电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
1期
133-140
,共8页
任智%徐中浩*%曹建玲%陈前斌
任智%徐中浩*%曹建玲%陳前斌
임지%서중호*%조건령%진전빈
无线传感器网络%梯度路由%双向传输%节能%跨层设计
無線傳感器網絡%梯度路由%雙嚮傳輸%節能%跨層設計
무선전감기망락%제도로유%쌍향전수%절능%과층설계
Wireless Sensor Networks (WSN)%Gradient routing%Bidirectional transmission%Energy conservation%Cross-layer design
针对现有无线传感器网络梯度路由算法在下行路由创建过程和能量更新机制中存在冗余控制开销的问题,该文提出一种采用跨层和功率控制机制,具有节能功能的双向梯度路由算法(Cross-layer Energy-efficient Bidirectional Routing, CEBR):无需使用专门的控制分组,采用源路由方式以较小开销建立从Sink节点通往传感器节点的下行路由;通过跨层信息共享,定期采集节点剩余能量信息并按需发布;设计使用含跳数和节点剩余能量的合成路由度量标准,减少节点能量和网络带宽消耗的同时均衡节点能耗;结合 RSSI(Received Signal Strength Indication)测距实现节点发射功率控制从而在数据及查询分组发送过程中节约节点能量.理论分析表明了CEBR的有效性;仿真结果显示:与现有的典型相关算法相比,CEBR能够在建立双向梯度路由的前提下,至少降低34.5%的归一化控制开销和27.12%的数据分组平均能耗,并使网络生存期延长18.98%以上.
針對現有無線傳感器網絡梯度路由算法在下行路由創建過程和能量更新機製中存在冗餘控製開銷的問題,該文提齣一種採用跨層和功率控製機製,具有節能功能的雙嚮梯度路由算法(Cross-layer Energy-efficient Bidirectional Routing, CEBR):無需使用專門的控製分組,採用源路由方式以較小開銷建立從Sink節點通往傳感器節點的下行路由;通過跨層信息共享,定期採集節點剩餘能量信息併按需髮佈;設計使用含跳數和節點剩餘能量的閤成路由度量標準,減少節點能量和網絡帶寬消耗的同時均衡節點能耗;結閤 RSSI(Received Signal Strength Indication)測距實現節點髮射功率控製從而在數據及查詢分組髮送過程中節約節點能量.理論分析錶明瞭CEBR的有效性;倣真結果顯示:與現有的典型相關算法相比,CEBR能夠在建立雙嚮梯度路由的前提下,至少降低34.5%的歸一化控製開銷和27.12%的數據分組平均能耗,併使網絡生存期延長18.98%以上.
침대현유무선전감기망락제도로유산법재하행로유창건과정화능량경신궤제중존재용여공제개소적문제,해문제출일충채용과층화공솔공제궤제,구유절능공능적쌍향제도로유산법(Cross-layer Energy-efficient Bidirectional Routing, CEBR):무수사용전문적공제분조,채용원로유방식이교소개소건립종Sink절점통왕전감기절점적하행로유;통과과층신식공향,정기채집절점잉여능량신식병안수발포;설계사용함도수화절점잉여능량적합성로유도량표준,감소절점능량화망락대관소모적동시균형절점능모;결합 RSSI(Received Signal Strength Indication)측거실현절점발사공솔공제종이재수거급사순분조발송과정중절약절점능량.이론분석표명료CEBR적유효성;방진결과현시:여현유적전형상관산법상비,CEBR능구재건립쌍향제도로유적전제하,지소강저34.5%적귀일화공제개소화27.12%적수거분조평균능모,병사망락생존기연장18.98%이상.
To reduce the redundant control overhead in the process of creating downstream routes and the mechanism of updating energy information, a Cross-layer Energy-efficient Bidirectional Routing(CEBR) algorithm is proposed. CEBR establishes downstream routes from the sink node to sensor nodes by the means of source routing and obtains the information of nodes’ residual energy through cross-layer information sharing. An integrated routing criterion which includes hop counts and nodes’ residual energy is designed to balance nodes’ energy consumption. In addition, a power control mechanism is presented to save nodes’ energy based on Received Signal Strength Indication (RSSI). Theoretical analysis verifies the effectiveness of CEBR. Also, simulation results show that CEBR reduces at least 34.5%of the normalized control overhead and 27.12%of the average energy consumption of a data packet, and extends the network lifetime by at least 18.98%, as compared to the existing classic algorithms.
