博碩士論文 92533002 詳細資訊




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姓名 劉俊君(Chun-Chun Liu)  查詢紙本館藏   畢業系所 通訊工程學系在職專班
論文名稱 以SIP為信令系統的異質性無線網路傳輸服務品質之研究
(A Study Of Qos in SIP Baesd System in Heterogeneous Wireless Network)
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摘要(中) 現今的MIP與HMIP在Handoff完成後才重新送出連線的請求,會花費不少時間,對於Time sensitive的訊務來說是一個相當不利的因素。在深入研究過SIP這一個新興的通訊協定之後,對於進行中的session,SIP提供了同一個session的封包送達至新的位址,以達成在應用層上的無縫接取服務。利用SIP可以將session重導的能力,將之導入無線網路的通訊裡,讓重新連線在handoff的過程裡同時發生,進而大幅縮短session因handoff的程序而中斷的時間。
本論文將在使用SIP信令系統於異質性無線網路架構中,分析不同的伺服器配置方式對SIP信令的傳遞會造成何種影響。進而找出能夠使信令傳遞延遲時間最小的架構,應用在異質性無線網路中,達成快速建立連線並減少衝擊以維持會談服務品質的目的。
摘要(英) In current application, the request of MIP (Mobile IP) and HMIP (Hierarchical Mobile IP) only be sent after handoff will take lots of time, and it is a quite unfavorable factor to time sensitive frame. Investigating this new communication protocol for SIP proves that while a session sending and SIP will offer a package of the same session to the new address to seamless serve in time in the application layer. Applying the ability of SIP (resending the session) to wireless communication network will lessen the connecting time which causes re-connecting when handoff happened.
In this research, we will estimate the performance of SIP in different server and the influence on session passing while setting changed. Our efforts are to find the best solution of minimun delay time and reduce the impact on establishing multimedia session to achieve the required QoS (Quality of Service).
關鍵字(中) ★ SIP
★ MIP
★ HMIP
關鍵字(英) ★ SIP
★ HMIP
★ MIP
論文目次 第一章 序論 1
1.1 前言 1
1.1.1 Session Initiation Protocol 2
1.1.2 Mobile IPv6 3
1.1.3 Hierarchical Mobile IPv6 5
1.2 研究動機 6
1.3 論文架構 7
第二章 文獻探討 8
2.1 Session Initiation Protocol 8
2.1.1 SIP運作簡介 8
2.1.2 SIP邏輯元件 9
2.1.3 SIP移動性管理 10
2.1.4 建立SIP連線 11
2.2 Mobile IPv6 14
2.2.1 運作原理 14
2.2.2 新增項目 15
2.2.3 註冊與更新 15
2.2.4 Mobile IPv6所延伸的問題 16
2.3 Hierarchical Mobile IPv6 18
2.3.1 基本運作 19
2.3.2 局部管理 21
第三章 網路架構對移動性影響之分析 22
3.1 SIP網路架構對移動性影響之分析 22
3.1.1 SIP Proxy與Registrar位於同一層 23
3.1.2 SIP Proxy與Registrar位於不同層 40
3.2 Mobile IPv6網路架構對移動性影響之分析 51
3.2.1 MIPv6 Scenario Level 3:Home Agent位於第三層路由器節點 52
3.2.2 MIPv6 Scenario Level 2:Home Agent位於第二層路由器節點 57
3.2.3 MIPv6 Scenario Level 1:Home Agent位於第一層路由器節點 62
3.3 Hierarchical Mobile IPv6網路架構對移動性影響之分析 68
3.3.1 HMIPv6 Scenario Level_23:MAP與Home Agent 分別位於二、三層節點 70
3.3.2 HMIPv6 Scenario Level_13:MAP與Home Agent 分別位於一、三層節點 75
第四章 數據分析 81
4.1 Session Initiation Protocol Delay分析 83
4.2 Mobile IPv6 Delay分析 85
4.3 Hierarchical Mobile IPv6 Delay分析 88
4.4 SIP應用於MIPv6與MIPv6 的Handoff之情節比較 91
4.5 SIP應用於HMIPv6與HMIPv6的Handoff情節比較 94
第五章 結論 97
參考文獻 99
參考文獻 [01]. 3GPP, Technical Specification Group Services and System Aspects ; General Packet Radio Service (GPRS); Service description; Stage 1(Release 5),3GPP TS 22.060 version 5.0.0), Oct. 2001
[02]. 3GPP, Technical Specification Group Services and System Aspects ; General Packet Radio Service (GPRS); Service description; Stage 2 (Release 5) ,3GPP TS 22.060 version 5.0.0, Jan. 2002
[03]. 3GPP home page: http://www.3GPP.org
[04]. IEEE Std. 802.11-1999, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications, Reference number ISO/IEC 8802-11:1999(E), IEEE Std. 802.11, 1999 edition, 1999.
