智能棉花

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Li Zansong. The design and research of Camellia oleifera the picking test stand ［D］. Hefei: Anhui Agricultural UniZZZersity, 2017.
［14］　吴问天. 油茶果采戴机的要害部件设想取试验［D］. 折肥: 安徽农业大学, 2018.
Wu Wentian. The design and test of key components of Camellia oleifera picking machine ［D］. Hefei: Anhui Agricultural UniZZZersity, 2018.
［15］　饶洪辉, 张立怯, 皇登昇, 等. 电动胶辊旋转式油茶果采戴执止器设想取试验［J］. 农业机器学报, 2018, 49(9): 115-121.
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［18］　饶洪辉, 皇登昇, 王玉龙, 等. 液压驱动式油茶果采戴机设想取试验［J］. 农业机器学报, 2019, 50(5): 133-139, 147.
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［21］　 张习之, 李立君. 基于改制卷积自编码机的油茶果图像识别钻研［J］. 林业工程学报, 2019, 4(3): 118-124.
Zhang Xizhi, Li Lijun. Research of image recognition of Camellia oleifera fruit based on improZZZed conZZZolutional autoencoder ［J］. Journal of Forestry Engineering, 2019, 4(3): 118-124.
［22］　杨保海, 任全会, 李海生. 复纯环境下果园呆板人途径布局办法钻研［J］. 中国农机化学报, 2021, 42（2）: 134-138.
Yang Baohai, Ren Quanhui, Li Haisheng. Research on path planning method of orchard robot in compleV enZZZironment ［J］. Journal of Chinese Agricultural Mechanization, 2021, 42(2): 134-138.
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［24］　陈斌, 饶洪辉, 刘木华. 基于傅里叶形容子和Hu稳定矩的油茶果识别［J］. 浙江农业科学, 2020, 61(9): 1876-1880.
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［27］　 赵凯杰. 油茶果采戴机构-果树刚柔耦折动力学特性钻研［D］. 长沙: 中南林业科技大学, 2020.
Zhao Kaijie. Research on dynamics characteristics of rigidfleVible coupling of Camellia oleifera picking mechanismfruit tree ［D］. Changsha: Central South UniZZZersity of Forestry and Technology, 2020.