一种改进的基于时间竞争成簇的路由算法

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。     

基于空间信息与梯度的WSN分簇路由算法

针对LEACH算法在准备阶段出现的簇头分布不均匀、整个网络能耗不均衡,以及传输距离受限等不足,综合考虑空间信息和梯度、节点剩余能量、簇头能耗等因素,用于簇头的选举与数据的传输过程中,实现了LEACH算法的改进。仿真结果表明,改进后的算法与原LEACH算法相比,使网络中节点的能耗更加均衡,且推迟了网络中第一个消亡节点出现的时间,轮数增加了1倍,提高了整个网络中能量利用率以及网络性能,使网络寿命延长50%~69%。     

无线传感器网络能量均衡路由算法

设计了一种能量均衡的路由算法.路由的建立分两个阶段,在簇头建立阶段,让候选节点在覆盖范围内以剩余能量的多少和所处位置为标准来竞选簇头,以使簇头分布均匀,平衡网络覆盖;在通信阶段,根据簇头节点的剩余能量大小和其距离基站的远近,采用多跳的簇间通信方式建立路由,以此来降低簇头节点的通信负载.仿真结果表明该算法能够有效降低网络能耗和延长网络生存时间.     

无线传感器网络中一种能量有效的簇内通信方案

为了提高簇内通信的能耗均衡性,提出了一种能量有效的分簇无线传感器网络簇内空分通信方案——近簇头节点采用单跳传输,远簇头节点多跳传输,给出了空分通信方案的工程实现。仿真结果验证了空分混合通信方案在能量有效性和能耗均衡分配方面的优势。     

适用于智能间隔棒的双集群无线传感网高效节能分簇算法

本文提出了一种双层集群的高效节能分簇算法,利用K-均值聚类算法和角色成员关系模型,将传感节点分为主、子集群并分别进行簇头选择,减小簇内节点的传输范围,均衡各节点能耗。仿真基于MATLAB实现,在网络生命周期和通信数据流量等方面与其他分簇算法进行了性能对比。结果表明,本文提出的算法使能耗负载均匀分布于各节点,实现了能源负载平衡,最终提升传感网络的整体寿命。     

基于电量均衡的无线传感器网络分簇算法

为了延长无线传感器网络的生命期,针对节点能耗分布不均匀的问题,提出一种电量均衡的分簇算法.该算法将节点剩余能量作为构建分簇结构的依据,对剩余能量较少的节点赋予一定的约束,使之成为普通节点,并使电量多的节点成为簇头节点,均衡网络电量负载,解决了网络中部分低电量节点担任骨干节点而导致能耗的问题,从而有效延长了网络的生命期.仿真实验证明了该算法的有效性.     

基于改进蚁群算法的高能效WSN协作传输策略*

针对传统传感器网络分簇不均匀,数据传输能耗相对较高的问题,提出了I-CoopACO(Cooperative transmission scheme based improved Ant Colony Optimal algorithm)算法.该算法在协作LEACH (Low Energy Adaptive Clustering Hierar-chy)的技术基础上,改进了成簇过程,使得分簇规模更加均匀;在稳定传输阶段,利用节点剩余能量和传输功耗构建启发因子,通过改进的蚁群算法搜索下一跳中继节点获得最优节点,使得传输功耗更低,能耗更均衡.仿真结果表明,在随机分布的感知网络中,I-CoopACO算法减少了传输能耗,均衡了网络负载,延长了网络工作寿命,比协作LEACH算法延长了64.93％的工作寿命.     

一种响应型无线传感器网络路由算法

提出一种节能型无线传感器网络路由算法——TEENNEW.该算法利用能量模型确定了最优簇头数,在簇头选取阶段考虑了节点剩余能量;在数据传输阶段,该算法根据距离和能量建立簇头与基站之间的多跳通信路径.与传统的TEEN协议相比,TEENNEW算法延长了网络的生命周期,有效均衡了节点能耗.     

基于遗传算法和蚁群算法的LEACH改进协议

针对无线传感器网络低功耗自适应集簇分层(Low Energy Adaptive Clustering Hierarchy, LEACH)路由协议因能耗不均衡导致节点过早死亡的问题,提出了一种基于遗传算法和蚁群算法改进的LEACH路由协议。在分簇阶段,通过遗传算法选举合理的簇头节点并根据节点的分布划分簇群;在数据传输阶段,通过蚁群算法使簇头节点尽可能选择能量充足且距离较短的路径进行数据传输。仿真结果表明,与传统的分簇路由协议LEACH和LEACH-C相比,改进算法可以使网络的能量消耗更加均衡,并延长网络的生命周期。     

非变换簇的WSN分簇路由算法

针对LEACH算法簇头选取及能量消耗方面的不足,提出一种基于能量、距离和节点度的分簇路由算法CMEDD,通过均匀分簇减少重建过程,对簇头选举公式进行改进,合理选择簇头,从而均衡节点能耗。采用基于代价因子的单跳和多跳相结合的方式建立最优路径进行数据传输。仿真结果表明,与LEACH算法和RMCRW算法相比,CMEDD算法能够有效均衡节点能耗,可相对延长网络生存周期。     

Fuzzy-based unequal clustering protocol for underwater wireless sensor networks

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.     

