这个循环会不断重复,并随着单断和重整连接以发出边界网关协议更新信息波至互联网的每一台路由器。
This cycle would repeat, with the single breaking and reforming link sending out waves of BGP updates to every router on the Internet.
短时间以后,两个被隔离的路由器会重新连接并发去其自己的边界网关协议更新信息,一旦攻击再开始,其会使它们再次断开。
A short time later, the two sundered routers would reconnect and send out their own BGP updates, upon which attack traffic would start flowing in again, causing them to disconnect once more.
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.
而要实现对多播协议的支持,必须要更新新的路由器或更改路由器的设置。
To support the protocols, however, it's necessary to update the router or modify the configuration of it.
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).
获取网络拓扑的传统方法是定时更新网络信息,但会带来大量的网络开销。鉴此,本文提出了一个高效的路由协议。
Traditional methods for getting the topology of networks is to update information regularly, but this will result in large amount of network overhead.
获取网络拓扑的传统方法是定时更新网络信息,但会带来大量的网络开销。鉴此,本文提出了一个高效的路由协议。
Traditional methods for getting the topology of networks is to update information regularly, but this will result in large amount of network overhead.
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