广播风暴

This broadcast storm will include Switches X and Y, and beyond.

这广播风暴也会影响到X和Y和之后的交换器。

The paper discusses and analyzes the mechanism and countermeasure of the broadcast storm on switching Ethernet environment.

讨论和分析交换式以太网环境下的广播风暴的产生机理和对策，给出一个程序化自动跟踪风暴源的方法，有效地解决广播风暴防治问题。

It is proved that this new broadcast algorithm can resolve the problem of broadcast storm that may be caused by the broadcast based on flooding algorithm more efficiently than other algorithms.

并证明了新的广播算法与已有算法相比能够更加有效地解决网络采用洪泛方式进行广播时所可能产生的广播风暴问题。

From the experiment results we have proved that Cross Layer Design helps in reducing the broadcast redundancy so as to avoid the broadcast storm problem in MANETs.

通过实验结果，我们已经证明了跨层设计能够降低广播的冗余，以此来避免移动Adhoc网络的广播风暴。

VLAN divided after the broadcast domain as a result of the reduced network by broadcasting packets to reduce bandwidth consumption, contribute to the emergence of broadcast storm control, reduce equipment investment, simplifying network management, improve network performance and security.

划分VLAN 后，由于广播域的缩小，网络中广播包所消耗的带宽减少，有助于控制广播风暴的产生、减少设备投资、简化网络管理、提高网络的性能和安全性。

Traditional Ethernet, all users share the same broadcast domain and the domain of conflict will cause a decline in network performance, the emergence of switches to solve the problem of domain conflict, while broadcast storm control and network security only through the Road achieved by the device.

传统的以太网中，所有的用户共享同一个广播域和冲突域，会引起网络性能的下降，交换机的出现解决了冲突域的问题，而对广播风暴和网络安全的控制只能通过路由器来实现。

Conventional flooding broadcast possibly generates a great deal of control packets in a wireless network; therefore, it may result in a broadcast storm problem under the network with high density of nodes.

传统氾流式广播法会产生大量广播封包在网路中流窜，尤其在高密度的网路中此情况更加地严重，而形成广播风暴问题。

Broadcasting by flooding has been proved to cause broadcast storm problems in the multi-hops wireless networks, and it becomes more serious in a wireless mesh network.

氾滥式广播机制已经被证实在多节点跳跃无线网路上造成严重的广播风暴问题，而此问题在无线网状网路中变得更为严重。

Although the STP which is constituted by IEEE can solved "Broadcast storm", but its convergence is so slow that can not adapt the requirement of core network.

在实际组网应用中，以太网环路的出现会导致"广播风暴"现象(即大量广播包阻塞网络链路)，严重影响网络性能。

The result is that in none of the bridges believing there is a loop and when a broadcast packet is sent on the network, a broadcast storm results over the entire internetwork.

这个结果导致没有一个交换器会知到这网路中有一个回圈存在。当有一个广播封包产生时，整个网路就会产生广播风暴。

Broadcast Storm：广播风暴

欲达到备援的能力,首要的就是增加备用的线路,当然,在乙太网路的架构下,环状(Ring)或网状(Mesh)的架构是不备允釭满A那会形成网路的回路(Loop)并造成网路上广播风暴(Broadcast Storm)的发生,也因此在IT应用里有了生成树协议STP(Spanning Tree Protocol)的出现,

Snow storm：雪 灾

而帧头中无ttl的结构,所以帧始终有效,由于广播没有特定目标地址,所以hub/swtich会永远转发下去 引起网络广播风暴的几种原因 1、网络设备原因:我们经常会有这样一个误区,交换机是.有关雪灾(SNOW STORM)的英语素材 ...storm,

Broadcast storming：广播风暴

广播电视:broadcast and television | 广播风暴:Broadcast storming | 广播协议:Broadcast protocols