网络路径的性能监测研究
发布时间:2021-01-18 02:31
Network tomography,which indirectly infers various network performance met-rics through a small number of path measurements,is an important research area in the past decade.With 5G around the corner,the future Internet is expected to evolve from"one-size-fits-all" paradigm toward "network-as-a-service" paradigm where a variety of applications,services,and devices can be supported with performance guarantees.The performance guarantee requirement in the future Internet makes it compulsory for netw...
【文章来源】:中国科学技术大学安徽省 211工程院校 985工程院校
【文章页数】:110 页
【学位级别】:博士
【文章目录】:
Abstract
Acknowledgements
Chapter 1 Introduction
1.1 Background and Motivation
1.2 Literature Review
1.3 Research Objectives
1.4 Summary of Contributions
1.5 Organization
Chapter 2 Problem Description and Two Principle Theorems
2.1 Problem Description
2.2 Two Principal Theorems
Chapter 3 Path's Identifiability with Given Monitors
3.1 Graph Extension and Decomposition
3.2 Link's Identifiability in a TC
3.3 Path's Classification and Identifiability
3.3.1 Case 1: V(p) is in one TC
3.3.2 Case 2: V(p) not in a TC
Chapter 4 Optimal Monitor Placement for Interested Paths
4.1 Necessary and Sufficient Condition for Identifying an Unidentifiable Pathin a Graph with at Least Two Monitors
4.2 Monitor Placement for Identifying a Set of Paths in a 2-vertex-connectedGraph with at Least Two Initial Monitors
4.3 Monitor Placement for Identifying a Set of Paths
4.4 Evaluation
Chapter 5 Measurement Path Contruction
5.1 Measurement Path Construction for an Identifiable Link in a 3-vertex-connected Graph with Two Monitors
5.1.1 Measurement Path Construction for a Cross-link
5.1.2 Measurement Path Construction for a Shortcut
5.1.3 Measurement Path Construction for an Identifiable Link
5.2 Measurement Path Construction for an Identifiable Link in a Graph witha Deployment of Monitors
Chapter 6 Conclusions and Future Work
6.1 Conclusions
6.2 Future Work
Bibliography
Appendix A 中文概要
A.1 摘要
A.2 引言
A.3 论文正文概要
A.3.1 研究问题描述及两个基本定理
A.3.2 单条路径可测性判定问题(PIP问题)研究
A.3.3 面向路径集合的最优监测节点放置问题(OMP问题)研究
A.3.4 测量路径构造问题研究
A.4 结论与展望
List of Publications
【参考文献】:
期刊论文
[1]网络链路性能参数估计的层析成像方法综述[J]. 潘胜利,张志勇,费高雷,钱峰,胡光岷. 软件学报. 2015(09)
[2]网络层析成像研究综述[J]. 钱峰,胡光岷. 计算机科学. 2006(09)
本文编号:2984091
【文章来源】:中国科学技术大学安徽省 211工程院校 985工程院校
【文章页数】:110 页
【学位级别】:博士
【文章目录】:
Abstract
Acknowledgements
Chapter 1 Introduction
1.1 Background and Motivation
1.2 Literature Review
1.3 Research Objectives
1.4 Summary of Contributions
1.5 Organization
Chapter 2 Problem Description and Two Principle Theorems
2.1 Problem Description
2.2 Two Principal Theorems
Chapter 3 Path's Identifiability with Given Monitors
3.1 Graph Extension and Decomposition
3.2 Link's Identifiability in a TC
3.3 Path's Classification and Identifiability
3.3.1 Case 1: V(p) is in one TC
3.3.2 Case 2: V(p) not in a TC
Chapter 4 Optimal Monitor Placement for Interested Paths
4.1 Necessary and Sufficient Condition for Identifying an Unidentifiable Pathin a Graph with at Least Two Monitors
4.2 Monitor Placement for Identifying a Set of Paths in a 2-vertex-connectedGraph with at Least Two Initial Monitors
4.3 Monitor Placement for Identifying a Set of Paths
4.4 Evaluation
Chapter 5 Measurement Path Contruction
5.1 Measurement Path Construction for an Identifiable Link in a 3-vertex-connected Graph with Two Monitors
5.1.1 Measurement Path Construction for a Cross-link
5.1.2 Measurement Path Construction for a Shortcut
5.1.3 Measurement Path Construction for an Identifiable Link
5.2 Measurement Path Construction for an Identifiable Link in a Graph witha Deployment of Monitors
Chapter 6 Conclusions and Future Work
6.1 Conclusions
6.2 Future Work
Bibliography
Appendix A 中文概要
A.1 摘要
A.2 引言
A.3 论文正文概要
A.3.1 研究问题描述及两个基本定理
A.3.2 单条路径可测性判定问题(PIP问题)研究
A.3.3 面向路径集合的最优监测节点放置问题(OMP问题)研究
A.3.4 测量路径构造问题研究
A.4 结论与展望
List of Publications
【参考文献】:
期刊论文
[1]网络链路性能参数估计的层析成像方法综述[J]. 潘胜利,张志勇,费高雷,钱峰,胡光岷. 软件学报. 2015(09)
[2]网络层析成像研究综述[J]. 钱峰,胡光岷. 计算机科学. 2006(09)
本文编号:2984091
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