无线传感器网络分簇路由协议研究

在无线传感器网络中,分簇型路由在路由协议中占据重要的地位,该协议方便拓扑结构管理,能源利用率高,数据融合简单。文章从簇头生成、簇形成和簇路由3个角度对典型的分簇路由算法LEACH,HEED,EEUC,PEGASIS进行了系统描述,从网络生命周期和节点存活数量等方面,对比了其优缺点,结合该领域的研究现状,指出了未来研究的方向。     

无线传感器网络路由分簇协议研究

无线传感器网络与传统网络的特点不同,且与人们日常生活应用息息相关。无线传感器网络不能利用传统的路由协议,网络层的路由技术在无线传感器网络体系结构中非常重要。数据融合简单、拓扑管理方便、能量利用高效是分簇路由具有的优点,是当前研究非常热门的路由技术。文章分析了无线传感器网络分簇路由概念,着重对无线传感网络路由分簇协议的分类和协议系统进行分析,为路由无线传感器网络路由分簇协议的进一步研究提供参考。     

基于分簇的无线传感器网络安全路由协议研究

无线传感器网络（Wireless Sensor Networks,简称WSNs）作为一种新的获取信息的方式和处理模式,已成为通信领域的研究重点。而路由协议则是无线传感器网络当前的热点研究之一。目前,针对较为典型的分簇式路由协议LEACH路由协议的研究,是无线传感器网络目前研究的一个热点。介绍了无线传感器网络路由协议常见的攻击类型,并从路由安全的角度建议性的提出了一种对LEACH路由协议针对安全性的改进方案,并应用NS2仿真平台,对改进协议做了仿真并进行了性能分析。     

一种改进的无线传感器网络分簇路由协议

针对无线传感器网络中节点能量受限的特征,提出了ILEACH(improved-LEACH)分簇路由协议,达到延长网络生存时间的目的,该分簇路由协议在簇头选取时,充分考虑了节点的剩余能量;簇形成时利用了距离阈值的约束来优化分簇方案;数据收集阶段,根据节点的权值在簇头节点之间建立到基站的路由树,利用NS2仿真软件对LEACH和ILEACH协议进行仿真、比较,结果显示ILEACH具有良好的性能.     

基于节点位置的无线传感器网络分簇路由协议

针对LEACH协议生成非均匀簇造成能量损耗的问题,以网络簇头分布最优和降低能量损耗为目的,从选择簇头节点、形成簇、簇间路由等方面做了改进。经过理论分析和仿真实验与LEACH和LEACH-C算法比较,结果表明,该路由协议的设计使各节点较均衡地消耗能量,节点生存时间更长,延长了整个无线传感器网络的生命周期。     

大规模无线传感器网络分簇路由协议改进方案

本文对大规模无线传感器网络的路由协议进行了研究,提出一种全新的高能效分簇路由协议.根据节点数目以及分布区域大小,通过数学公式推导得出最优的簇首节点数目.对簇首进行改进,均衡网络的负载,减少节点的过早死亡,延长整个网络的寿命.离基站较远的簇首利用多跳来传输数据,减少远距离簇首的能量消耗,延长网络寿命,使网络规模不受限.使用Matlab软件进行仿真实验,实验结果表明新协议能够均衡网络节点能耗,延长网络生命时间,且能适用于大规模的网络.     

基于距离测算的无线传感器网络分簇路由协议优化

传统网络路由协议优化方法中数据包传输过程中,容易出现丢失的问题,影响网络通信的连贯性,为提升优化效果,设计了基于距离测算的无线传感器网络分簇路由协议优化方法.分析网络分簇路由协议特点,以此特点为基础,提升无线传感器网络数据传输的准确性;均衡路由协议分簇各环节点能量,提升网络节点存活性能;基于距离测算构建无线传感网络优化...     

无线传感器网络簇类路由协议的研究

介绍了无线传感器网络的概念、特点和应用,以及无线传感器网络中几个代表性的簇类路由协议,包括LEACH以及由LEACH稍加改进的LEACH—EE、DEEAC、LEACH—NEW、LEACH—C,TEEN,PEGASIS。这几种协议都使用了簇的概念,基于不同的应用,在簇头选择、簇内数据传输、簇头间数据传输等方面各有特色。分别介绍了这几种路由算法的基本原理、优缺点,以及它们之间的异同。最后,根据衡量无线传感器网络性能的一些重要标准进行了比较和总结。     

基于扇形分簇的无线传感器网络路由算法

无线传感网络中低功耗自适应聚类分簇(LEACH)路由算法等概率选取簇首节点,容易导致整个网络节点能量损耗出现极端化,减少网络生存时间。为此,提出一种针对簇首节点选取和分簇的改进LEACH算法。该算法把整个网络区域分为四个扇形区域,在每个区域内独立进行分簇路由;然后基站根据节点剩余能量和与基站的距离进行簇首节点选择,节点根据簇首节点和基站接收信号强度选择路由方式,以均衡网络能量消耗。仿真结果表明,改进LEACH算法的网络寿命是原有LEACH算法的150%,数据吞吐量提升了3倍。     

一种基于目标区域分层的WSN路由协议

目前WSN路由协议大多是对分簇方法或传输路径的优化,从而达到优化网络能耗的目的。文中提出一种基于非均匀分层的路由协议(ULEE),通过对监测区域进行分层赋予节点以不同的竞争半径,并根据节点剩余能量选取簇头,同时采用多跳的簇间传输。仿真结果表明,该算法可以通过计算推导获得最优参数。相对于几种经典路由协议,该协议具有节点能耗均匀、网络寿命延长的特点。     

