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无线传感器网络中传感器节点能量有限,为了提高能量利用率,针对现有算法随机选择簇首、簇结构不合理等缺陷提出了一种新的能量有效的分簇路由算法EERA.EERA采用新的簇首选举、成簇,以及构建簇间路由算法,基于节点剩余能量与节点的相对位置选择簇首、成簇,使剩余能量较多的节点优先成为簇首并且各簇首能较均匀的分布在网络区域内;构建簇间路由时将最小跳数路由算法与改进的MTE算法结合起来,在簇间形成最小跳数、最小能耗路径.仿真结果表明,EERA算法可以均衡全网能量消耗,延长网络的生命周期. 相似文献
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卫星综合信息网是未来空间信息技术发展的方向之一。本文针对卫星综合信息网应用设计了一种由静止轨道、中轨道和低轨道卫星节点构成的结构简洁的三层卫星网络架构,每一层网络仅使用永久性链路形成稳定拓扑,不同层网络在分簇的基础上使用可视时间较长的星间链路建立跨层连接。本文进一步设计了在该架构下的最小延迟路由算法。OPNET上的仿真实验表明,本文所设计的卫星综合信息网架构稳定,具有较强的通信承载和适应节点故障的性能。 相似文献
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基于LEACH和PEGASIS算法,设计了一种基于簇首成链的分层分簇路由协议CHCRP(A Chain-cluster Based Hierarchical Clustering Routing Protocol).CHCRP算法把网络分成多个层次,对LEACH协议的簇首选取机制进行改进,采用一跳竞争机制使得簇首分布均匀.为了减少链式路由的时间延迟,簇首间通过分层形成"主链"和"从链"多跳通信.仿真结果表明该算法能够均衡簇首间通信能耗,延长无线传感器网络生存周期并且降低了数据传输的滞后性. 相似文献
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针对无人机群分簇网络中由于节点高移动性和能量受限导致簇结构不稳定和簇首频繁更新的问题,提出一种基于稳定性改进的加权簇首选举算法(Stability Improved Weighted Cluster Head Selection Algorithm,SI-WCSA)。首先,根据分配的任务确定簇的规模;其次,综合考量节点的移动性、能量、节点度和距离4种因素加权选举簇首,对移动性度量指标进行改进并提出3种能量消耗速率;最后,采用基于层次分析法和熵值法的组合赋权法计算贴合场景的指标权重。仿真结果表明,该算法能选取最优簇头,优化评估指标以减少节点移动性对网络生存时间的影响,降低簇首更换次数,均衡簇内节点能量,提升网络的鲁棒性,并且组合赋权法选取的权重系数将无人机网络的生存时间增加了6%。 相似文献
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无线传感器网络(WSN)中传输的数据具有相关性和冗余性。如何有效降低网络中的数据量,延长网络生命周期,始终是WSN的研究热点之一。该文基于WSN中数据序列的相关性,提出一种两步数据压缩算法(TSC-SC)。网络中的簇首和簇内节点执行各自的压缩算法:簇首首先执行相关性分组算法,将数据分组,减少簇内节点的计算量以及消除簇内数据的空间相关性;簇内节点对多属性数据分类压缩,并将压缩参数传至簇首,簇首解压后再次进行分类压缩,进一步消除数据相关性,减少节点数据冗余度,降低通信能耗。为实现对压缩算法的综合性能评价,考虑基本的压缩要求和算法的计算能耗,提出了基于能量判别的算法评估模型(NCER)。仿真结果表明TSC-SC算法可以有效降低压缩比和压缩误差,充分减少数据传输量和网络的通信能耗,利用NCER指标能够直观地评价算法的性能。 相似文献
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针对网络节点随机移动造成的AdHoc网络分簇结构变化和路由失效问题,该文提出一种基于相对移动性预测的k跳分簇算法,分析和预测网络节点运动状态,自适应地调整分簇结构,提高簇结构稳定性。首先,使用多普勒频移计算节点间相对移动速度,预测节点移动性,得到节点间链路保持时间。然后,在簇形成阶段,采用面向节点稳定性的MAX-MIN启发式算法,根据节点的平均链路保持时间对簇首进行选择。进而,在簇保持阶段,提出一种基于节点运动状态的网络自适应调整算法,一方面调整节点信息数据发送周期以平衡数据开销和精确度,另一方面通过预测节点间链路通断情况调整分簇结构,以减少链路失效时的链路重建时间,提高网络运行质量。仿真实验表明,所提算法可以有效延长簇首持续时间,提高簇结构在动态环境下的稳定性。 相似文献
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基于数据融合的无线传感器网络路由算法 总被引:2,自引:0,他引:2
在分簇协议LEACH和链状协议PEGASIS的基础上,提出一种新的基于数据融合的分簇路由算法.簇首节点采用多跳方式传输数据,并根据周围节点的密集程度构造不同大小的簇;簇内节点计算上行和下行节点构造数据融合树,采用时分复用调度算法进行多跳路由.NS2仿真结果表明该路由算法均衡了各个节点的能量消耗,延长了网络存活时间,并降低了网络延迟. 相似文献
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认知Ad hoc网络中基于市场的三级频谱分配方案 总被引:1,自引:0,他引:1
分簇是Ad hoc网络规模较大时采用的主要结构,而频谱分配是Ad hoc网络的关键技术之一。该文针对认知无线电环境的分簇Ad hoc网络,提出了一种新的基于市场的频谱分配方案,该方案中簇首节点依据业务比例从频谱管理中心购买频谱,簇内采用基于供需市场理论的频谱分配算法。分析了簇内频谱市场的两种迭代定价算法额外需求迭代算法和连续松弛迭代算法以及簇首需求订购的过程。该方案能实现各簇收益的最大化,簇首基于需求的频谱购买相对于等量购买进一步提高了频谱效用。仿真结果表明这种频谱分配方案能有效提高系统频谱效用,额外需求迭代算法和连续松弛迭代算法均表现出良好的收敛性能。 相似文献
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Prasenjit Chanak Indrajit Banerjee R. Simon Sherratt 《International Journal of Communication Systems》2020,33(9)
