构建实时无线传感器网络的最优拓扑

R. Prabha, M. Ramesh, Venkat Rangan
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引用次数: 4

摘要

无线传感器网络因其低成本和易于部署在人工干预极少的偏远地区而广受欢迎。然而,这些部署受到诸如电源、内存、处理能力等资源的限制。为了提高这些网络的可靠性和寿命,有必要开发最小化资源使用的算法。在传感器网络中,拓扑结构在资源优化中起着关键作用。如果我们设计一个适当的拓扑结构,与普通的平面/聚类技术相比,可以用相对较少的节点数量覆盖大面积。本研究工作涉及创建最佳网络拓扑,使延迟最小化,有效利用可用缓冲区大小,减少中间节点等。本文讨论了一套在不同数据速率、不同分组大小等约束下设计适合网络的方案。这项工作讨论了为具有不同数据速率的给定较低级别节点集找到最佳中间节点数量的方案。本工作还讨论了一组算法,用于在有限缓冲区的给定中间节点集中选择最大数量的低级节点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Building Optimal Topologies for Real-Time Wireless Sensor Networks
Wireless Sensor Networks acclaimed a wide popularity because of their low cost and their easiness to be deployed in remote areas where human intervention is very minimal. However, these deployments have constrained by the resources such as power, memory, processing power etc. In order to enhance the reliability and life-time of these networks, it is necessary to develop algorithms that minimize the resource usage. In sensor networks, the topology places a key role in optimizing the resources. If we design a proper topology, a large area can be covered with relatively less number of nodes compared to the normal flat/clustering techniques. This research work deals with creating optimum network topologies that minimizes delay and makes efficient use of available buffer size, lesser intermediate nodes and so on. This paper discusses a set of schemes that design suitable networks under the constraints such as varying data rate, varying packet size and so on. This work discusses schemes that find the optimal number of intermediate nodes for a given set of lower level nodes with varying data rates. This work also discusses a set of algorithms that chooses maximum number of lower level nodes for a given set of intermediate nodes with limited buffer.
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