Transplanting Path Planning and Motion Functions Research of the High-Speed Tray Seedling Transplanting Robot

Jun Ma; Jian Ping Hu; Xiao Yue Yan; Chun Hui Qi; Jing Guan

doi:10.4028/www.scientific.net/AMR.694-697.1747

Paper Titles

The Kinematic Parameters Optimization for a New Type 3-DOF Parallel Manipulator
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Mechanism Design and Kinematics for Parallel Manipulators with a UPU Limb
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Modular Design Concept of a Humanoid Robot Platform
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Application of Generalized Function Set in the Lying States Classification of a Humanoid Robot
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Transplanting Path Planning and Motion Functions Research of the High-Speed Tray Seedling Transplanting Robot
p.1747

Mechanism Design and Analysis of a Foot Massage Robot
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Overall Design of an Articulated Stop-Motion Shooting Robot
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Kinematic Simulation of Hydraulic Excavator’s Working Attachment Based on Matlab/Robot
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A Feasible and Applicable Motion Control Method for AUV
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 694-697Transplanting Path Planning and Motion Functions...

Transplanting Path Planning and Motion Functions Research of the High-Speed Tray Seedling Transplanting Robot

Abstract:

High-speed tray seedling transplanting robot was developed which used two-DOF parallel mechanism as transplanting mechanism, and pneumatic manipulator as the end-effector, so it can achieve high speed of transplanting. According to transplanting seedlings from high-density plug to the low-density plug, a type of transplanting path was put forward which consists of rise, translation and decline, in this paper, it was called three-stage trajectory. Analysis the movement characteristic of each stage, make sure the stability of transplanting, then the sine motion law, quintic polynomial motion law and septic polynomial motion law were put forward as the Transplanting movement function according the analysis of movement characteristic. Compared the transplanting efficiency and stability of the three motion law through their velocity, acceleration and saltus, finally, quintic polynomial motion law was preferred as transplanting robot motion law. Transplanting experiment was taken on the developed prototype, the transplanting frequency was more than 60 per minute and the qualified rate can reach 92.71%.

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Periodical:

Advanced Materials Research (Volumes 694-697)

Pages:

1747-1752

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.694-697.1747

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Online since:

May 2013

Authors:

Jun Ma, Jian Ping Hu, Xiao Yue Yan, Chun Hui Qi, Jing Guan

Keywords:

Motion Law, Path Planning, Seedling, Transplanting Robot

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References

[1] Zhang Lihua,Qiu Lichun,Tian Subo.[J].Agricultural Science&Technology and Equipment. 2006,5(185) :28-31.(in Chinese )

Google Scholar

[2] Transplanting robot developed in Japan. Robot Technology and Application, 2000, (5):17.

Google Scholar

[3] K. H. Ryu; G. Kim; J. S. Han. Automation and Emerging Technologies. (2001) 78 (2) 141-146

Google Scholar

[4] Junhua Tong, Huanyu Jiang, Xiaolong Xu, and Chao Fang.Knowledge Engineering and Management.2011:33-39.

Google Scholar

[5] Feng Shijia,Xie Jun,Zhu Wei,Ma Lvzhong.Machinery Design&Manufacture. 2008,03: 166-168. (in Chinese)

Google Scholar

[6] Zhang Guozhong,Xu Qichuan,Pan Yulong. Journal of Huazhong Agricultural University.2004, 08:464-466. (in Chinese)

Google Scholar

[7] Huang Tian, Li zhao xian,Li Meng．Jamal of Mechanical Design，2004,126(5):449-455．

Google Scholar

[8] Xu Liming, Zhang Tiezhong,Shi Zhiqing. Journal of China Agricultural University. 2000,5(4):58-60. (in Chinese)

Google Scholar

[9] Chen Hengjun, Mei Jiangping. Journal of mechanical engineering. 2007 43（11）：63-68. (in Chinese)

Google Scholar

[10] WANG Pan-feng,MEI Jiang-ping,HUANG Tian. Journal of Tianjin University, 2007, 10:1139-1145. (in Chinese )

Google Scholar

[11] W C Choi, D C Kim,I H Ryu,et al. Transactions of the ASAE,Vol.45, No.1, pp.13-19 ,(2002)

Google Scholar

[12] Ma Ruijun, Ou Yinggang, Zhao Zuoxi, Li Zhiwei. Transactions of The Chinese Society of Agricultural Engineering, 2003,19（1）:113-116. (in Chinese)

Google Scholar

[13] Li Jianqiao,Zhang Guofeng,Chen Jianning, Journal of Agricultural Mechanization Research, 2008,02（2）:1-5. (in Chinese)

Google Scholar

[14] Zhang Yong,Zhang Xian-min,Hu Jun-feng, High-Velocity Parallel Manipulator Optima Time Trajectory Planning and Implement. Mechanical & Electrical Engineering Technology, 2010, 10（39）：42-45. (in Chinese)

Google Scholar