In wireless sensor networks (WSNs), clustering has been shown to be an efficient technique to improve scalability and network lifetime. In clustered networks, clustering creates unequal load distribution among cluster heads (CHs) and cluster member (CM) nodes. As a result, the entire network is subject to premature death because of the deficient active nodes within the network. In this paper, we present clustering‐based routing algorithms that can balance out the trade‐off between load distribution and network lifetime “green cluster‐based routing scheme.” This paper proposes a new energy‐aware green cluster‐based routing algorithm to preventing premature death of large‐scale dense WSNs. To deal with the uncertainty present in network information, a fuzzy rule‐based node classification model is proposed for clustering. Its primary benefits are flexibility in selecting effective CHs, reliability in distributing CHs overload among the other nodes, and reducing communication overhead and cluster formation time in highly dense areas. In addition, we propose a routing scheme that balances the load among sensors. The proposed scheme is evaluated through simulations to compare our scheme with the existing algorithms available in the literature. The numerical results show the relevance and improved efficiency of our scheme. 相似文献
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为平衡无线传感器网络中的簇头负载并进一步降低多跳传输能耗,文中提出了一种改进的基于时间竞争成簇的路由算法。该算法通过限制近基站节点成簇入簇,以防止近基站节点成簇入簇的节能收益无法补偿成簇入簇能耗;利用基站广播公共信息和基于时间机制成簇,以减少节点基本信息交换能耗;通过候选簇头中继来平衡簇头负载。候选簇头的评价函数综合考虑了剩余能量和最优跳数的理想路径,以期在保持中继负载平衡的基础上尽量降低多跳能耗。仿真结果显示,该算法较LEACH和DEBUC算法延长了以30%节点死亡为网络失效的网络生存周期,表明该算法在降低节点能耗和平衡负载方面是有效的。 相似文献
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Underwater wireless sensor network (UWSN) is a network made up of underwater sensor nodes, anchor nodes, surface sink nodes or surface stations, and the offshore sink node. Energy consumption, limited bandwidth, propagation delay, high bit error rate, stability, scalability, and network lifetime are the key challenges related to underwater wireless sensor networks. Clustering is used to mitigate these issues. In this work, fuzzy-based unequal clustering protocol (FBUCP) is proposed that does cluster head selection using fuzzy logic as it can deal with the uncertainties of the harsh atmosphere in the water. Cluster heads are selected using linguistic input variables like distance to the surface sink node, residual energy, and node density and linguistic output variables like cluster head advertisement radius and rank of underwater sensor nodes. Unequal clustering is used to have an unequal size of the cluster which deals with the problem of excess energy usage of the underwater sensor nodes near the surface sink node, called the hot spot problem. Data gathered by the cluster heads are transmitted to the surface sink node using neighboring cluster heads in the direction of the surface sink node. Dijkstra's shortest path algorithm is used for multi-hop and inter-cluster routing. The FBUCP is compared with the LEACH-UWSN, CDBR, and FBCA protocols for underwater wireless sensor networks. A comparative analysis shows that in first node dies, the FBUCP is up to 80% better, has 64.86% more network lifetime, has 91% more number of packets transmitted to the surface sink node, and is up to 58.81% more energy efficient than LEACH-UWSN, CDBR, and FBCA. 相似文献
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Jian-hua Huang Zi-ming Zhao Yu-bo Yuan Ya-dong Hong 《Wireless Personal Communications》2017,95(3):2127-2142
