计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
19期
103-106,177
,共5页
无线传感器网络%介质访问控制(MAC)协议%信道利用率%邻居周期表
無線傳感器網絡%介質訪問控製(MAC)協議%信道利用率%鄰居週期錶
무선전감기망락%개질방문공제(MAC)협의%신도이용솔%린거주기표
Wireless Sensor Network(WSN)%Media Access Control(MAC)protocol%channel-efficiency%the neighbors of the periodic table
BMAC(Berkeley Media Access Control)基于CSMA的无线传感器网络(WSN)异步MAC协议,它采用了低能量侦听(Low Power Listening,LPL)和扩展前导技术实现低功耗通信。但是其长前导对信道的占用,使得相邻节点无法进行数据传输,极大降低了信道利用率。基于BMAC 协议的运行机制提出了一种改进方案,该方案能够利用优化的邻居周期表和改进的带有间隙的前导载波帧序列技术结合,进一步缩短了前导载波,减小了网络能量损耗,增强了信道利用率,最终达到了节能的目的。NS-2仿真结果表明,改进后的协议在传输时延和网络能耗上均优于BMAC协议,实现了协议的高效性。
BMAC(Berkeley Media Access Control)基于CSMA的無線傳感器網絡(WSN)異步MAC協議,它採用瞭低能量偵聽(Low Power Listening,LPL)和擴展前導技術實現低功耗通信。但是其長前導對信道的佔用,使得相鄰節點無法進行數據傳輸,極大降低瞭信道利用率。基于BMAC 協議的運行機製提齣瞭一種改進方案,該方案能夠利用優化的鄰居週期錶和改進的帶有間隙的前導載波幀序列技術結閤,進一步縮短瞭前導載波,減小瞭網絡能量損耗,增彊瞭信道利用率,最終達到瞭節能的目的。NS-2倣真結果錶明,改進後的協議在傳輸時延和網絡能耗上均優于BMAC協議,實現瞭協議的高效性。
BMAC(Berkeley Media Access Control)기우CSMA적무선전감기망락(WSN)이보MAC협의,타채용료저능량정은(Low Power Listening,LPL)화확전전도기술실현저공모통신。단시기장전도대신도적점용,사득상린절점무법진행수거전수,겁대강저료신도이용솔。기우BMAC 협의적운행궤제제출료일충개진방안,해방안능구이용우화적린거주기표화개진적대유간극적전도재파정서렬기술결합,진일보축단료전도재파,감소료망락능량손모,증강료신도이용솔,최종체도료절능적목적。NS-2방진결과표명,개진후적협의재전수시연화망락능모상균우우BMAC협의,실현료협의적고효성。
Berkeley Media Access Control(BMAC)asynchronous Wireless Sensor Network(WSN)is based on CSMA MAC protocol. It uses a low-energy to listen(Low Power Listening, LPL)and expansion leading technology for a low-power communications. As its long preamble takes the channel, the neighbor is unable to transfer data, greatly reducing the channel efficiency. Based on operating mechanism of the BMAC agreement, this paper presents an improvement program, which takes advantage of optimized neighbors of the periodic table and improved with a gap leading technology combined with carrier frame sequence, further shortening the preamble carrier, reducing network energy loss, increasing channel efficiency, and ultimately it achieves the purpose of energy saving. NS-2 simulation results indicate that the improved protocol on the transmission delay and network energy consumption is superior to the BMAC to achieve efficient nature of the agreement.
