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引用次数: 2
摘要
无线传感器网络(WSN)的部署主要是为了收集有关感兴趣区域的信息或该区域发生的一些感兴趣事件。WSN将感知到的信息以数据包的形式发送给终端用户。数据包的数量与WSN中节点的传输速率成正比。本文提出了一种面向WSNs的分布式自我管理方案——信息理论自我管理(Information - theory self-management, InTSeM)。该方案利用对称Kullback-Leibler距离(Symmetric Kullback-Leibler Distance)这一信息论度量来帮助网络中的节点适应环境的变化,并选择合适的传输速率。这种传输速率的动态选择在保证数据质量的同时节约了节点的能量。大量的仿真结果表明,在固定传输速率下,InTSeM的性能优于其他方案。
Information theoretic self-management of Wireless Sensor Networks
A Wireless Sensor Network (WSN) is deployed primarily with the interest of collecting information about an area of interest or some events of interest occurring in that area. A WSN transmits the sensed information to the end users in the form of data-packets. The number of packets is directly proportional to the transmission rate of the nodes in the WSN. In this paper, a distributed self-management scheme for WSNs, named as Information Theoretic Self-Management (InTSeM), for WSNs, is proposed. The scheme helps the nodes in the network to adapt themselves with the changes in their environment and to select an appropriate transmission rate using an information theoretic metric called Symmetric Kullback-Leibler Distance. This dynamic selection of transmission rate conserves the energy of nodes while maintaining the quality of data. Extensive simulation results show that InTSeM performs better than other schemes with fixed transmission rate.
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