[05]. IEEE Std. 802.11a, Supplement to Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Higher-speed Physical Layer in the 5GHz band, IEEE Std.802.11a-1999, 1999.
[06]. IEEE Std. 802.11b, Supplement to Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Higher-speed Physical Layer Extension in the 2.4GHz band, IEEE Std.802.11b-1999, 1999.
[07]. H.-W. Lin, J.-C. Chen, M.-C. Jiang, and C.-Y. Huang, "Integration of GPRS and Wireless LANs with Multimedia Applications," Lecture Notes in Computer Science, Springer, pp.117-121, December 2002.
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[09]. Ala-Laurila, J.; Mikkonen, J.; Rinnemaa, J. ” Wireless LAN access network architecture for mobile operators , IEEE Communications Magazine, Volume 39, Issue 11, pp.82 –89, Nov. 2001.
[10] J. Rosenberg, et al., "SIP: Session Initiation Protocol," RFC 3261, June 2002
[11] TS-24.228, " Signalling flows for the IP multimedia call control based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP),Stage 3," 5.10.0, 3GPP Rel. 5
[12] TS-24.229, " Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP),Stage 3," 6.4.0, 3GPP Rel. 6
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[14] C. Perkins, ed., “IP mobility support,” RFC 2002, October 1996.
[15] R. Caceres and V. N. Padmanabhan, “Fast and scalable wireless handoffs in support of mobile Internet audio,” Mobile Networks and Applications, Vol. 3, No. 4, pp. 351-363, Dec. 1998.
[16] D. B. Johnson and C. Perkins, “Route optimization in Mobile IP,”Internet Draft, Internet Engineering Task Force, February 1996.
[17] M. Handley and V. Jacobson, “SDP: Session Description Protocol,” RFC 2327, 1998
[18] H. Sinnreich and A. B. Johnston, "Internet Communications Using SIP," Wiley, 2001
[19] T.T. Kwon, M. Gerla and S. Das, "Mobility management for VoIP service: Mobile IP vs. SIP," IEEE Wireless Communications, Vol.9, Issue 5, pp. 66-75, October 2002
[20] H. Schulzrinne and E. Wedlund, "Application-layer mobility using SIP," IEEE Service Portability and Virtual Customer Environments, pp. 29-36, December 2000
[21] D. Johnson, C. Perkins and J. Arkko, “Mobility Support in IPv6 ,
”Internet Draft, Internet Engineering Task Force, February 2003.
[22] S.Yasukawa, J. Nishikido and K. Hisashi, “Scalable Mobility and QoS Support Mechanism for IPv6-based Real-time Wireless Internet Traffic,” Global Telecommunications Conference, 2001. GLOBCOM ’01. IEEE, Vol. 6, pp. 3459-3462.
[23] H. Soliman et al., “Hierarchical Mobile IP mobility management,
”Internet Draft, Internet Engineering Task Force, October 2002.
[24] Dave Wisely,Philip Eardley and Louise Burness,”IP for 3G”,Wiely,2002
[25] Sudhir Dixit and Ramjee Prasad,”Wireless IP and Building the Mobile Internet”,Artech House
指導教授 吳中實(Jung-Shyr Wu) 審核日期 2006-7-18
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