Mohammad Aazam, Adeel M. Syed, S. Shah, Imran Khan, Muhammad Alam
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引用次数: 21
摘要
IPv4和IPv6共存存在不兼容的问题,IPv6和IPv4的报头不同。为了解决这个问题,有三种可能的解决方案:a)使每个设备双堆栈,b)转换,c)隧道。挖隧道是最好的解决方案。在IPv6隧道技术中,本文评估了两种最新的IPv6隧道技术:6to4和ISATAP的性能。这些协议在真实的测试平台设置、Microsoft Windows (MS Windows XP和MS Windows Server 2003)和Linux操作系统上实现。整个试验台使用了5到6台设备。然后使用特定的配置命令在设置上实现每个协议,这些命令可以从各种来源在线获得。运行基于UDP的音频流、视频流和TCP的ICMP-ping流量。四个不同的IPv6流量运行路由在设置为两个IPv6隧道协议。取数据的平均值来生成图形和最终结果。这些隧道技术的性能已经通过某些参数进行了评估,即:吞吐量、端到端延迟(E2ED)、往返时间(RTT)和抖动。
Coexistence of IPv4 and IPv6 bears problem of incompatibility, as IPv6 and IPv4 headers are different from each other. To counter this problem, three solutions are possible: a) making every device dual stack, b) translation, c) tunneling. Tunneling stands out as the best possible solution. Among the IPv6 tunneling techniques, this paper evaluates the performance of two recent IPv6 tunneling techniques: 6to4 and ISATAP. These protocols were implemented on real test bed setup, on Microsoft Windows (MS Windows XP and MS Windows Server 2003) and Linux operating systems. Five to six devices were used to setup the whole test bed. Each protocol was then implemented on the setup using specific configuration commands, available online at various sources. UDP based audio streaming, video streaming, and TCP based ICMP-ping traffic was run. Four different runs of IPv6 traffic were routed over the setup for both IPv6 tunneling protocols. The average of the data was taken to generate graphs and final results. The performance of these tunneling techniques has been evaluated through certain parameters, namely: throughput, end to end delay (E2ED), round trip time (RTT), and jitter.
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