低能量自适应分群分层协议的改进

为了避免能量较少节点当选为群首而过早死亡,对Leach协议群首的选取进行改进。采用结合节点剩余能量重新设置阈值的方法,选取剩余能量较多的节点作为群首,解决了能量较少节点当选为群首和群首负担载过重的问题。仿真结果表明,采用改进后的算法可以有效减少网络能量的消耗,延长网络生存时间。     

基于CMRA路由协议改进算法

为了延长无线传感网络的生存时间,需要设计满足高效率、低功耗的路由算法。一种CMRA（intercluster head multi-hop routing algorithm）算法被提出来,这种算法通过节点通信能量消耗模型建立最小能量路径树,但CMRA对于簇头选择的能量分配不均衡,造成簇头结点负载过重。提出一种新的路由算法CMRA-EE（CMRA-energy efficient）,在簇头选举阶段引入节点能量参数,同时将簇头节点能量与距离作为代价参数,从而平衡了网络节点能耗。通过仿真对CMRA-EE算法进行性能分析与评价,结果显示,CMRA-EE算法在延长无线传感网有效生存时间方面比CMRA算法有了明显的改善。     

UWSNs中面向能耗和延时优化的移动数据收集

为了降低水下无线传感网(UWSN)中数据收集的能耗和保证实时性,提出一种基于压缩感知的移动数据收集方案。以分布式能量均衡非均匀分簇(DEBUC)协议和压缩感知理论为基础,簇内节点依据设计的稀疏测量矩阵决定是否参与压缩采样,并将获得的测量值传输至簇头。然后,通过自主式水下潜器(AUV)的移动来收集各个簇头上的数据到数据中心,该问题被建模为基于信息质量最大化的旅行商问题(TSP),并提出近似算法进行求解。仿真实验结果表明,相比于已有的水下移动数据收集算法,本文方案在保证数据收集可靠性的同时,缩短了数据收集延时,延长了网络寿命。     

能耗均衡和可靠的无线传感器网络分簇算法

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。     

Energy-optimized cluster head selection based on enhanced remora optimization algorithm in underwater wireless sensor network

With the technological advancements, wireless sensor network (WSN) has played an impeccable role in monitoring the underwater applications. Underwater WSN (UWSN) is supported by WSN but subjected to data dissemination in an acoustic medium. Due to challenging conditions in underwater scenario, the limited battery resources of these sensor nodes stem to a crucial research problem that needs to address the energy-efficient routing in UWSN. In this research work, we intend to propose an energy-optimized cluster head (CH) selection based on enhanced remora optimization algorithm (ECERO) in UWSN. Since CH devours the maximum energy among the nodes, we perform selection of CH based on EROA while considering energy, Euclidean distance from sink, node density, network's average energy, acoustic path loss model and lastly, the adaptive quantity of CHs in the network. Further, to reduce the load on CH node, we introduce the concept of sleep scheduling among the closely located cluster nodes. The proposed work improves the performance of recently proposed EOCSR algorithm by great magnitude which claims to mitigate hot-spot problem, but EOCSR still suffers from the same due to relaying a large magnitude of data.     

WSN中一种基于数据融合的能量高效分簇路由协议

基于无线传感器网络中监测数据具有较高时空相关性的应用场景。提出了一种基于数据融合的局部能量高效汇聚分簇协议LEEAC，该协议通过反映局部空间相关性的数据相异度对节点剩余能量进行约束，并使用约束后的预测能量作为竞选簇头的主要依据，被选举的簇头在传感器网络中具有良好的分布性。同时通过引入数据鉴定码，减少了簇内数据传输阶段的通信量以及簇头数据融合的工作量，从而大大节约了能量消耗。实验结果表明，LEEAC协议能够有效均衡网络能量消耗。延长网络生存时间。     

Energy Efficient Layered Cluster Head Rotation Based Routing Protocol for Underwater Wireless Sensor Networks

Energy efficiency is of paramount concern in underwater sensor networks. The very nature of underwater environment makes it difficult to deploy an energy efficient network that enhances network lifetime. The existing protocols of terrestrial networks cannot be implemented directly to underwater scenarios and as such new protocols have to be designed because of speed of signal propagation under water. Improving the energy efficiency in UWSNs is an active area of research and many protocols to that end have been proposed. The routing protocol that this paper proposes is Energy Efficient Layered Cluster Head Rotation (EE-LCHR) routing protocol. This protocol makes use of the multi sink architecture and creates virtual layers containing a number of sensor nodes such that the hop count from the sensor nodes in a particular layer to the surface sink is the same. Also each layer has a number of clusters with a cluster head that keeps on rotating depending on the fitness value of the sensor nodes. The proposed protocol as compared to other extant protocols like EE-DBR and DBR improves network lifetime. The presence of virtual layers and rotation of cluster heads together ensure that energy balance is better achieved in our proposed protocol which leads to an enhanced network lifetime.

     

基于改进SSA优化WSN分簇协议

无线传感器网络(Wireless Sensor Networks,WSN)的路由协议是无线传感器网络领域中的一个研究热点.针对LEACH协议的不足,提出一种基于自适应t分布改进麻雀搜索算法(Improved Sparrow Search Algorithm,ISSA)的改进LEACH协议(LEACH?ISSA),以解决...     

无线传感网络中基于蚁群的路由算法

In the wireless sensor networks, high efficient data routing for the limited energy resource networks is an important issue. By introducing Ant-colony algorithm, this paper proposes the wireless sensor network routing algorithm based on LEACH. During the construction of sensor network clusters, to avoid the node premature death because of the energy consumption, only the nodes whose residual energy is higher than the average energy can be chosen as the cluster heads. The method of repeated division is used to divide the clusters in sensor networks so that the numbers of the nodes in each cluster are balanced. The basic thought of ant-colony algorithm is adopted to realize the data routing between the cluster heads and sink nodes, and the maintenance of routing. The analysis and simulation showed that the proposed routing protocol not only can reduce the energy consumption, balance the energy consumption between nodes, but also prolong the network lifetime.