![]() |
|
以作者查詢圖書館館藏 、以作者查詢臺灣博碩士 、以作者查詢全國書目 、勘誤回報 、線上人數:41 、訪客IP:18.97.14.83
姓名 呂德培(Te-pei Lu) 查詢紙本館藏 畢業系所 通訊工程學系 論文名稱 多路徑傳輸控制協定下從無線區域網路到行動網路之無縫換手
(Seamless WLAN to Mobile Handover with MPTCP)相關論文 檔案 [Endnote RIS 格式]
[Bibtex 格式]
[相關文章]
[文章引用]
[完整記錄]
[館藏目錄]
[檢視]
[下載]
- 本電子論文使用權限為同意立即開放。
- 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
- 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。
摘要(中) 在現今生活中,行動終端使用者可以在有著多種不同無線網路技術之異質網路環境中移動與行動且使用有著多網路介面之裝置來存取各式網路服務。
而最重要的一件事情是在移動過程中可以達到無縫切換。
多路徑傳輸控制協定 (MPTCP) 是傳輸控制協定 (TCP) 的延伸版本,准許同時使用多種網路介面與多條路徑來傳遞原傳輸控制協定中單一連線之資料封包。
多路徑傳輸控制協定中完全多路徑傳輸操作模式 (Full-mode) 能夠支援移動性與換手切換,
然而多路徑傳輸控制協定在兩不匹配網路環境參數之傳輸路徑上有著吞吐量效益低落表現的問題。
為了增進效能表現,我們須透過決策方法來決定一時間點上切換多路徑傳輸控制協定操作模式。
本論文中,我們使用一換手切換方法來切換多路徑傳輸控制協定工作模式,增進多路徑傳輸控制協換手性能,並將方法實作在現實無線區域網到行動網路的環境中。摘要(英) In today, the mobile users can use a device with multiple interfaces to access services and walk in the heterogeneous networks environment.
One important thing is seamless handover. Multipath TCP (MPTCP) is a major extension to TCP and can send data with two paths.
The full-mode of MPTCP working operations can support seamless handover. MPTCP has low performance efficiency with two asymmetric paths parameters.
For improve performance, we use a handover decision method to start up MPTCP.
We implement experiments in real-world WLAN to mobile scenario.關鍵字(中) ★ 無線區域網路
★ 行動網路
★ 換手
★ 多路徑傳輸控制協定關鍵字(英) ★ WLAN
★ Mobile
★ Handover
★ MPTCP論文目次 中文摘要.....................................i
英文摘要.....................................ii
謝誌........................................iii
目錄........................................iv
圖目錄.......................................vi
表目錄.......................................viii
一、序論.....................................1
1.1前言......................................1
1.2研究動機...................................2
1.3論文架構...................................2
二、多路徑傳輸協定與換手相關研究背景...............3
2.1換手種類...................................3
2.2換手機制...................................5
2.3多路徑傳輸控制協定紨絍結絔絃結紩................7
2.3.1協定架構..................................8
2.3.2協定特性..................................8
2.3.3連線的建立................................10
2.3.4切換模式..................................12
2.3.5吞吐量效益................................13
2.3.6功率效益..................................14
三、改進多路徑傳輸控制協定下無縫換手之設計與實現......16
3.1情境架構....................................16
3.2演算法......................................17
3.2.1決策模型..................................17
3.2.2流程.....................................18
3.2.3ALIVE-HO 演算法...........................19
3.3參數設定....................................20
四、實作與量測結果...............................22
4.1實作環境....................................22
4.1.1建構多路徑傳輸控制協定與超文字傳輸協定伺服平台...23
4.1.2平台驗證..................................24
4.2實現方法....................................26
4.3量測流程....................................27
4.4量測結果與效能分析............................28
五、結論.......................................33
索引..........................................34
參考文獻.......................................34參考文獻 [1] van der Pol, Ronald, et al. "Multipathing with MPTCP and OpenFlow." High Performance Computing, Networking, Storage and Analysis (SCC), 2012 SC Companion:. IEEE, 2012.
[2] Olivier Bonaventure. "Decoupling TCP from IP with Multipath TCP" http://multipath-tcp.org/data/MultipathTCP-netsys.pptx
[3] Paasch, Christoph, et al. "Exploring mobile/WiFi handover with multipath TCP." Proceedings of the 2012 ACM SIGCOMM workshop on Cellular networks: operations, challenges, and future design. ACM, 2012.
[4] Hu, Chih-Lin, and Kuo-Fu Huang. "A Lightweight Software Design for Seamless Home Multimedia Services." Appl. Math 8.1L (2014): 165-173.
[5] Kim, Han Ah, Bong-hwan Oh, and Jaiyong Lee. "Improvement of MPTCP Performance in heterogeneous network using packet scheduling mechanism." Communications (APCC), 2012 18th Asia-Pacific Conference on. IEEE, 2012.
[6] Ahmed, Atiq, L. Boulahia, and Dominique Gaïti. "Enabling vertical handover decisions in heterogeneous wireless networks: A state-of-the-art and a classification." (2014): 1-36.
[7] Márquez-Barja, Johann, et al. "An overview of vertical handover techniques: Algorithms, protocols and tools." Computer Communications 34.8 (2011): 985-997.
[8] Yan, Xiaohuan, Y. Ahmet Şekercioğlu, and Sathya Narayanan. "A survey of vertical handover decision algorithms in Fourth Generation heterogeneous wireless networks." Computer Networks 54.11 (2010): 1848-1863.
[9] Ford, Alan, et al. "TCP extensions for multipath operation with multiple addresses." IETF MPTCP proposal-http://tools. ietf. org/id/draft-ford-mptcp-multiaddressed-03. txt (2011).
[10] Bonaventure, Olivier, Mark Handley, and Costin Raiciu. "An overview of Multipath TCP." ; login: 37.5 (2012): 17-23.
[11] Zahran, Ahmed H., Ben Liang, and Aladdin Saleh. "Signal threshold adaptation for vertical handoff in heterogeneous wireless networks." Mobile Networks and Applications 11.4 (2006): 625-640.
[12] "Network bandwidth requirements for media traffic in Lync Server" http://www.multipath-tcp.org/
[13] "MultiPath TCP - Linux Kernel implementation" http://www.multipath-tcp.org/指導教授 黃志煒(Chih-wei Huang) 審核日期 2014-8-28 推文 plurk
funp
live
udn
HD
myshare
netvibes
friend
youpush
delicious
baidu
網路書籤 Google bookmarks
del.icio.us
hemidemi
myshare