One of important issues in wireless sensor networks is how to effectively use the limited node energy to prolong the lifetime of the networks. Clustering is a promising approach in wireless sensor networks, which can increase the network lifetime and scalability. However, in existing clustering algorithms, too heavy burden of cluster heads may lead to rapid death of the sensor nodes. The location of function nodes and the number of the neighbor nodes are also not carefully considered during clustering. In this paper, a multi-factor and distributed clustering routing protocol MFDCRP based on communication nodes is proposed by combining cluster-based routing protocol and multi-hop transmission. Communication nodes are introduced to relay the multi-hop transmission and elect cluster heads in order to ease the overload of cluster heads. The protocol optimizes the election of cluster nodes by combining various factors such as the residual energy of nodes, the distance between cluster heads and the base station, and the number of the neighbor nodes. The local optimal path construction algorithm for multi-hop transmission is also improved. Simulation results show that MFDCRP can effectively save the energy of sensor nodes, balance the network energy distribution, and greatly prolong the network lifetime, compared with the existing protocols. 相似文献
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为了解决热区问题和单点失效问题,提出了一种新的无线传感器网络分簇算法。算法将网络划分为非均匀的栅格,每个栅格的节点分别构成一个簇,根据节点失效概率确定栅格簇首的数目,并由栅格的多个簇首协作完成该栅格节点的数据收集。算法通过调整各个栅格中可参与簇首轮换的节点数目,从长远均衡节点之间的能耗。通过建立包含多个簇首的簇,算法降低了簇成员对单个簇首的依赖性。此外,算法还采取了一些降低能耗的措施。实验结果表明,该算法能够达到较高的能耗均衡程度和数据收集可靠性,并可以延长网络的生命周期。 相似文献
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Zhu Xiaorong Shen Lianfeng 《电子科学学刊(英文版)》2007,24(6):721-725
Clustering in wireless sensor networks is an effective way to save energy and reuse band- width. To our best knowledge, most of the clustering protocols proposed in literature are of a dynamic type, where cluster heads are selected in each period, followed by cluster formation. In this paper, a new static type clustering method called Hausdorff clustering, which is based on the location of sensor nodes as well as communication efficiency and network connectivity, is proposed. The cluster head, however, is rotated within the cluster by a fuzzy logic algorithm that optimizes the network lifetime. Simulation results show that this approach can significantly increase the lifetime of the sensor network. 相似文献
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一种基于网络密度分簇的移动信标辅助定位方法 总被引:1,自引:0,他引:1
现有移动信标辅助定位算法未充分利用网络节点分布信息,存在移动路径过长及信标利用率较低等问题。该文把网络节点分簇、增量定位与移动信标辅助相结合,提出了一种基于网络密度分簇的移动信标辅助定位算法(MBL(ndc))。该算法选择核心密度较大的节点作簇头,采用基于密度可达性的分簇机制把整个网络划分为多个簇内密度相等的簇,并联合使用基于遗传算法的簇头全局路径规划和基于正六边形的簇内局部路径规划方法,得到信标的优化移动路径。当簇头及附近节点完成定位后,升级为信标,采用增量定位方式参与网络其它节点的定位。仿真结果表明,该算法定位精度与基于HILBERT路径的移动信标辅助定位算法相当,而路径长度不到后者的50%。 相似文献
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针对典型的LEACH分簇式路由协议分簇不均匀,簇头节点分布随机导致网络能量消耗大的情况,本文提出一种基于死亡节点数目反馈的K-means分簇算法。首先通过K-means算法划分簇的个数,选择簇的中心节点为该簇的簇头,并通过位置集中性得到集中性较大的若干个节点为主簇头群,其中最大的为主簇头,自此完成初始化。此后用一个受死亡节点数调控的自适应打分函数更新每一轮的簇头和主簇头。主簇头只用于融合并传输数据并不负责感知环境信息。仿真实验结果表明:本算法相较LEACH以及传统的基于K-means的分簇算法,在整个网络的生存时间上分别提高了35%和25%。同时证明:反馈机制的加入和主簇头的选取都有利于网络寿命的提升。 相似文献
