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伊林思_工业无线路由器OSPF链路类型(Link... 工业无线路由器OSPF链路类型(Link Type) 巧玲珑OSPF确实因为考虑问题的全面,而导致路由协议的复杂,OSPF不仅因为不同的二层链路层介质定义了不同的OSPF网络类型(Network Type),还因为链路上的邻居,而定义了OSPF链路类型(Link Type) 。 OSPF网络类型(Network...

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工业路由器的Network Summary LSA 工业路由器:Network Summary LSA ABR工业级路由器始发,用于通告该区域外部的目的地址, 可以使用show ip ospf database summary查看LSA 如果ABR知道有多条路径可以到达目标地址,但是它仍然只发送单个的Network Summary LSA,并且是开销最低的那条;同样,如果ABR从其他的ABR那里收到多条Network...

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工业4G路由器BGP邻居的flaping •工业路由器通过IGP学到对方loopback,并用looback建EBGP邻居 •又在BGP中通告此loopback。此时BGP邻居会出现flaping R1和R2之间运行一个IGP协议,比如说EIGRP。将环回口都宣告进去,这样R1和R2相互之间就有对方环回口的工业级路由器路由了,然后再用环回口建立EBGP邻居关系。最后再把2.2.2.0和1.1.1.0的环回口宣告进BGP。这时你会发现工业无线路由器BGP路由会发生flapping。 原因一:无线路由器 •首先R1和R2之间运行了EIGRP,学到对方的环回口工业级无线路由器路由是一条EIGRP路由,管理距离是90 •而当这两个环回口宣告进BGP后,R1和R2又通过BGP学到对方环回口路由,管理距离是20 •这时,全网工业级路由器BGP路由由于管理距离最小,会进入全网工业路由器路由表,取代EIGRP路由 •问题在于,现在的全网通工业路由器BGP路由是有问题的,下一跳是不可达的 R2收到的1.1.1.0的BGP路由下一跳是R1的环回口1.1.1.1 R1收到的2.2.2.0的BGP路由下一跳是R2的环回口2.2.2.2 •BGP有一个检查机制,每60S检查一次BGP路由,看是否有效,60S后就会检查到这些工业级全网通路由器路由并设为无效 •BGP路由无效以后,在路由表中就没有了,EIGRP路由又起作用了。 •有了EIGRP路由,BGP路由的下一跳有可达了。又有效了。 •BGP邻居有效以后,又会抢占了EIGRP路由的地位,又会导致全网通工业级路由器BGP路由下一跳不可达。 原因二:4g路由器 •首先R1和R2之间运行了EIGRP,学到对方的环回口工业全网通路由器路由是一条EIGRP路由,管理距离是90 •而当这两个环回口宣告进BGP后,R1和R2又通过BGP学到对方环回口路由,管理距离是20 •这时,工业级全网路由器BGP路由由于管理距离最小,会进入路由表,取代EIGRP路由 •问题在于,现在的工业4G路由器BGP路由是有问题的,下一跳是不可达的 R2收到的1.1.1.0的工业级4G路由器BGP路由下一跳是R1的环回口1.1.1.1 R1收到的2.2.2.0的BGP路由下一跳是R2的环回口2.2.2.2 •路由不可达就造成两个邻居之间没法发送keeplive •180S后BGP邻居关系超时,并DOWN掉。这时EIGRP路由又起作用了。 •有了EIGRP路由,BGP邻居关系又可以建立了。 •BGP邻居有效以后,工业全网路由器BGP路由又会抢占了EIGRP路由的地位,又会导致BGP邻居再一次DOWN掉。 标签:全网通路由器 ...

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工业路由器OSPF建立邻居到LSA的互换的交换过程 从工业路由器OSPF建立邻居,到LSA的互换,到路由表的计算,需要经过一系列的工业级路由器数据包交换过程,过程如下: Hello ↓ Database Description Packets (DBD) ↓ Link-state Request (LSR) ↓ Link-state update(LSU) ↓ LSDB 具体情况如下: Hello Hello包是用来建立和维护工业无线路由器OSPF邻居的,要交换LSA,必须先通过Hello包建立工业级无线路由器OSPF邻居。 Database...

