传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2014年
11期
1527-1533
,共7页
张轩%刘昊%李智群%LI Zhiqun
張軒%劉昊%李智群%LI Zhiqun
장헌%류호%리지군%LI Zhiqun
无线传感器网络%超低功耗%时钟校准%同步机制
無線傳感器網絡%超低功耗%時鐘校準%同步機製
무선전감기망락%초저공모%시종교준%동보궤제
wireless sensor network%ultra low power consumption%clock calibration%synchronization mechanism
在无线传感器网络中,能量是一个关键资源。传感器网络节点通常在大部分时间里处于休眠状态以节约能量。其中,节点间精确地同步和超低的休眠功耗能够本质上延长无线传感器网络节点的寿命。然而现实中节点在唤醒周期设置、时钟源选择和网络节点同步时很难满足理论研究时提出的要求。因此,提出了一种低功耗无线传感器网络MAC协议:允许节点使用多种时钟源实现功耗最优配置,在休眠时采用内部时钟以达到最低功耗,在工作时采用外部晶振以保证射频性能,同时为了解决多时钟源误差增大且休眠周期变化带来的问题,提出了多时钟源休眠唤醒机制和节点同步策略。最后文章在IEEE802.15.4硬件测试平台上完成了多时钟源MAC协议与SMAC协议的实证测试,结果表明对比SMAC协议的唤醒和同步机制,低功耗无线传感器网络MAC协议在传感器网络节点上能够极大地减少休眠功耗并显著地节约同步的时间,从而大大延长节点寿命。
在無線傳感器網絡中,能量是一箇關鍵資源。傳感器網絡節點通常在大部分時間裏處于休眠狀態以節約能量。其中,節點間精確地同步和超低的休眠功耗能夠本質上延長無線傳感器網絡節點的壽命。然而現實中節點在喚醒週期設置、時鐘源選擇和網絡節點同步時很難滿足理論研究時提齣的要求。因此,提齣瞭一種低功耗無線傳感器網絡MAC協議:允許節點使用多種時鐘源實現功耗最優配置,在休眠時採用內部時鐘以達到最低功耗,在工作時採用外部晶振以保證射頻性能,同時為瞭解決多時鐘源誤差增大且休眠週期變化帶來的問題,提齣瞭多時鐘源休眠喚醒機製和節點同步策略。最後文章在IEEE802.15.4硬件測試平檯上完成瞭多時鐘源MAC協議與SMAC協議的實證測試,結果錶明對比SMAC協議的喚醒和同步機製,低功耗無線傳感器網絡MAC協議在傳感器網絡節點上能夠極大地減少休眠功耗併顯著地節約同步的時間,從而大大延長節點壽命。
재무선전감기망락중,능량시일개관건자원。전감기망락절점통상재대부분시간리처우휴면상태이절약능량。기중,절점간정학지동보화초저적휴면공모능구본질상연장무선전감기망락절점적수명。연이현실중절점재환성주기설치、시종원선택화망락절점동보시흔난만족이론연구시제출적요구。인차,제출료일충저공모무선전감기망락MAC협의:윤허절점사용다충시종원실현공모최우배치,재휴면시채용내부시종이체도최저공모,재공작시채용외부정진이보증사빈성능,동시위료해결다시종원오차증대차휴면주기변화대래적문제,제출료다시종원휴면환성궤제화절점동보책략。최후문장재IEEE802.15.4경건측시평태상완성료다시종원MAC협의여SMAC협의적실증측시,결과표명대비SMAC협의적환성화동보궤제,저공모무선전감기망락MAC협의재전감기망락절점상능구겁대지감소휴면공모병현저지절약동보적시간,종이대대연장절점수명。
Energy is a critical resource in wireless sensor networks. In order to save the power,sensor nodes need to sleep most of time. Therefore,precise synchronization between nodes and ultra-low sleeping energy consumption is essential for prolonging network lifetime. However,when considering the configuration of wake-up time,clock source selection and the nodes synchronization problem in the actual use of the environment. There are some problems diffi-cult to meet the requirements of the theory research. A new ultra-low power WSN MAC protocol( ULP-MAC) is pro-posed:Allow the sensor nodes to use serval kinds of clock to realize the optimal configuration of power consumption, using internal clock for the lowest power comsumption and switching to outside clock for the RF transceiver. At the same time,in order to slove the problem about the clock error increasing and the change of sleep cycle,this paper proposes the multi-clock wake-up mechanism and the nodes synchronization strategy. Finally this paper evaluates the introduced protocol and the SMAC protocol in a realistic IEEE802.15.4 test bed. The results show that,com-pared to SMAC mechanism,the ULP-MAC,which significantly decrease the sleep power comsumption and the syn-chronization time,greatly extend the life of the nodes.
