摘要
为进一步提升我国插秧机的智能化控制水平,以软件架构精准监控角度为切入点,针对其核心装置进行设计。在理解智能插秧机组成结构与工作机理的基础上,建立适用于智能插秧机核心装置的软件架构控制模型,并依据软件架构数据通信作业流程设计相匹配的架构控制系统展开仿真试验。试验结果表明:软件架构设计下的智能插秧机,实现了信息的高效传输,系统运行稳定性可控制在90%以上,实现了插秧机硬件配置与软件架构的协同作业,整机稳定率由88.13%提升至93.96%。该思路可为智慧农业装备的发展提供一定的参考。
In order to further improve the intelligent control level of rice transplanting machine in China,the core devices were designed from the perspective of precise monitoring of software architecture.Based on the understanding of the structure and working mechanism of the intelligent transplanting machine,a software architecture control model for the core device of the transplanting machine was established,and the simulation test was carried out according to the architecture control system matching the data communication workflow of the software architecture.The results showed that the intelligent transplanting machine designed under the software architecture realized the efficient transmission of the information of the software architecture system,and the operation stability of the system could be controlled over 90%,and it realized the cooperative operation between hardware configuration and software architecture of the transplanting machine.The stability rate of the whole machine was increased from 88.13%to 93.96%,which would provide some references for the development of intelligent agricultural equipment.
作者
邱春红
Qiu Chunhong(Jiangsu Vocational College of Business,Nantong 226000,China)
出处
《农机化研究》
北大核心
2021年第1期70-75,共6页
Journal of Agricultural Mechanization Research
基金
江苏高校哲学社会科学研究项目(2018SJA1247)
江苏省现代教育技术研究2018年度智慧校园专项课题(2018-R-66871)。
关键词
智能插秧机
软件架构
控制系统
协同作业
稳定率
intelligent transplanting machine
software architecture
control system
cooperative operation
stability rate
