Study on linear move irrigation synchronization control system in virtual scene

文献类型: 外文期刊

第一作者: Yuan Yanwei

作者: Yuan Yanwei;Zhang Xiaochao;Zhao Huaping

作者机构:

关键词: Water saving;Linear move irrigation;towers;synchronization control;virtual reality

期刊名称:ICIC 2009: SECOND INTERNATIONAL CONFERENCE ON INFORMATION AND COMPUTING SCIENCE, VOL 3, PROCEEDINGS

ISSN:

年卷期: 2009 年

页码:

收录情况: SCI

摘要: linear move irrigation system is widely used for its water saving and high automatization character, but the traditional go-stop-go driving method made the linear move irrigator hard to control and hard to get good irrigation efforts. Thus new control way with high efficiency in operation and low consuming of water, electricity, other materials and human resource is needed to develop to avoid this problem. Because of the difficulty of examination, virtual reality technology is used to simulate the controlling and driving system in this thesis. Build three-dimension models of the irrigation system departments according to their scale with Pro/ENGINEER, and three-dimensional scenes of farmland with Multigen Creator software. Assemble the departments together to six towers with Multigen Creator and analysis the forces of the mechanical models of the irrigation system according to the principles of ground vehicle dynamics. Visual C + + 6.0 and Multigen Vega were used to program an application, which load the three-dimension models of the irrigation system into the scenes of farmland. Then simulate the control system and drive system to study the moving properties of towers when the alignment angle between two adjacent towers changes. The simulation results show that the system can reflect the large-scale irrigation factually, and can optimize control parameters through simulation.

分类号:

  • 相关文献

[1]The Research and Application of Virtual Reality (VR) Technology in Agriculture Science. Yu, Feng,Zhang, Jun-feng,Zhao, Ji-chun,Tan, Cuiping,Luan, Ru-peng,Zhao, Yousen. 2010

[2]Interactive Virtual Fruit Tree Pruning Simulation. Lv, M. M.,Lu, S. L.,Guo, X. Y.,Lv, M. M.,Lv, M. M.. 2015

[3]A REAL-TIME 3D VISUALIZATION APPROACH FOR THE APPEARANCE OF CROP LEAVES. Miao, Teng,Guo, Xinyu,Xiao, Boxiang,Wang, Chunjiang,Wen, Weiliang,Miao, Teng,Guo, Xinyu,Xiao, Boxiang,Wang, Chunjiang,Wen, Weiliang,Miao, Teng,Miao, Teng,Guo, Xinyu,Xiao, Boxiang,Wang, Chunjiang,Wen, Weiliang. 2016

[4]Crop yields, internal nutrient efficiency, and changes in soil properties in rice-wheat rotations under non-flooded mulching cultivation. Liu, XJ,Jiang, RF,Zhang, FS,Lu, SH,Zeng, XZ,Christie, P. 2005

[5]Wheat acclimate to water deficit by modifying carbohydrates metabolism, water use efficiency, and growth. Hu, MengYun,Li, Hui,Shi, ZhiGang,Xu, Ping,Zhang, Zhengbin.

[6]Evapotranspiration and irrigation scheduling for three landscape ornamentals in Beijing, China. Yuan, Xiaohuan,Teng, Wenjun,Yang, Xuejun,Wu, Juying.

[7]Band tillage with fertilizer application for unpuddled transplanting rice in northeast of China. Sarker, Khokan Kumer,Xu Chunlin,Sarker, Khokan Kumer,Wang Xiaoyan,Sarker, Khokan Kumer,Li Minjin,Li Lianhao,Liu Guiming. 2016

[8]Research Progress of New Water-saving Technology of Surface Irrigation in China. Deng, Zhong,Lv, Mouchao,Zhai, Guoliang,Cai, Jiumao,Gao, Jianmin. 2017

作者其他论文 更多>>

微信小程序