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伊林思:工业4g路由器区域分离你清楚吗? 工业4g路由器区域分离 区域分离的操作与区域合并的正好相反。区域分离可以将原有的一个区域分离为两个不同的区域。如下图所示,R1与R2都为L1/2工业路由器。起初R1和R2属于同一个区域中,都拥有相同的区域地址49.0001,之间形成了L1和L2邻接关系,共享相同的L1和L2链路状态数据库。现在需要将这两个区域分离开。与区域合并一样,可以先赋予R2两个全网通工业路由器NET地址,区域地址分别为49.0001和49.0002。之后再将R2原先区域地址为49.0001的NET地址删除,这时由于R1和R2处于不同的区域,L1邻接关系将不存在,但L2邻接关系和L2链路状态数据将保留,此时便完成了全网通工业级路由器区域分离。 重编址 重编址过程与区域合并、区域分离相似,重编址可能需要清除一些或者全部工业级路由器的区域前缀,用新的区域前缀代替。如下图所示,现在希望将原先的49.0001区域迁移到49.0002区域,这就需要更改工业级无线路由器上的区域地址。R1和R2属于同一个区域49.0001中,要将R1和R2迁移到49.0002区域中,可以为R1和R2都赋予两个NET地址,两个NET地址包含不同的区域地址,49.0001和49.0002,然后依次删除R1和R2的包含49.0001区域地址的NET地址,这样就实现了工业无线路由器新的NSAP地址的无缝、无冲突的重新配置。 注意,IS-IS多宿主与IP中的辅助地址(secondanaryIP)是不同的,辅助地址可以在同一条工业级全网通路由器链路上创建多个隔离的逻辑子网。另外,辅助IP地址是在一条链路上配置多个子网。 工业无线路由器NSEL NSEL定义了网络层服务的用户,工业全网通路由器路由层是特殊的网络层服务用户,它的NSEL值为0。之前多次提到,在IS-IS工业4G路由器上配置的NSAP地址采用00作为NSEL,这时NSAP地址被称为NET。NSEL的值与IP报头中的协议类型或TCP/UDP报头中的TCP、UDP端口号类似,NSEL帮助网络层把数据发送到适当的应用程序或服务。在OSI分层模型中,网络层服务的是传输层。目标不是路由进程的CLNP数据包具有非0的NSEL值的NSAP地址,表示节点需要将数据发送到传输层。我们在使用IS-IS进行工业级4G路由器IP路由选择中,只要记住始终保持NSEL为00即可。全网通4g路由器

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Research: China IoT Market is expected to Worth 121.45 Billion USD by 2022

Category : 其他, 技术相关

According to the new market research report China IoT Market by Hardware (Processor, Memory, Logic, Sensor, & Connectivity), Software (Real-Time Streaming, Network Security, Data Management, Remote Monitoring, & Bandwidth Management), Platform, Service, and Application – Global Forecast to 2022,published by MarketsandMarkets, the market is expected to reach USD 121.45 Billion by 2022, at a CAGR of 41.1% between 2016 and 2022.

The major factors driving this market are the growing demand for smartphone and other connecting devices, the increasing internet penetration, rising trends of industrial automation, and mainstream adoption of cloud computing.

A Brief Introduction of US largest Operator Verizon

Category : 其他, 技术相关

Verizon Communications, Inc. (simply known as Verizon), is a broadband telecommunications company and the largest U.S. wireless communications service provider as of September 2014, and a corporate component of the Dow Jones Industrial Average. The company is based at 1095 Avenue of the Americas in Midtown Manhattan, New York City, but is incorporated in Delaware.

 

What eventually became Verizon was founded as Bell Atlantic, which was one of the seven Baby Bells that were formed after AT&T Corporation was forced to relinquish its control of the Bell System by order of the Justice Department of the United States. Bell Atlantic came into existence in 1984 with a footprint from New Jersey to Virginia, with each area having a separate operating company (consisting of New Jersey Bell, Bell of Pennsylvania, Diamond State Telephone, and C&P Telephone).

 

As part of the rebranding that the Baby Bells took in the mid-1990s, all of the operating companies assumed the Bell Atlantic name. In 1997, Bell Atlantic expanded into New York and the New England states by merging with fellow Baby Bell NYNEX. In addition, Bell Atlantic moved their headquarters from Philadelphia into the old NYNEX headquarters and rebranded the entire company as Bell Atlantic.

 

In 2000, Bell Atlantic merged with GTE, which operated telecommunications companies across most of the rest of the country that was not already in Bell Atlantic’s footprint. Bell Atlantic, the surviving company, changed its name to “Verizon”, a portmanteau of veritas (Latin for “truth”) and horizon.

 

As of 2016, Verizon is one of three companies that had their roots in the former Baby Bells. The other two, like Verizon, exist as a result of mergers among fellow former Baby Bell members. One, SBC Communications, bought out its former parent AT&T Corporation and assumed the AT&T name. The other, CenturyLink, was formed initially in 2011 by the acquisition of Qwest (formerly named US West).