data Anal & Applica, Hefei 230601, Peoples R China
2.Beijing Acad Agr & Forestry Sci, Informat Technol Res Ctr, Beijing 100097, Peoples R China
3.Natl Engn Res Ctr Informat Technol Agr, Beijing Key Lab Digital Plant, Beijing 100097, Peoples R China
4.Nongxin Sci & Technol Beijing Co Ltd, Beijing 100097, Peoples R China
期刊名称:PLANT PHENOMICS ( 影响因子:6.5; 五年影响因子:7.5 )
ISSN: 2643-6515
年卷期: 2024 年 6 卷
页码:
收录情况: SCI
摘要: The 3 -dimensional (3D) modeling of crop canopies is fundamental for studying functional -structural plant models. Existing studies often fail to capture the structural characteristics of crop canopies, such as organ overlapping and resource competition. To address this issue, we propose a 3D maize modeling method based on computational intelligence. An initial 3D maize canopy is created using the t -distribution method to reflect characteristics of the plant architecture. The subsequent model considers the 3D phytomers of maize as intelligent agents. The aim is to maximize the ratio of sunlit leaf area, and by iteratively modifying the azimuth angle of the 3D phytomers, a 3D maize canopy model that maximizes light resource interception can be constructed. Additionally, the method incorporates a reflective approach to optimize the canopy and utilizes a mesh deformation technique for detecting and responding to leaf collisions within the canopy. Six canopy models of 2 varieties plus 3 planting densities was constructed for validation. The average R 2 of the difference in azimuth angle between adjacent leaves is 0.71, with a canopy coverage error range of 7% to 17%. Another 3D maize canopy model constructed using 12 distinct density gradients demonstrates the proportion of leaves perpendicular to the row direction increases along with the density. The proportion of these leaves steadily increased after 9 x 10 4 plants ha -1 . This study presents a 3D modeling method for the maize canopy. It is a beneficial exploration of swarm intelligence on crops and generates a new way for exploring efficient resources utilization of crop canopies.
- 相关文献
作者其他论文 更多>>
-
3D Reconstruction of Wheat Plants by Integrating Point Cloud Data and Virtual Design Optimization
作者:Gu, Wenxuan;Guo, Xinyu;Wen, Weiliang;Wu, Sheng;Lu, Xianju;Guo, Xinyu;Wen, Weiliang;Wu, Sheng;Zheng, Chenxi;Lu, Xianju;Chang, Wushuai;Xiao, Pengliang;Guo, Xinyu
关键词:wheat; plant architecture; three-dimensional reconstruction; virtual design; plant phenotyping
-
Automatic acquisition, analysis and wilting measurement of cotton 3D phenotype based on point cloud
作者:Hao, Haoyuan;Zhuang, Lvhan;Xu, Longqin;Li, Hongxin;Liu, Shuangyin;Hao, Haoyuan;Wu, Sheng;Li, Yuankun;Wen, Weiliang;Zhuang, Lvhan;Guo, Xinyu;Hao, Haoyuan;Wu, Sheng;Li, Yuankun;Wen, Weiliang;Zhuang, Lvhan;Guo, Xinyu;Hao, Haoyuan;Zhuang, Lvhan;Xu, Longqin;Li, Hongxin;Liu, Shuangyin;Li, Yuankun;Zhang, Yongjiang
关键词:Phenotypic analysis; Deep learning; Leaf wilting; Multi-view
-
Maize emergence rate and leaf emergence speed estimation via image detection under field rail-based phenotyping platform
作者:Zhuang, Lvhan;Hao, Haoyuan;Li, Jinhui;Xu, Longqin;Liu, Shuangyin;Zhuang, Lvhan;Wang, Chuanyu;Hao, Haoyuan;Guo, Xinyu;Zhuang, Lvhan;Wang, Chuanyu;Hao, Haoyuan;Guo, Xinyu;Zhuang, Lvhan;Hao, Haoyuan;Li, Jinhui;Xu, Longqin;Liu, Shuangyin;Zhuang, Lvhan;Hao, Haoyuan;Li, Jinhui;Xu, Longqin;Liu, Shuangyin
关键词:Field rail-based phenotyping platform; Emergence rate; Leaf emergence speed; Faster R-CNN; Mask R-CNN
-
Using high-throughput phenotype platform MVS-Pheno to reconstruct the 3D morphological structure of wheat
作者:Li, Wenrui;Zhao, Chunjiang;Li, Wenrui;Wu, Sheng;Wen, Weiliang;Lu, Xianju;Liu, Haishen;Zhang, Minggang;Xiao, Pengliang;Guo, Xinyu;Zhao, Chunjiang;Li, Wenrui;Wu, Sheng;Wen, Weiliang;Lu, Xianju;Liu, Haishen;Zhang, Minggang;Xiao, Pengliang;Guo, Xinyu
关键词:3D reconstruction; plant morphology; point cloud segmentation; Wheat
-
Using high-throughput phenotyping platform MVS-Pheno to decipher the genetic architecture of plant spatial geometric 3D phenotypes for maize
作者:Wu, Sheng;Zhang, Ying;Wen, Weiliang;Wang, Chuanyu;Lu, Xianju;Guo, Minkun;Guo, Xinyu;Zhao, Jiuran;Zhao, Chunjiang;Wu, Sheng;Zhang, Ying;Wen, Weiliang;Wang, Chuanyu;Lu, Xianju;Guo, Minkun;Guo, Xinyu;Zhao, Chunjiang;Zhao, Yanxin;Zhao, Jiuran
关键词:Maize; Plant architecture; 3D phenotypes; Genome-wide association study
-
Method for the real-time detection of tomato ripeness using a phenotype robot and RP-YolactEdge
作者:Wang, Yuanqiao;Zhao, Chunjiang;Wang, Yuanqiao;Gou, Wenbo;Wang, Chuanyu;Fan, Jiangchuan;Wen, Weiliang;Lu, Xianju;Zhao, Chunjiang;Wang, Yuanqiao;Gou, Wenbo;Wang, Chuanyu;Wen, Weiliang;Lu, Xianju;Guo, Xinyu;Fan, Jiangchuan
关键词:instance segmentation; phenotype robot; tomato; greenhouse-based plant phenotyping; ripeness detection
-
Plant microphenotype: from innovative imaging to computational analysis
作者:Zhang, Ying;Gu, Shenghao;Du, Jianjun;Huang, Guanmin;Lu, Xianju;Wang, Jinglu;Guo, Xinyu;Zhao, Chunjiang;Shi, Jiawei;Yang, Wanneng
关键词:computational phenotyping; genetic effects; imaging technique; microphenotype; trait identification
