共查询到18条相似文献,搜索用时 171 毫秒
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无线传感器网络中一种能量均衡的基于连通支配集的数据收集算法 总被引:1,自引:0,他引:1
采用连通支配集来构建虚拟骨干可以减轻无线传感器网络的广播风暴问题.目前已有大量工作通过构造最小连通支配集形成网络虚拟骨干来进行高效数据收集.然而,最小连通支配集并不能有效均衡节点的能量耗费,导致网络生命周期较短.提出了一种能量均衡的基于连通支配集的分布式算法EBCDS来进行数据收集,通过选择能量水平和度均比较大的节点组成连通支配集,支配集中的节点组成一个规模不大但具有较高能量水平的网络骨干.网络中的所有数据沿骨干在较小的寻路空间中转发,能够节省节点能量,使骨干节点不会因为能量不足而过早死亡.理论分析表明,EBCDS能以O(nlogn)的消息复杂度构造连通支配集,仿真实验表明,EBCDS能有效节省节点能耗并延长网络生命周期. 相似文献
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构建底层逻辑树能有效降低集中式top-k查询带来的巨大通信开销,针对现有逻辑树都以固定汇聚节点为根节点,导致其附近节点能耗太大、过早死亡的问题,本文在无固定汇聚节点的网络背景下,基于连通支配集,提出一种能耗均衡的top-k查询最优支撑树构建方法,综合节点能量、度数以及与邻节点通信开销,选取能量代价小的作为支配节点负责查询中间数据处理,在每次查询中,节点基于地理位置ID轮流作为根节点,有效均衡节点的能耗.仿真实验表明,与其他逻辑拓扑树相比,基于最优支撑树的top-k查询具有相近的查询时间,但其平均每轮查询能耗更小,多次查询后各节点能耗达到均衡,有效延长了网络生命周期. 相似文献
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WSNs中基于能量代价的最小权和支配集拓扑控制算法 总被引:1,自引:0,他引:1
该文针对无线传感器网络中最小连通支配集拓扑并非网络耗能最小拓扑的问题,定义由节点剩余能量,邻居个数和通信代价构建的能量代价函数综合反映支配节点的能量效率以及对降低网络整体能耗的贡献,进而以其作为拓扑权值,提出一种基于能量代价的最小权和连通支配集拓扑控制算法。算法选取局部最小权值节点担负支配任务,搭建整体权和最小的支配集,最小化网络整体能耗。实验结果表明,算法不仅具有节能的特点,还确保了通信链路的可靠性,有效延长了网络生命周期。 相似文献
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无线传感器网络中最小化能量广播算法 总被引:4,自引:0,他引:4
在无线传感器网络广播中,为保证所有节点都接收到广播的数据包并调节节点功率以最小化广播总能耗,在Cartigny等人提出的面向相对邻图的广播算法RBOP(relative neighborhood graph broadcast oriented protocol)的基础上,提出了更为节能的增强的面向相对邻图的广播算法ERBOP(enhanced relative neighborhood graph broadcast oriented protocol)。首先在相对邻图上删除较长边得到相对邻图的子图,该子图是连通稀疏图且包含了原图的最小生成树,然后在该子图上构造1-支配的连通支配集,只有支配点才参与数据包转发。仿真显示ERBOP有效节约了能量。 相似文献
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提出了基于有界增长图的虚拟骨干近似形成算法(VBF).算法采用网络划分机制构建极大独立集,使用染色过程形成簇图;以2分离集合子集递归计算(1 ε)近似局部最小支配集,合并局部最优解构造全局最优解:然后调整簇头传输范围直接以全局最优解形成最小近似连通支配集,无须加入网关节点,降低计算开销.构造的连通支配集具有常量扩展因子和常量度,并且算法运行时节点仅需直接邻域信息.理论分析和仿真比较证明了算法的正确性和有效性. 相似文献
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基于最小连通支配集的无线传感网拓扑构建研究 总被引:1,自引:0,他引:1
基于通信虚拟主干网的拓扑构建是关闭冗余节点,节省全网能耗的有效方法。该文将全连通网络环境下寻找最优虚拟主干网问题抽象转化成最小连通支配集求解问题(MCDS),并建立了基于混合整数规划的数学模型(NMIP-MCDS)。NMIP-MCDS在分析MCDS解的基础上,确定以令牌分发数与节点能耗乘积为目标的优化函数,通过令牌分发同时辅以全网能量负载均衡的方式,构建最优MCDS。仿真实验结果验证了NMIP-MCDS的有效性,并可进一步实际应用在中等规模的无线传感网中。 相似文献
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为了解决铁路监测场景中线性无线传感器网络的节点间能耗不均衡导致的网络生命周期短、数据传输时延大的问题,提出了一种基于粒子群优化理论和广度优先搜索的路由算法。以候选簇头节点的相对能耗、簇头间距和簇头负载为指标构建适应度函数,通过调整惯性权重系数增强粒子群算法局部搜索能力,获得簇头最优解集;构建能耗与时延驱动的路径成本函数,基于广度优先搜索获得源节点到sink节点的最优主路径;设计基于Markov决策过程(MDP)模型的Q-learning备选路径更新与路由维护机制。仿真结果表明,所提算法能够有效均衡节点间能耗,在延长网络生命周期和降低数据传输时延方面具有较优的性能。 相似文献
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On the Construction of a Strongly Connected Broadcast Arborescence with Bounded Transmission Delay 总被引:2,自引:0,他引:2
Yingshu Li Thai M.T. Feng Wang Ding-Zhu Du 《Mobile Computing, IEEE Transactions on》2006,5(10):1460-1470
Energy conservation is an important concern in wireless networks. Many algorithms for constructing a broadcast tree with minimum energy consumption and other goals have been developed. However, no previous research work considers the total energy consumption and transmission delays of the broadcast tree simultaneously. In this paper, based on an (alpha, beta){hbox{-}}{rm tree}, a novel concept to wireless networks, we define a new Strongly connected Broadcast Arborescence with bounded Transmission delay (SBAT) problem and design the Strongly connected Broadcast Arborescence (SBA) algorithm with linear running time to construct a strongly connected broadcast tree with bounded total power, while satisfying the constraint that the transmission delays between the source and the other hosts are also bounded. We also propose the distributed version of the SBA algorithm. The theoretical analysis and simulation results show that the SBA algorithm gives a proper solution to the SBAT problem. 相似文献
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基于连通支配集算法的虚拟主干网技术对于无线自组网的路由优化、能量保护和资源分配都具有重要的作用。通过引入极大独立集和极小支配集概念,基于图着色思想提出一种新的适合于无线自组网的极小连通支配集算法,从理论上证明了该算法的正确性和高效性,也通过仿真实验分析了该算法在多种情况下的实际性能,仿真结果表明新算法在簇头和主干节点数目方面具有较好的性能,特别在节点密集的网络环境中更加突出。 相似文献
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Weighted Steiner Connected Dominating Set and its Application to Multicast Routing in Wireless MANETs 总被引:1,自引:1,他引:0
