摘要
为解决网格化和智能化的无线电监测系统结构越来越复杂带来的多设备互联、异构模块协同和多任务并发的问题,设计无线电监测软件总线。运用构件技术、软件复用技术构造无线电监测各功能中间件,基于统一的标准协议设计各中间件的消息通信机制和工作调度机制,通过自定义模块实现流程定制与功能扩展,从而最终形成耦合度低、可扩展性和通用性强的无线电监测软件总线。通过在无线电考试保障监测中的应用结果表明,所设计总线能使各种设备间协同完成复杂的监测任务和24 h并发自组织监测,提高了系统的监测性能,具有良好的应用价值。
With the problems caused by more and more complex monitoring system structures while radio monitoring becomes grid and intelligent,the authors propose one solution for the radio monitoring system design and implementation based on software bus. The software bus of the radio monitoring system is realized through different kinds of functional middleware related to component technology and software reuse structure,and the designs of the message mechanism and scheduling mechanism on the basis of the unified standard protocol. It is featured as low coupling of modules,good scalability and strong commonality and high producing capacity appear in process customization and function extension of custom modules. It is practical in the national master's test that shows the software bus ensures the performance of complex monitoring task and the organization monitoring in 24 hours. The software bus of radio monitoring system can improve the system performance and has good application value.
出处
《西华大学学报(自然科学版)》
CAS
2014年第3期6-10,共5页
Journal of Xihua University:Natural Science Edition
基金
四川省科技支撑计划(2012GZ0019
2013GXZ0155)
四川省科技创新苗子工程资助项目(20132026)
西华大学重点实验室开放研究基金(szjj2012-032)
关键词
无线电监测
构件
软件复用
软件总线
中间件
消息机制
调度机制
radio monitoring
component
software reuse
software bus
middleware
message mechanism
scheduling mechanism
