“丝绸之路”隧道技术.doc
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“丝绸之路”隧道技术,silkroad全文约4600字论述翔实abstract:the growth of ipv6 networks started mainly using the transport facilities offered by the current internet. this led to th...
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“丝绸之路”隧道技术
Silkroad
全文约4600字 论述翔实
Abstract: The growth of IPv6 networks started mainly using the transport facilities offered by the current Internet. This led to the development of several techniques to manage IPv6 over IPv4 tunnels. However, classic tunneling methods do not work when the IPv6 candidate node is isolated behind a Network Address Translator (NAT) device. We propose here a service, called Silkroad, to enable nodes located behind one or several IPv4 NATs to obtain IPv6 connectivity. It can provide IPv6 connectivity through all existing NAT types and does not require any update of them. In addition, Silkroad could provide managed IPv6 prefixes with path optimized routing directly between clients.
KeyWord: IPv6,silkroad,tunnel
摘要:目前IPv6 及相关协议已经相对成熟,然而IPv6 网络向IPv6 网络的过渡和互通仍然是个艰巨的任务,直接影响了IPv6的发展。本文在对现有的各种互通与过渡方案进行综合分析的基础上,针对目前转换与互通中所存在的问题,提出了一种穿透NAT 实现IPv6终端互连的隧道机制,该机制可以支持所有常见的NAT类型,无需特殊的IPv6地址前缀,可以向用户提供固定的IPv6地址。
关键字:IPv6,丝绸之路,隧道技术
Silkroad
全文约4600字 论述翔实
Abstract: The growth of IPv6 networks started mainly using the transport facilities offered by the current Internet. This led to the development of several techniques to manage IPv6 over IPv4 tunnels. However, classic tunneling methods do not work when the IPv6 candidate node is isolated behind a Network Address Translator (NAT) device. We propose here a service, called Silkroad, to enable nodes located behind one or several IPv4 NATs to obtain IPv6 connectivity. It can provide IPv6 connectivity through all existing NAT types and does not require any update of them. In addition, Silkroad could provide managed IPv6 prefixes with path optimized routing directly between clients.
KeyWord: IPv6,silkroad,tunnel
摘要:目前IPv6 及相关协议已经相对成熟,然而IPv6 网络向IPv6 网络的过渡和互通仍然是个艰巨的任务,直接影响了IPv6的发展。本文在对现有的各种互通与过渡方案进行综合分析的基础上,针对目前转换与互通中所存在的问题,提出了一种穿透NAT 实现IPv6终端互连的隧道机制,该机制可以支持所有常见的NAT类型,无需特殊的IPv6地址前缀,可以向用户提供固定的IPv6地址。
关键字:IPv6,丝绸之路,隧道技术
