Description: 无线传感器网络方向性分区路由算法,针对中小规模无线传感器网络路由算法效率不高的问题,提出了一种新的路由算法———
方向性分区路由算法。-Zoning directional wireless sensor network routing algorithm, for small and medium-sized wireless sensor network routing algorithm efficiency is not high at the problem and introduce a new routing algorithm--- Zoning directional routing algorithm. Platform: |
Size: 178176 |
Author:MK |
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Description: 无线传感器网络的可靠路由算法,可以选择保证可靠性条件下的最小能耗路由-Reliable wireless sensor network routing algorithm, you can choose to ensure reliability under the condition of minimum energy routing Platform: |
Size: 474112 |
Author:陈永锐 |
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Description: 分析了无线传感器网络分簇路由机制,着重从簇头的产生、簇的形成和簇的路由角度系统地描述了当前典型的分簇路由算法,并比较和分析了这些算法的特点和适用情况.最后结合该领域当前研究现状,指出分簇路由算法未来的研究重点.-Analysis of wireless sensor network clustering routing mechanisms, focusing on the selection of cluster head, cluster formation and cluster routing system to describe the perspective of the current typical clustering routing algorithm, and compare and analyze the characteristics of these algorithms and application. Finally, the status of current research in the field, pointing out that sub-cluster routing algorithm focus future research. Platform: |
Size: 194560 |
Author:苏可 |
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Description: 无线传感器网络路由算法,采用最短路径,先搜索节点的一跳范围的距离,再搜索两跳的距离,仿真效果良好。-Wireless sensor network routing algorithm, using the shortest path first jump of the scope of the search node distance, and then search for the two jump distance, simulation results were very good. Platform: |
Size: 14336 |
Author:电信科学 |
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Description: 一种考虑节点能量的无线传感器网络的分簇算法,对研究路由算法有帮助-Consider the energy of a node of the wireless sensor network clustering algorithm, routing algorithm for research help Platform: |
Size: 59392 |
Author:df |
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Description: 介绍了无线传感器的路由协议,并提出了一些常见路由算法。是对无线传感器网络路由协议的研究。-Introduced a wireless sensor routing protocols, and some common routing algorithm. Is a wireless sensor network routing protocol research. Platform: |
Size: 30720 |
Author:王海英 |
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Description: An IEEE 802.15.4-based Wireless Sensor Network
is considered, and the relationship between the IEEE 802.15.4 topology formation mechanism and possible routing strategies at the network layer is studied. Two alternative routing schemes proposed in the framework of the ZigBee Alliance are analyzed.The first is the well-known Ad-hoc On demand Distance Vector
(AODV) routing protocol, which was designed for highly dynamic application scenarios in wireless ad-hoc networks. The second is
a tree-based routing scheme based on a hierarchical structure established among nodes during the network formation phase. This latter approach, referred to as HERA (HiErarchical Routing Algorithm) in the paper, routes packets from sensors to sink based on the parent-child relationships Platform: |
Size: 173056 |
Author:HArry |
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Description: LEACH - Low Energy Adaptive Clustering Hierarchy, a routing algorithm in wireless sensor network, it s implemented in NS-2. Platform: |
Size: 403456 |
Author:son |
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Description: 设计无线传感器网络的路由协议,LEACH是第一个基于多簇结构的集群路由协议,是一种分布式的协议,每一个节点通过一个概率来决定自己是否成为簇头节点,并保证每轮有相当数量的簇头节点.
-Design of wireless sensor network routing protocol, LEACH is the first structure of a cluster based on multi-cluster routing protocol, the protocol is a distributed, each node to determine their own through a probability whether a cluster head node, and to ensure that each round there is considerable number of cluster head node. Platform: |
Size: 51200 |
Author:杨扬 |
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Description: Energy is one of the most important items to determine the network lifetime due to low power energy nodes included in the network. Generally, data aggregation tree concept is used to find an energy efficient solution. However, even the best aggregation tree does not share the load of data packets to the transmitting nodes fairly while it is consuming the lowest possible energy of the network. Therefore, after some rounds, this problem causes to consume the whole energy of some heavily loaded nodes and hence results in with the death of the network. In this paper, by using the Genetic Algorithm (GA), we investigate the energy efficient data collecting spanning trees to find a suitable route which balances the data load throughout the network and thus balances the residual energy in the network in addition to consuming totally low power of the network. Using an algorithm which is able to balance the residual energy among the nodes can help the network to withstand more and consequently extend its own lifetime. In this work, we calculate all possible routes represented by the aggregation trees through the genetic algorithm. GA finds the optimum tree which is able to balance the data load and the energy in the network. Simulation results show that this balancing operation practically increases the network lifetime. Platform: |
Size: 342534 |
Author:atrakpc@yahoo.com |
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