科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2013年
8期
163-165
,共3页
MAC协议%无线传感器网络%最小竞争窗口值%丢包率%吞吐量
MAC協議%無線傳感器網絡%最小競爭窗口值%丟包率%吞吐量
MAC협의%무선전감기망락%최소경쟁창구치%주포솔%탄토량
MAC protocols%wireless senor networks%the value of minimum competition window%data loss ratio%the through-put
MAC协议采用的传统网络技术是将每个节点在信息传输过程中都看作目标节点,使每个这些基点拥有同等的信道访问机会。而对于访问方式为树状的无线传感器网络技术,均等的信道访问机会就会造成信道、信息能量等信息资源的浪费。针对MAC协议的CSMA/CA信道访问的信息传输方式与无线传感器网络技术的树状传输特点不能完全匹配问题,提出了一种网络拓扑的MAC协议信道优化模型。首先构建了传输层中每层的最小竞争窗口值来改变每个节点的信道抢占概率,将每个节点的均等信道访问方式变为信道的非均等访问方式,同时研究了节点最小竞争窗口值计算模型,给出了最小竞争窗口上限值,使信道访问方式达到与树状拓扑无线传感器网络的匹配,从信息丢包率及吞吐量等方面分析说明该优化提高了信道资源利用率。
MAC協議採用的傳統網絡技術是將每箇節點在信息傳輸過程中都看作目標節點,使每箇這些基點擁有同等的信道訪問機會。而對于訪問方式為樹狀的無線傳感器網絡技術,均等的信道訪問機會就會造成信道、信息能量等信息資源的浪費。針對MAC協議的CSMA/CA信道訪問的信息傳輸方式與無線傳感器網絡技術的樹狀傳輸特點不能完全匹配問題,提齣瞭一種網絡拓撲的MAC協議信道優化模型。首先構建瞭傳輸層中每層的最小競爭窗口值來改變每箇節點的信道搶佔概率,將每箇節點的均等信道訪問方式變為信道的非均等訪問方式,同時研究瞭節點最小競爭窗口值計算模型,給齣瞭最小競爭窗口上限值,使信道訪問方式達到與樹狀拓撲無線傳感器網絡的匹配,從信息丟包率及吞吐量等方麵分析說明該優化提高瞭信道資源利用率。
MAC협의채용적전통망락기술시장매개절점재신식전수과정중도간작목표절점,사매개저사기점옹유동등적신도방문궤회。이대우방문방식위수상적무선전감기망락기술,균등적신도방문궤회취회조성신도、신식능량등신식자원적낭비。침대MAC협의적CSMA/CA신도방문적신식전수방식여무선전감기망락기술적수상전수특점불능완전필배문제,제출료일충망락탁복적MAC협의신도우화모형。수선구건료전수층중매층적최소경쟁창구치래개변매개절점적신도창점개솔,장매개절점적균등신도방문방식변위신도적비균등방문방식,동시연구료절점최소경쟁창구치계산모형,급출료최소경쟁창구상한치,사신도방문방식체도여수상탁복무선전감기망락적필배,종신식주포솔급탄토량등방면분석설명해우화제고료신도자원이용솔。
The traditions network technical based on MAC protocol considered every node as the aim node, which make every node has the same chance on channel access. In wireless senor networks, we analyzed the conflict between Carrier Sense Multiple Access with Collision Avoidance (CAMA/CA) based MAC protocols and the tree structured transmission in wireless sensor networks. Based on the address of the transmission feature of wireless sensor networks, we proposed a MAC layer optimal algorithm. And the algorithm improves the equal channel access strategy in CAMA/CA and adjusts the channel access strategy based on the location of the nodes in the transmission tree to fit the transmission feature of wireless sensor networks, which enhance the network fairness. The objective of the algorithm is to improve MAC efficien-cy, including loss ratio, throughput. The performance on data loss ratio and the throughput of the algorithm are verified via the simulation results.
