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基于能量感知的数据汇聚和路由协议 被引量:16

An Energy-Aware Data Gathering and Routing Protocol for WSN
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摘要 提出了一种分布式的高效节能的传感器网络数据收集和聚合协议,网络中节点根据与基站的远近划分成不同的层次.协议优先选择能量充足并且距离基站最近的节点直接与基站通信,其他节点的数据则通过邻接节点逐层聚合和转发,最后传送到该节点上.因为与基站通信的能量代价太高,直接与基站通信的节点能量消耗很快.当距离基站近的节点能量过低时,协议将选择距离基站较远的节点直接与基站通信.通过顶层节点迁移机制,MTP协议能够很好地将能量损耗均匀分布到所有节点. This paper presents a distributed, energy-efficient data gathering and routing protocol for wireless sensor network. In the algorithm, each sensor node is assigned a tier ID in according to the distance between the node and the base station. Nodes closer to the base station are assigned lower tier IDs. When gathering data, nodes with higher tier IDs send their data to their neighbors who have lower tier IDs where the data is aggregated and then forwarded to nodes with even lower tier IDs. Therefore, the communication is conducted at a low energy level, and the data travels, layer by layer, toward nodes with the lowest tier IDs. When the data reaches the nodes with the lowest tier ID, the system selects a node among them to directly communicate with the base station. Because long-distance communication with the base station is energy-consuming, the node sending data to the base station will have its energy drained off very fast so that it die much earlier than other nodes. A mechanism is proposed to shift the long-distance communication among all network nodes, which is called the top-tier shifting mechanism. Using this mechanism, energy consumption can be evenly distributed among all network nodes, and the network lifetime is prolonged.
作者 刘昕 王全玉 金旭亮
机构地区 北京理工大学计算机科学与技术系
出处 《计算机研究与发展》 EI CSCD 北大核心 2008年第1期83-89,共7页 Journal of Computer Research and Development
基金 总装备部武器装备预先研究基金项目(513040103)~~
关键词 无线传感器网络 路由算法 数据聚合 通信 节能 efficient wireless sensor network routing algorithm data aggregation communications energy
分类号 TP316.4 [自动化与计算机技术—计算机软件与理论]
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参考文献16

  • 1A Cerpa, D Estrin. ASCENT: Adaptive self-configuring sensor networks topologies [C]. In: Proc of the IEEE INFOCOM 2002. Los Alamitos, CA: IEEE Computer Society Press, 2002. 272-285.
  • 2V Kawadia, P R Kumar. Power control and clustering in ad hoc networks [C]. In: Proc of the IEEE INFOCOM 2003. Los Alamitos, CA: IEEE Computer Society Press, 2003. 459-469.
  • 3J Kulik, W R Heinzelman, H Balakrishnan. Negotiation-based protocols for disseminating information in wireless sensor networks [J]. ACM Wireless Networks, 2002, 8(2): 169-185.
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二级参考文献23

  • 1崔莉,鞠海玲,苗勇,李天璞,刘巍,赵泽.无线传感器网络研究进展[J].计算机研究与发展,2005,42(1):163-174. 被引量:731
  • 2杨文国,郭田德.求解最小Steiner树的蚁群优化算法及其收敛性[J].应用数学学报,2006,29(2):352-361. 被引量:19
  • 3石高涛,廖明宏.大规模传感器网络随机睡眠调度节能机制[J].计算机研究与发展,2006,43(4):579-585. 被引量:25
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  • 5X B Hou, D Tipper, J Kabara. Label-based multi-path routing (LMR) in wireless sensor networks [C]. The Int'l Symp on Advanced Radio Technologies (ISART), Boulder, CO, 2004.
  • 6W R Heinzelman, A Chandrakasan, H Balakrishnan. Energyefficient communication protocol wireless microsensor networks [C]. IEEE Hawaii Int'l Conf on System Sciences, Maui, Hawaii, 2000.
  • 7A Manjeshwar, D P Agrawal. TEEN: A routing protocol for enhanced efficiency in wireless sensor networks [C]. IEEE Int' l Parallel and Distributed Processing Symposium, San Francisco, USA, 2001.
  • 8A Manjeshwar, D P Agrawal. APTEEN: A hybrid protocol for efficient routing and comprehensive information retrieval in wireless sensor networks [C]. IEEE Int'l Parallel and Distributed Processing Symposium, Fort Lauderdale, Florida, 2002.
  • 9C M Okino, M G Corr. Best effort adaptive routing in statistically accurate sensor networks neural networks [C]. IJCNN, Hawaii, USA, 2002.
  • 10F Ye, A Chen, S Lu, et al. A scalable solution to minimum cost forwarding in large sensor networks [C]. The Int' l Conf on Computer Communications and Networks, Scottsdale, USA, 2001.

共引文献215

同被引文献146

引证文献16

二级引证文献55

计算机研究与发展
2008年 第1期

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