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Non‐uniform energy consumption during operation of a cluster‐based routing protocol for large‐scale wireless sensor networks (WSN) is major area of concern. Unbalanced energy consumption in the wireless network results in early node death and reduces the network lifetime. This is because nodes near the sink are overloaded in terms of data traffic compared with the far away nodes resulting in node deaths. In this work, a novel residual energy–based distributed clustering and routing (REDCR) protocol has been proposed, which allows multi‐hop communication based on cuckoo‐search (CS) algorithm and low‐energy adaptive‐clustering–hierarchy (LEACH) protocol. LEACH protocol allows choice of possible cluster heads by rotation at every round of data transmission by a newly developed objective function based on residual energy of the nodes. The information about the location and energy of the nodes is forwarded to the sink node where CS algorithm is implemented to choose optimal number of cluster heads and their positions in the network. This approach helps in uniform distribution of the cluster heads throughout the network and enhances the network stability. Several case studies have been performed by varying the position of the base stations and by changing the number of nodes in the area of application. The proposed REDCR protocol shows significant improvement by an average of 15% for network throughput, 25% for network scalability, 30% for network stability, 33% for residual energy conservation, and 60% for network lifetime proving this approach to be more acceptable one in near future. 相似文献
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Nurul Mu&# azzah Abdul Latiff NikNoordini NikAbdMalik Abdul Halim Abdul Latiff 《电子科技学刊:英文版》2016,14(2):160-169
Energy consumption of sensor nodes is one of the crucial issues in prolonging the lifetime of wireless sensor networks. One of the methods that can improve the utilization of sensor nodes batteries is the clustering method. In this paper, we propose a green clustering protocol for mobile sensor networks using particle swarm optimization (PSO) algorithm. We define a new fitness function that can optimize the energy consumption of the whole network and minimize the relative distance between cluster heads and their respective member nodes. We also take into account the mobility factor when defining the cluster membership, so that the sensor nodes can join the cluster that has the similar mobility pattern. The performance of the proposed protocol is compared with well-known clustering protocols developed for wireless sensor networks such as LEACH (low-energy adaptive clustering hierarchy) and protocols designed for sensor networks with mobile nodes called CM-IR (clustering mobility-invalid round). In addition, we also modify the improved version of LEACH called MLEACH-C, so that it is applicable to the mobile sensor nodes environment. Simulation results demonstrate that the proposed protocol using PSO algorithm can improve the energy consumption of the network, achieve better network lifetime, and increase the data delivered at the base station. 相似文献