Design and Experiment of Ordinary Tea Profiling Harvesting Device Based on Light Detection and Ranging Perception

Q2 Agricultural and Biological Sciences

Agriculture Pub Date : 2024-07-15 DOI:10.3390/agriculture14071147

Xiaolong Huan, Min Wu, Xianbing Bian, Jiangming Jia, Chenchen Kang, Chuanyu Wu, Runmao Zhao, Jianneng Chen

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引用次数: 0

Abstract

Due to the complex shape of the tea tree canopy and the large undulation of a tea garden terrain, the quality of fresh tea leaves harvested by existing tea harvesting machines is poor. This study proposed a tea canopy surface profiling method based on 2D LiDAR perception and investigated the extraction and fitting methods of canopy point clouds. Meanwhile, a tea profiling harvester prototype was developed and field tests were conducted. The tea profiling harvesting device adopted a scheme of sectional arrangement of multiple groups of profiling tea harvesting units, and each unit sensed the height information of its own bottom canopy area through 2D LiDAR. A cross-platform communication network was established, enabling point cloud fitting of tea plant surfaces and accurate estimation of cutter profiling height through the RANSAC algorithm. Additionally, a sensing control system with multiple execution units was developed using rapid control prototype technology. The results of field tests showed that the bud leaf integrity rate was 84.64%, the impurity rate was 5.94%, the missing collection rate was 0.30%, and the missing harvesting rate was 0.68%. Furthermore, 89.57% of the harvested tea could be processed into commercial tea, with 88.34% consisting of young tea shoots with one bud and three leaves or fewer. All of these results demonstrated that the proposed device effectively meets the technical standards for machine-harvested tea and the requirements of standard tea processing techniques. Moreover, compared to other commercial tea harvesters, the proposed tea profiling harvesting device demonstrated improved performance in harvesting fresh tea leaves.

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基于光探测和测距感知的普通茶叶剖面采集装置的设计与实验

由于茶树树冠形状复杂，茶园地形起伏较大，现有采茶机采摘的茶叶鲜叶质量较差。本研究提出了一种基于二维激光雷达感知的茶树冠层表面轮廓测量方法，并研究了冠层点云的提取和拟合方法。同时，研制了茶叶仿形采摘机原型，并进行了现场试验。茶叶仿形采摘装置采用了多组仿形采茶单元分段布置的方案，每个单元通过二维激光雷达感知自身底部冠层区域的高度信息。建立了跨平台的通信网络，通过 RANSAC 算法实现了茶树表面的点云拟合和切割机剖面高度的精确估算。此外，还利用快速控制原型技术开发了具有多个执行单元的传感控制系统。现场测试结果表明，芽叶完整率为 84.64%，杂质率为 5.94%，漏收率为 0.30%，漏采率为 0.68%。此外，89.57% 的采摘茶叶可加工成商品茶，其中 88.34% 是一芽三叶或以下的嫩芽茶。所有这些结果都表明，该设备有效地满足了机采茶的技术标准和标准茶叶加工工艺的要求。此外，与其他商用茶叶采摘机相比，拟议的茶叶剖面采摘装置在采摘新鲜茶叶方面表现出更高的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agriculture Agricultural and Biological Sciences-Horticulture

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

11 weeks

期刊介绍： The Agriculture (Poľnohospodárstvo) is a peer-reviewed international journal that publishes mainly original research papers. The journal examines various aspects of research and is devoted to the publication of papers dealing with the following subjects: plant nutrition, protection, breeding, genetics and biotechnology, quality of plant products, grassland, mountain agriculture and environment, soil science and conservation, mechanization and economics of plant production and other spheres of plant science. Journal is published 4 times per year.