A hierarchical growth method for extracting 3D phenotypic trait of apple tree branch in edge computing

Accurately obtaining the length, quantity and distribution of fruit branches plays an important role in orchard irrigation management, disease control and improving fruits’ yield and quality. Recently, edge computing has been proposed for digital orchard management as it can increase computing power...

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Bibliographic Details
Published in:Wireless networks 2024-08, Vol.30 (6), p.5951-5966
Main Authors: Zhang, Yifan, Wu, Jintao, Yang, Hao, Zhang, Chengjian, Tang, Yutao
Format: Article
Language:English
Subjects:
Cloud computing
Communications Engineering
Computer Communication Networks
Disease control
Edge computing
Electrical Engineering
Engineering
Fruits
Image segmentation
Instance segmentation
IT in Business
Networks
Semantic segmentation
Water management
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Summary:Accurately obtaining the length, quantity and distribution of fruit branches plays an important role in orchard irrigation management, disease control and improving fruits’ yield and quality. Recently, edge computing has been proposed for digital orchard management as it can increase computing power for computationally intensive applications. However, due to the diversity of fruit tree morphological structures and the complexity of the planting environment, the traditional method of obtaining fruit tree phenotypes with centralized computing on cloud servers faces many challenges in terms of efficiency and accuracy. In this paper, we propose a hierarchical growing method (HG) suitable for deployment at the edge to achieve semantic segmentation and instance segmentation of fruit tree point clouds at the organ scale. Furthermore, extract fruit trees phenotypic trait at the organ scale based on the result of point clouds segmentation. Numerous experiment show that the proposed HG method can efficiently carry on instance segmentation of branches and phenotypic trait extraction by the joint analysis and processing of point cloud data. The MAE , RMSE and IOU of the primary branches reach 0.025 m, 0.113 and 0.720, respectively.
ISSN:1022-0038
1572-8196
DOI:10.1007/s11276-023-03385-7