In this paper, we first propose three centralized learning automata-based heuristic algorithms for approximating a near optimal solution to the minimum weight Steiner connected dominating set (WSCDS) problem. Finding the Steiner connected dominating set of the network graph is a promising approach for multicast routing in wireless ad-hoc networks. Therefore, we present a distributed implementation of the last approximation algorithm proposed in this paper (Algorithm III) for multicast routing in wireless mobile ad-hoc networks. The proposed WSCDS algorithms are compared with the well-known existing algorithms and the obtained results show that Algorithm III outperforms the others both in terms of the dominating set size and running time. Our simulation experiments also show the superiority of the proposed multicast routing algorithm over the best previous methods in terms of the packet delivery ratio, multicast route lifetime, and end-to-end delay. 相似文献
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全网范围的广播在无线传感器网络和移动自组织网络中有着广泛的应用.为节省网络资源,减少冗余转发节点成为广播中需解决的关键问题.广播过程中最小化参与转发节点数问题与图论中求解最小连通支配集问题等价,而在任意图中求解最小连通支配集是NP完全问题.本文基于极大独立集,提出了一种求解最小连通支配集的分布式算法(MISB),并证明了算法的正确性.仿真结果表明,使用该算法能得到较小的连通支配集,从而有效减少网络广播过程中的转发节点数,大大节省了网络资源. 相似文献
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为了提高无线传感器网络(WSNs)的能量利用效率、延长网络的生存时间,对基于极大独立集的最小连通支配集算法(MISB)进行优化,提出了一种新的算法.本文首先应用离散马尔科夫链为节点建立模型,并且根据模型预测节点的能量消耗;本算法进行多轮选举,每一轮开始时根据节点的度和能量选举支配点,依据模型预测的能量消耗决定本轮的运行时间,本轮运行结束时从新选举支配点,开始新一轮.仿真结果表明,本算法和原算法相比可以更好地平衡网络的能量消耗,提高全网的能量利用率,极大地延长网络的生存时间. 相似文献
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Hui Xia Rui-hua Zhang Jia Yu Zhen-kuan Pan 《International Journal of Wireless Information Networks》2016,23(2):141-150
Clustering and multi-hop routing algorithms substantially prolong the lifetime of wireless sensor networks (WSNs). However, they also result in the energy hole and network partition problems. In order to balance the load between multiple cluster heads, save the energy consumption of the inter-cluster routing, in this paper, we propose an energy-efficient routing algorithm based on Unequal Clustering Theory and Connected Graph Theory for WSN. The new algorithm optimizes and innovates in two aspects: cluster head election and clusters routing. In cluster head election, we take into consideration the vote-based measure and the transmission power of sensor nodes when to sectionalize these nodes into different unequal clusters. Then we introduce the connected graph theory for inter-cluster data communication in clusters routing. Eventually, a connected graph is constituted by the based station and all cluster heads. Simulation results show that, this new algorithm balances the energy consumption among sensor nodes, relieves the influence of energy-hole problem, improve the link quality, achieves a substantial improvement on reliability and efficiency of data transmission, and significantly prolongs the network lifetime. 相似文献
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In recent years, constructing a virtual backbone by nodes in a connected dominating set (CDS) has been proposed to improve the performance of ad hoc wireless networks. In general, a dominating set satisfies that every vertex in the graph is either in the set or adjacent to a vertex in the set. A CDS is a dominating set that also induces a connected sub‐graph. However, finding the minimum connected dominating set (MCDS) is a well‐known NP‐hard problem in graph theory. Approximation algorithms for MCDS have been proposed in the literature. Most of these algorithms suffer from a poor approximation ratio, and from high time complexity and message complexity. In this paper, we present a new distributed approximation algorithm that constructs a MCDS for wireless ad hoc networks based on a maximal independent set (MIS). Our algorithm, which is fully localized, has a constant approximation ratio, and O(n) time and O(n) message complexity. In this algorithm, each node only requires the knowledge of its one‐hop neighbours and there is only one shortest path connecting two dominators that are at most three hops away. We not only give theoretical performance analysis for our algorithm, but also conduct extensive simulation to compare our algorithm with other algorithms in the literature. Simulation results and theoretical analysis show that our algorithm has better efficiency and performance than others. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献