SCTP多路径性能评估与网络冗余效应

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"这篇论文是评估SCTP（Stream Control Transmission Protocol）多宿主性能的第一步，探讨了不同网络因素，如并发流量、拥塞控制算法和不同的SACK（Selective Acknowledgment）定时器对SCTP性能的影响。研究者计划在未来解决工作中存在的显著弱点，即仅使用了一个CMT-SCTP（Concurrent Multipath Transfer - SCTP）源来建立SCTP多宿主关联，而可以测试多个CMT-SCTP关联在这些网络因素下的表现。此外，SCTP领域的研究者还引入了另一种利用SCTP多宿主的并发多路径传输方法，称为CMT-PF（CMT with a potentially failed destination state）。未来的工作可能将评估CMT与CMT-PF在并发流量、拥塞控制算法和SACK定时器等指标上的表现差异。" SCTP（Stream Control Transmission Protocol）是一种设计用于在网络中提供强健流量传输的协议。它的多宿主功能允许SCTP发送方在一个会话中使用目的地的多个IP地址，确保即使主路径出现故障，通信仍能通过冗余路径继续。此功能还支持并发多路径流量传输。该硕士论文研究了不同网络因素对SCTP多宿主特性的影响。这些因素包括并发交叉流量、拥塞控制算法以及SACK定时器。性能指标主要通过吞吐量和端到端包延迟来衡量。研究发现，并发流量会影响SCTP的性能，可能会导致吞吐量的变化和端到端延迟的增加。同时，不同的拥塞控制算法也可能对网络效率产生显著影响，这可能需要调整以优化多路径环境中的性能。SACK定时器的设置也至关重要，因为它影响了数据包确认的策略，进而影响到网络的恢复能力和效率。论文指出，尽管SCTP多宿主提供了容错能力，但其性能在面对不同网络条件时可能会有所不同。未来的分析应扩展到更多的CMT-SCTP关联，并对比CMT和CMT-PF在面对潜在目的地失败情况下的表现，以便更全面地理解这些机制如何适应各种网络环境，从而提升网络的可靠性和效率。这篇论文对于理解SCTP在复杂网络环境中的行为及其优化提供了有价值的研究基础，为后续的SCTP性能改进和网络设计提供了理论依据。

Preface

Stream Control Transmission Protocol (SCTP) is a reliable transport

protocol operating on top of an unreliable protocol that is internet protocol (IP). For the

past twenty years the reliable transmission is provided by TCP and unreliable data delivery

is provided by UDP. Many of the features of TCP and UDP can also be found in SCTP.

For this reason SCTP multi-homing feature was designed, in which an SCTP sender can

access destination host with multiple IP addresses in the same session. If the primary path

between the source and the destination is down, the traffic may still be sent to the

destination by utilizing redundant path. This paper aims to determine the impact of

concurrent cross traffic in network, congestion control algorithms and default SACK

timers on the multi-homing feature of SCTP. A pre-study for this Master these report was

performed in the subject “Managing Computer Science Projects (PDD900)” offered by

University West. In this subject a complete time schedule was designed for the

achievement of the goals of this paper. According to that time plan a background study for

SCTP and overview of its multi-homing feature was performed in last session. For this

purpose RFCs for TCP, UDP and SCTP, multiple research papers were under study.

Before selecting this master final theses I was unknown to Linux environment and using

Network Simulator NS2 for network researches so I learned these tools from scratch

during this study, then finally during the time period of master theses different simulation

experiments were performed in Network Simulator NS2 to introduce the effect of assumed

factors on the multi-homing feature of SCTP.

I would like to make a good use of this page to thanks all people that helped

me to complete this final these. First of all in the name of Almighty Allah Who enabled me

to complete this project. Let us start from supervisor Prof. Dr. Stanislav Belenki who was

abundantly helpful and he offered invaluable assistance, support and guidance. I also wish

to express my deep gratitude the member of final master theses subject especially to Prof.

Dr. Stefan Christiernin and Prof. Dr. Linn Gustavsson Christier. A special thanks to

research assistant Nasif Ekniz at P.E.L labs at University of Delaware for his immediate

help regarding SCTP implementations in NS2. Finally special thanks to all my friends and

people who directly and indirectly helped me during this theses study. And at last but not

least, I would like to thank my parents and siblings for everything they have done during

these last 26 years.

Trollhättan, Sweden

September the 01, 2010

Rashid Ali

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