无线自组织网络具有无中心、自组织、多跳路由等特点。
The wireless AD hoc networks have lots of characteristics such as having no centre, self-organizing and multi-skip route.
传统单下一跳路由已无法满足日益增长的网络应用的需求。
Traditional single next-hop routing has been unable to meet the needs of the increasing network applications.
该文提出一种新颖的基于非均匀分簇的无线传感器网络多跳路由协议。
This paper presents a novel uneven cluster-based routing protocol for wireless sensor networks.
该算法使得簇头分布更加均匀,同时在数据传输中,提出了改进后多跳路由算法。
The novel algorithm makes it more uniform in distribution of cluster heads, an improved multi-hop routing algorithm is proposed in data transmission.
在分析LEACH协议的基础上提出一种基于能量和距离的多跳路由算法(CAED)。
A new clustering algorithm based on energy and distance (CAED) is proposed based on analysing LEACH protocal.
每个路由器的路由表显示了到达目的地址的最佳路径,对于要有几跳的地址,它显示出最佳的下一跳路由器。
Each router's routing table shows the best route to the destination address; for addresses that may be several hops away, it shows the best next-hop router.
基于多一下跳路由机制,提出一种区分排队的多个可选端口输出交换结构以及双指针最大权重优先调度算法。
Based on multi-hop routing mechanism, proposes a multi-output Switching fabric and dual-pointer maximum-weight-first scheduling algorithm.
如果查找路由表显示包的目的地不在本地子网,路由器就利用下一跳路由器的MAC地址把包转发给下一跳路由器。
If the route table lookup shows that the packet is destined for a non-local subnet, the router forwards the packet to the next-hop router using the next-hop router's MAC address.
如果查找路由表显示包的目的地不在本地子网,路由器就利用下一跳路由器的MAC地址把包转发给下一跳路由器。
If the route table lookup shows that the packet is destined for a nonlocal subnet, the router forwards the packet to the next-hop router using the next-hop router's MAC address.
综合考虑数据的可靠传输性和无线传感器网络的节点使用寿命,对网络节点的数据传输多跳路由协议进行分析与设计。
Considered a reliable data transmission and wireless sensor network nodes 'life, we analyze and design the data transmission network of node multi-hop routing protocol.
基于对LEACH协议的研究,本文提出了一种新的成簇路由算法——半径自适应成簇多跳路由算法(RACMH)。
Based on the study of LEACH, in this paper, we propose a new clustering routing algorithm-Radius Adaptive clustering Multi-hop routing algorithm (RACMH).
麦克称,Manet的体系结构包括建立一个路由表,每个节点不仅知道其“单跳”相临节点,还应知道与其他相临节点的下一个节点。
Macker said the Manet architecture involves building a routing table in which each node knows not only its neighbors one hop away but also the nodes next to those neighbors.
大量的网络路由跳,或超时的路由跳,影响客户服务器的通信。
A large number of network hops, or hops that time out, affect client-to-server communications.
也可通过3g连接来使用GMote,不过这需要在你的路由器上设置下一跳8889。
You can use GMote over your 3g connection, but it will require you to forward port 8889 on your router.
复杂网络中,通过1-跳邻点的周期性更新或使用反应式路由协议来发现路由。
In the complex networks, routes are discovered by a periodic update between 1 - hop neighbors or by using a reactive routing protocol.
基于位置路由算法的基本思想是基于节点的位置信息来选择下一跳,将包向目的节点的方向上进行转发。
The basic idea of position based routing algorithm is to select the next hop based on the position information of nodes, and forward the packets to the direction of destination.
分析了基于位置的路由协议中不同的包转发策略对平均跳数的影响。
The impact of forwarding strategies in location-based routing for average number of hops was analyzed.
多跳网的路由算法是波分复用网的研究热点之一。
The study of routing algorithm of multihop network is one of the key problems of WDM networks.
路由选择采用K条最短路径算法进行,备选路由集中首选最佳路由时考虑链路的代价、跳数和每一个链路上不可用波长数。
We adopt K shortest paths into routing and choose the best route in them considering link costs, links hops and the number of noutilized wavelength in a link.
算法考虑了链路带宽、链路时延、路由跳数、服务器负载等因素,可以在一定程度上平衡网络负载和提高网络性能。
Considered the factors of link bandwidth, link delay, route hop and server load, the algorithm can balance network load and enhance the network performance to some extent.
研究并建立了多跳光网络的数学模型,把该模型分解成连接问题模型和路由问题模型。
In this paper, the mathematical model of multihop light network is established, and it is divided into connectivity problems and routing problems.
该协议在路由发现以后,以所发现的路径做为基础路径,在其周围一定跳数范围内维护了一个路径修复区域。
Focusing on the AODV routing repair strategy and based on the hop count on the base path and the destination node, HAODV maintenances a repair area around the base path within certain number of hops.
查找路由表以给出下一跳地址是路由器中分组转发的核心步骤,因此快速的路由查表算法是实现高速分组转发的关键。
Routing lookup plays a key part of packet forwarding, so fast IP address lookup algorithm is the significant part of high speed packet forwarding.
本文将跨层优化和蚂蚁优化方法结合起来解决自组网中的负载均衡问题,提出了一种基于跨层负载感知和双向逐跳更新信息素的蚂蚁优化路由协议(CLABHPU)。
In this paper, we present a cross-layer load-aware based ant colony optimization routing protocol with bi-directional and hop-by-hop pheromone update for ad hoc networks(CLABHPU).
第五章结合多跳蜂窝网络的系统模型,对综合最小功率的稳定路由算法进行仿真验证及比较。
Here, combined with multihop cellular network system model, we were carry on simulating with the complex minimum power of stable routing algorithm. We then presented the results of simulation.
平均路径稳定时间、平均新增中间节点数和平均跳数来评估这些路由度量的影响。
Specially, this paper evaluates the impact of these routing metrics on the following performance metrics:average path stability time, average number of new intermediate nodes, and average hop counts.
平均路径稳定时间、平均新增中间节点数和平均跳数来评估这些路由度量的影响。
Specially, this paper evaluates the impact of these routing metrics on the following performance metrics:average path stability time, average number of new intermediate nodes, and average hop counts.
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