臺灣博碩士論文加值系統

下一代行動網路是一種提供行動通訊與無線多媒體通訊的新網路技術，像是行動即時語音、行動多媒體影像傳輸、行動高速檔案傳輸服務等都在下一代行動網路的範疇內。而在下一代網路中逐漸崛起的任一傳輸技術也日漸成熟，逐漸的變成主流的網路技術，在很多平衡負載的技術都漸漸使用任一傳輸技術，為了讓下一代行動網路能夠獲得任一傳輸技術的優點，我們整合了下一代行動網路與應用層、網路層的任一傳輸技術來讓下一代行動網路具備任一傳輸的優勢。經由整合機制研究所提出的分散式本地代理伺服器搜尋機制，能夠讓行動節點能夠搜尋到離本身最近的本地代理伺服器，同時也能讓與行動節點通訊的通訊節點搜尋到最適宜的本地代理伺服器來傳輸。此外我們也透過網路模擬軟體來模擬我們提出的協定，來驗證其協定確實優於其他行動網路機制，並能讓下一代行動網路能獲得任一傳輸包括高穩定性傳輸、低延遲、與達成較短的路由距離並讓下一代行動網路能夠縮短換手時間。

Mobile IPv6 is a new technology to support mobile communication and provide on-ramp network services such as real-time voice, multi-media, file transfer service, etc. in wireless network for keeping connect continually. The anycast network protocol is an important technique to support distributed service and recovery. Taking anycast network excellences, we integrate network-layer and application-layer anycast with mobile IPv6 forming anycast mobile IPv6 framework to offer two kind of distributed home agents discovery protocols in order to letting MN and CN to find the best appropriate HA to forward datagram streaming. With our simulation, we prove that mobile IPv6 possess of the most advantages of anycast including service reliability, less latency and shorter route path so that mobile IPv6 network could forward datagram streaming in flawless.

Abstract p1
Chapter 1. Introductionp1
1.1 mobile IPv6p1
1.2 anycast p1
Chapter 2. Relate technologyp2
2.1 Mobile IPv6p2
2.1.1 Mobile IPv6 Termsp2
2.1.2 Basic Operationp3
2.1.3 Hand off procedurep5
2.2 Anycast addressp6
2.3 Detail operating of border router in GAIp9
2.3.1 Introduce Global IP Anycastp92.3.2 Design Detailsp9
2.4Other related paper researchesp16
2.4.1 IP anyast Point-to- (Any) Point Communicationp16
2.4.2 Active Anycast Method for Server Load Balancingp17
2.4.3 Integrated Global IPv6 Unicast and Anycast Address
Lookup with Network Processor p17
2.4.4 An analysis of IPv6 anycast draft-ietf-ipngwg-ipv6
-anycast-analysis-02p17
2.4.5 Dynamic Home Agent Address Discoveryp18
2.4.6 A hybrid load balance mechanism for distributed
home agents in mobile IPv6p19
2.4.7 Application-layer anycasting: a server selection
architecture and sue in a replicated web servicep20
2.4.8 Dynamic home agent reassignment in mobile IPp22
Chapter 3. Analysis mobile IPv6 and Anycastp24
3.1 analysis mobie IPv6 and home agent’s localtionp24
3.2 Anycast mobile IPv6 network architecturep25
Chapter 4. Global IP Anycast mobile IPv6 framework and
network-layer Distributed Home Agents Discoveryp28
4.1. Global IP anycast mobile IPv6 framework introduce p28
4.2 Network-layer distributed home agent discovery p30
4.3 the solution of anycast lilmit p33
Chapter 5. Application-layer Distributed Home Agents Discoveryp35
5.1 application-layer DHAD p35
5.2 comparison of application-layer DHAD, network-layer DHAD
and DHAAD p39
Chapter 6. Simulationp42
6.1 Scenario 1 — Network-layer DHAD in Mobile IPv6p42
6.2 Scenario 1 — Application-layer DHAD in mobile IPv6p49
Chapter 7. Conclusionp58
Reference

[1] D. Johnson, C. Perkins, J. Arkko, Mobility Support in IPv6 draft-ietf-mobileip-ipv6-24.
[2] Han-Chieh Chao, Ching-Yang Huang, Micro-mobility mechanism for smooth handoffs in an integrated ad-hoc and cellular IPv6 network under high-speed movement, Vehicular Technology, IEEE Transactions on, Volume: 52, Issue: 6, Nov. 2003 Pages:1576 — 1593
[3] Hinden, R. and S. Deering, "IP Version 6 Addressing Architecture", RFC 2373, July 1998.
[4] Johnson, D. and S. Deering, "Reserved IPv6 Subnet Anycast Addresses", RFC 2526, March 1999.
[5] Dina Katabi and John Wroclawski , " A Framework for Scalable Global IP-Anycast (GIA).", SIGCOMM 2000.
[6] Dina Katabi, John Wroclawski, A Framework for Global IP-Anycast (GIA), draft-katabi-global-anycast-00.txt, June, 1999
[7] W. Fenner, "Internet Group Management Protocol, Version 2," RFC 2461 (1997).
[8] T. Narten, E. Nordmark, and W. Simpson, "Neighbor Discovery for IP Version 6 (IPv6)," RFC 2461 (1998).
[9] C. Partridge, T. Mendez, and W. Milliken, "Host Anycasting Service," RFC1546, Nov. 1993.
[10] 21. Y. Rekhter and T. Li, "A Border Gateway Protocol 4 (BGP-4)," RFC 1771, March 1995.
[11] 10. S. V. Fuller, T. Li, J. Yu, and K. Varadhan "Classless Inter-Domain Routing (CIDR): an Address Assignment and Aggregation," RFC1519, Sep. 1993.
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[13] Active anycast method for server load balancing, Hashim, H and Manan, A., Research and Development, 2002. SCOReD 2002. Student Conference on , 16-17 July 2002 Pages:105 - 108
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[15] Jun-ichiro itojun Hagino, K. Ettikan, “An analysis of IPv6 anycast draft-ietf-ipngwg-ipv6-anycast-analysis-02”, IETF INTERNET-DRAFT.
[16] Hui Deng, Xiaolong Huang, Kai Zhang, “A hybrid load balance mechanism for distributed home agents in mobile IPv6, ” Proceedings of PIMRC 2003.
[17] Ellen W. Zegura, Mostafa H. Ammar, Zongming Fei, and Samrat Bhattacharjee, " Application-Layer Anycasting: A Server Selection Architecture and Use in a Replicated Web Service", IEEE/ACM TRANSACTIONS ON NETWORKING, VOL. 8, NO. 4, AUGUST 2000
[18] Y. Chen and T. Boult, Dynamic Home Agent Reassignment in Mobile IP, IEEE Wireless Communications and Networking Conference 2002.
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Pages:479 — 484.
[20] Hesham Soliman, Claude Castelluccia, Karim El-Malki and Ludovic Bellier, “Hierarchical Mobile IPv6 mobility management (HMIPv6) .