Clustering routing protocol based on improved PSO algorithm in WSN

Aiming at the problem that the location distribution of cluster head nodes filtered by wireless sensor network clustering routing protocol was unbalanced and the data transmission path of forwarding nodes was unreasonable,which would increase the energy consumption of nodes and shorten the network life cycle,a clustering routing protocol based on improved particle swarm optimization algorithm was proposed.In the process of cluster head election,a new fitness function was established by defining the energy factor and position equalization factor of the node,the better candidate cluster head node was evaluated and selected,the position update speed of the candidate cluster head nodes was adjusted by the optimized update learning factor,the local search and speeded up the convergence of the global search was expanded.According to the distance between the forwarding node and the base station,the single-hop or multi-hop transmission mode was adopted,and a multi-hop method was designed based on the minimum spanning tree to select an optimal multi-hop path for the data transmission of the forwarding node.Simulation results show that the clustering routing protocol based on improved particle swarm optimization algorithm can elect cluster head nodes and forwarding nodes with more balanced energy and location,which shortened the communication distance of the network.The energy consumption of nodes is lower and more balanced,effectively extending the network life cycle.     

PRP: peripheral routing protocol for WSN realistic marginal mobility model

This article proposes a new routing protocol called Peripheral Routing Protocol (PRP) for the scenario where the mobile destination (D) moves at the wireless sensor network (WSN) periphery for gathering data. From a connectivity point of view, when D follows the marginal mobility model (MMM), the WSN becomes a hybrid network: a sparse network, because of the interrupted connectivity between D and the rest of the nodes and a well-connected network, because of the connectivity between all the other nodes of the WSN except D. It will be proven through MATLAB simulations that, for a military application scenario where D’s connectivity to the WSN varies between 10% and 95%, compared with the 100% case, PRP outperforms routing protocols recommended for Mobile Ad-hoc Networks (MANET) in three ways: it maintains an average Packet Delivery Ratio (PDR) over 90%, a below 10% and 5% increase for the Average End to End Delay (AETED) and energy per transmitted packet.     

基于代价函数的WSN能效路由协议性能分析

无线传感器网络(WSN,wireless sensor network)中,基于代价的能效路由协议(CEERP,cost-based en-ergy-efficient routing protocol)通过计算与比较代价函数值可以找到具有优异性能的路由。在前期研究提出的CEERP协议基础上,对该协议的代价函数、能耗和时延性能进行了分析,确定了首个节点死亡前系统所能完成的通信轮数的上下限以及时延计算公式。在采用能耗与时延的乘积作为性能评价标准的前提下,对多种同类协议的性能进行了比较与讨论,并在节点稀疏布署和非理想信道的情况下分别对CEERP的性能进行了进一步仿真。结果表明,CEERP协议在能耗与时延的综合性能上相对于其他同类协议具有很大的优越性。     

An energy efficient routing protocol for correlated data using CL-LEACH in WSN

Wireless Networks - Energy efficiency is an important parameter in the research area related to the design of routing protocols for Wireless Sensor Networks (WSNs). The consumption of energy during...     

Hybrid energy efficient static routing protocol for homogeneous and heterogeneous large scale WSN

Wireless Networks - Wireless sensor networks consist of a large number of nodes deployed randomly in an area of interest. Theses nodes have sensing, computation, and wireless communications...     

Research on routing protocol facing to signal conflicting in link quality guaranteed WSN

Wireless sensor networks (WSN), as a new type of environment monitoring system, has became a hot research topic in recent years. This paper mainly focuses on the problem of signal conflicting in WSN. The link quality (quality between two neighboring nodes) can be guaranteed by the layout of network, but, the end-to-end routing quality can not be guaranteed in the same way because of random signal conflicting (even if CSMA/CA is used in WSN). The end-to-end routing will have higher performance if the routing has lower signal conflicting probability. So, the main work of this paper is designing a routing protocol to find out the routing with the lowest signal conflicting probability. This paper proposed a Minimum conflicting probability routing protocol (MCR) in link quality guaranteed WSN. Firstly, MCR combines the degree value with workload of nodes, forming a new degree and cache based routing metric (DBM). Secondly, MCR finds out the best routing by the Random Walk theory on basis of DBM. The simulation results show that, MCR protocol is more effective to avoid the signal conflicting, it has a higher end-to-end reliability and a more stable network throughput than other routing protocols in the same link quality guaranteed WSN.

     

Energy-efficient routing protocol and optimized passive clustering in WSN for SMART grid applications

Due to low cost, ease of implementation and flexibility of wireless sensor networks (WSNs), WSNs are considered to be an essential technology to support the smart grid (SG) application. The prime concern is to increase the lifetime in order to find the active sensor node and thereby to find once the sensor node (SN) dies in any region. For this reason, an energy-efficient Dynamic Source Routing (DSR) protocol needs to provide the right stability region with a prolonged network lifetime. This work is an effort to extend the network's existence by finding and correcting the considerable energy leveraging behaviors of WSN. We build a comprehensive model based on real measures of SG path loss for different conditions by using the characteristics of WSN nodes and channel characteristics. This method also establishes a hierarchical network structure of balanced clusters and an energy-harvesting SN. The cluster heads (CHs) are chosen by these SN using a low overhead passive clustering strategy. The cluster formation method is focused on the use of passive clustering of the particle swarm optimization (PSO). For the sake of eliminating delayed output in the WSN, energy competent dynamic source routing protocol (EC-DSR) is used. Chicken swarm optimization (CSO) in which optimum cluster path calculation shall be done where distance and residual energy should be regarded as limitation. Finally, the results are carried out with regard to the packet distribution ratio, throughput, overhead management, and average end-to-end delay to demonstrate the efficiency of the proposed system.