基于能量均衡的无线传感器网络路由算法

为了提高无线传感器网络的生存时间,针对当前LEACH算法存在的能量不均衡难题,提出一种能量均衡的无线传感器网络节点路由算法。首先将监测区域看成以基站为中心的扇形区域,并将扇形区域分割成不同大小的弧形方块,每个弧形方块中的节点组成一个簇,根据节点剩余能量产生簇头,然后采用单跳和多跳相结合的簇间通信机制,最后采用仿真实验测试算法的性能。结果表明,本文算法有效提高了网络的能量利用率,能够实现节点之间的能耗均衡,使无线传感器的网络生存时间得到延长,适用于对网络生命周期要求较高的应用。     

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.     

超宽带无线自组网路由协议算法探讨

文章介绍了采用超宽带技术的无线自组网,重点对网络路由协议算法协议进行了探讨.     

无线传感器网络能量均衡路由博弈算法

针对无线传感器网络节点能耗不均匀,容易形成网络分区的问题,提出了一种基于博弈论的无线传感网络路由选择策略,建立传感器节点之间以剩余能量为效用的博弈模型,求解并确定节点剩余能量最优的路由。仿真结果表明,所提出的路由选择策略可以有效地最大化节点的剩余能量,同时当该模型处于纳什均衡解时,每条路径的能耗处于均衡状态,有效地利用了传感器节点的能量资源,避免了网络能量的空洞,延长了网络的生命周期。     

无线传感器网络中一种基于能量策略的路由算法

介绍了无线传感器网络(Wireless Sensor Network, WSN)的概念和特点,在此基础上针对无线传感器网络的特点提出了一种能量效率高和能量消耗平衡的路由新算法：最小能耗路由和节点能量最大路由周期轮转。给出了在WSN中多点对一点通信的最小能耗路径和节点能量最大路径的矩阵算法。     

无线 Mesh 网络中多路径路由算法的研究

针对无线 Mesh 网络中传统单径路由协议的不足,提出一种基于动态源路由协议(DSR)的多路径路由算法(IDSR).该算法通过在路由发现过程引入带宽和最大转发次数等限制条件,保证了多条路由请求信息的获取;通过在节点不相交的多径选择过程中引入多 QoS 路由代价函数,有效地实现多路径的选择;通过提供多 QoS 保障,使算法具有较高的求解效率,避免了单径路由的不稳定等特点.实验结果表明,IDSR 算法在无线 Mesh 网络的路由中具有更好的 QoS 性能.     

基于定位的超宽带传感器网络路由算法研究

超宽带定位技术应用于移动传感器网络路由算法是目前研究热点,该文提出一种基于超宽带定位的源动态路由算法,通过超宽带定位建立网络拓扑,并根据节点移动速度来反映节点的移动效应;通过受限泛洪和移动预测两种路由机制来提高路由性能.仿真结果表明,该算法能提高移动节点的路由成功率,降低路由平均延时.     

基于能量优化的无线传感器网络安全路由算法

针对无线传感器网络路由面临安全威胁和节点能量有限的不足,提出一种基于能量优化的安全路由算法(EOSR).该算法把优化能量、提高路由安全性和缩短传输时延同时作为设计目标,采用多目标决策,在保证安全性和快速传输的同时,让能量储备较多的节点承担较多的数据转发任务,可获得最优路由和延长网络生命期.通过预置公私密钥对,有效地提高了路由的安全性.给出了该算法中路由发现、路由选择和路由删除的具体步骤,通过仿真实验证明该算法的有效性.     

具有能量供给的无线传感器网络路由算法研究

针对现有具有能量供给的无线传感器网络由算法出现的簇头分布不均匀、簇头无法连任的问题,本文提出了一种新的路由算法一CAEH（clustering algorithm for energy harvesting）,该算法通过对簇头选举机制阈值进行改进,均衡了全网簇头节点的分布,同时簇头能够连续担任不再重复选举,从而充分保存与利用供给能量。理论和仿真实验表明：与另一种对比算法相比较,CAEH算法能够提高节点平均剩余能量以及存活节点的数量。     

无线adhoc网络中的多径源路由

本文针对无线ad hoc网络提出了一种基于DSR(动态源路由)的路由算法,多径源路由(MSR).MSR对DSR中的路由搜索和路由维护机制进行了扩展,用来解决多径路由问题.本文还提出,在多条路径之间基于测量的RTT进行负载分配.仿真结果表明,MSR在只增加少量网络开销的情况下,提高了TCP和UDP的投递率,降低了丢包率,并减少了端到端之间的延迟以及队列长度,从而有效地减少了网络拥塞.     

无线自组织网络中一种拥塞意识的多径路由算法

提出了无线自组织网络中一种拥塞意识的多径路由算法。该算法在路由发现过程中,综合节点的队列长度和路径跳数来动态确定路由请求消息的转发概率,可以在保证路由请求消息有一定送达率的条件下,降低路由开销;在路径选择和流量分配过程中,综合考虑节点的队列长度和路径质量作为路由度量,发现流量高吞吐量低拥塞路径,并基于该度量值进行流量分配。仿真结果显示,所提出的多径路由算法能有效提高网络性能。     

移动自组织网络中能源信息熵的需求多路径路由协议(英文)

This paper provides a critical review of energy entropy theory in Mobile Ad Hoc Networks (MANETs) and proposes an Energy Entropy on Ad Hoc On-demand Distance Vector Multipath (EEAODVM) routing protocol. The essential idea of the protocol is to find every route which can minimize the node residual energy in the process of selecting path. It balances individual node battery energy utilization and hence prolongs the entire network lifetime. The results of simulation show that, with the proposed EEAODVM routing...     

