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磁导航AGV控制系统的设计与实现 被引量:44

Design and Implementation of the Magnetic Navigation AGV Control System
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摘要 为保证磁导航AGV控制系统的可扩性与稳定性,提出一种基于CAN总线的控制系统,其硬件架构以嵌入式工控机为核心,通过CAN总线挂接多个控制外围设备的ARM处理器。重点给出了系统运动控制器与监控管理系统的实现方案。基于中断任务调度模式实现了运动控制器,由模糊自整定PD调节器来改良AGV的动态跟踪行为;监控管理系统包括六种交互模块,其发送与接收通信过程通过适时线程挂起与逐步接收匹配操作来协作完成。经现场实测,AGV工作稳定可靠,跟踪效果良好。 To guarantee scalability and stability of the magnetic navigation AGV control system,a control system was built based on the CAN bus. The system's hardware architecture was formed by embedded industrial computers at its core,and through the CAN bus connects several ARM processors that control the peripherals. It focuses on the solutions to the motion controller and monitoring & management system. The motion controller was facilitated with the application of the interrupt tasks scheduling model,and the AGV's dynamic tracking performance was improved by the self-tuning PD controller. The monitoring and management system was made up of six mutual modules,and it transmits and receives messages through thread suspending in proper time and the matching operations of receiving gradually. According to practical testing,the AGV system works well and possesses a good tracking performance.
作者 郑炳坤 赖乙宗 叶峰
机构地区 华南理工大学机械与汽车工程学院
出处 《自动化与仪表》 北大核心 2014年第3期6-10,共5页 Automation & Instrumentation
基金 广东省精密装备与制造技术重点实验室(PEMT1203) 广东省产学研重大专项(2012A090300013 2012B011300055)
关键词 自动导向车 磁导航AGV 控制系统 监控管理系统 运动控制器 automated guided vehicle (AGV) magnetic navigation AGV control system monitoring and managementsystem motion controller
分类号 TP24 [自动化与计算机技术—检测技术与自动化装置]
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共引文献26

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引证文献44

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自动化与仪表
2014年 第3期

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