起重运输机械
起重運輸機械
기중운수궤계
HOISTING AND CONVEYING MACHINERY
2013年
10期
66-69
,共4页
起重机能耗%TinyOS%感知节点
起重機能耗%TinyOS%感知節點
기중궤능모%TinyOS%감지절점
crane energy-consumption%TinyOS%sensor node
介绍了TinyOS在CC2430芯片上的移植方法,总结了TinyOS在进行无线发送时相关组件的调用流程。针对起重机能耗感知系统的数据采集需要,在硬件和软件上设计了一套可行的数据采集方案。通过在设计好的硬件模块上编写基于TinyOS的系统测试代码,表明节点达到理想的应用效果。
介紹瞭TinyOS在CC2430芯片上的移植方法,總結瞭TinyOS在進行無線髮送時相關組件的調用流程。針對起重機能耗感知繫統的數據採集需要,在硬件和軟件上設計瞭一套可行的數據採集方案。通過在設計好的硬件模塊上編寫基于TinyOS的繫統測試代碼,錶明節點達到理想的應用效果。
개소료TinyOS재CC2430심편상적이식방법,총결료TinyOS재진행무선발송시상관조건적조용류정。침대기중궤능모감지계통적수거채집수요,재경건화연건상설계료일투가행적수거채집방안。통과재설계호적경건모괴상편사기우TinyOS적계통측시대마,표명절점체도이상적응용효과。
The paper introduces the transfer method of TinyOS on the CC2430 chip and briefs the call process of relat-ed components during wireless transmission of TinyOS.Aiming at data collection needs of crane energy-consumption sensor system,a practical data collection plan is designed on hardware and software.The TinyOS-based system test code is written on the designed hardware modular,which shows that the nodes can reach ideal application effect.