Distributed Power Control for Energy Efficient Routing in Ad Hoc Networks

In this paper, distributed power control is proposed as a means to improve the energy efficiency of routing algorithms in ad hoc networks. Each node in the network estimates the power necessary to reach its own neighbors, and this power estimate is used both for tuning the transmit power (thereby reducing interference and energy consumption) and as the link cost for minimum energy routing. With reference to classic routing algorithms, such as Dijkstra and Link State, as well as more recently proposed ad hoc routing schemes, such as AODV, we demonstrate by extensive simulations that in many cases of interest our scheme provides substantial transmit energy savings while introducing limited degradation in terms of throughput and delay.     

基于定位辅助和能量有效的超宽带网路由算法

文中在分析了超宽带（Ultra-Wideband，UWB）技术特点的基础上，与Ad Hoc网络已有的路由协议结合，提出了一种基于定位辅助和能量有效的超宽带自组网路由算法。仿真表明，该算法能够显著延长网络生存时间，均衡节点电量消耗。     

Ariadne: A Secure On-Demand Routing Protocol for Ad Hoc Networks

An ad hoc network is a group of wireless mobile computers (or nodes), in which individual nodes cooperate by forwarding packets for each other to allow nodes to communicate beyond direct wireless transmission range. Prior research in ad hoc networking has generally studied the routing problem in a non-adversarial setting, assuming a trusted environment. In this paper, we present attacks against routing in ad hoc networks, and we present the design and performance evaluation of a new secure on-demand ad hoc network routing protocol, called Ariadne. Ariadne prevents attackers or compromised nodes from tampering with uncompromised routes consisting of uncompromised nodes, and also prevents many types of Denial-of-Service attacks. In addition, Ariadne is efficient, using only highly efficient symmetric cryptographic primitives.     

Performance of Multipath Routing for On-Demand Protocols in Mobile Ad Hoc Networks

Mobile ad hoc networks are characterized by multi-hop wireless links, absence of any cellular infrastructure, and frequent host mobility. Design of efficient routing protocols in such networks is a challenging issue. A class of routing protocols called on-demand protocols has recently found attention because of their low routing overhead. The on-demand protocols depend on query floods to discover routes whenever a new route is needed. Such floods take up a substantial portion of network bandwidth. We focus on a particular on-demand protocol, called Dynamic Source Routing, and show how intelligent use of multipath techniques can reduce the frequency of query floods. We develop an analytic modeling framework to determine the relative frequency of query floods for various techniques. Our modeling effort shows that while multipath routing is significantly better than single path routing, the performance advantage is small beyond a few paths and for long path lengths. It also shows that providing all intermediate nodes in the primary (shortest) route with alternative paths has a significantly better performance than providing only the source with alternate paths. We perform some simulation experiments which validate these findings.     

Energy Consumption of TCP in Ad Hoc Networks

In this paper we study the energy cost (protocol processing and communication cost) and goodput of different flavors of TCP (Transmission Control Protocol) in ad hoc networks. We implemented a testbed and measured the actual energy cost as well as goodput of running TCP Reno, Newreno, SACK (Selective ACKnowledgement) and a version that combines Explicit Link Failure Notification (ELFN) [7] and Explicit Congestion Notification (ECN) [5] in Newreno. We see that the use of ECN & ELFN does yield higher goodput in most cases with a corresponding lower total energy cost. We see an energy savings of between 20% and 500% depending on the network conditions.     

An Energy Consumption Model for Performance Analysis of Routing Protocols for Mobile Ad Hoc Networks

A mobile ad hoc network (or manet) is a group of mobile, wireless nodes which cooperatively form a network independent of any fixed infrastructure or centralized administration. In particular, a manet has no base stations: a node communicates directly with nodes within wireless range and indirectly with all other nodes using a dynamically-computed, multi-hop route via the other nodes of the manet.Simulation and experimental results are combined to show that energy and bandwidth are substantively different metrics and that resource utilization in manet routing protocols is not fully addressed by bandwidth-centric analysis. This report presents a model for evaluating the energy consumption behavior of a mobile ad hoc network. The model was used to examine the energy consumption of two well-known manet routing protocols. Energy-aware performance analysis is shown to provide new insights into costly protocol behaviors and suggests opportunities for improvement at the protocol and link layers.     

自组网内的延迟限制QoS路由算法研究

介绍了自组网内的延迟限制 ＱｏＳ（Ｑｕａｌｉｔｙ－ｏｆ－Ｓｅｒｖｉｃｅ）路由算法，并对它进行了仿真。该算法可在网络状态信息不精确的情况下，同时并行寻找多条路径，以优化路径选择。当节点移动、离开、加入时，引入容错机制，以便于路径保持。通过仿真可以看出，该算法在适度的寻路代价下，可以得到较高的呼叫接收率。