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碩士 ; 由於手持移動裝置的發達，使用者常使用多媒體影音軟體播放影片，而隨著移動會有影片中斷或停頓的現象，這種現象是由於從舊的網路服務換手到新的網路服務造成的。IEEE 為了解決換手的問題，制定了802.21 來實現無縫換手，透過Media Independent Handover(MIH)支援不同的無線網路技術之間的換手，但仍然會有中斷的問題，這是因為換手時間過長，導致串流緩衝區耗盡。本研究提出使用Received Signal Strength Indication(RSSI)動態調整串流緩衝區存量，減少換手時間帶來的影響，也利用RSSI 來決定換手時機的機制，以確保有足夠的串流網路頻寬，避免過晚的換手，進而達成無縫換手的方法。 ; As the handheld mobile devices developed, users often use multimedia software to play streaming video. While device moving, Streaming video will interrupt or pause,which is caused due to the handover from the old to the new network services network services. In order to solve the problem of handover, IEEE releases standard 802.21 Media Independent Handover (MIH). IEEE 802.21 supports seamless handover between different wireless networks. But Streaming video will still be interrupted, and this is because of handover time is too long, resulting stream buffer run out. This study proposes using Received Signal Strength Indication (RSSI) to dynamically adjusts the stream buffer size, reduce the impact of handover time, also using RSSI to determine timing of handover, make sure there is enough network bandwidth streaming, avoid too late handover, To achieve the goal of a seamless handover. ; 中文摘要 I 英文摘要 II 內文目錄 III 圖表目錄 VI 目錄第一章緒論 1 1.1 前言 1 1.2 研究動機與目的 1 1.3 論文章節架構 2 第二章背景知識與相關研究 3 2.1 換手的介紹 3 2.1.1 換手的分類 4 2.1.2 換手的網路相關技術 7 2.2 IEEE802.21 MIH 8 2.2.1 MIH Function Layer 8 2.2.2 MIH Services 10 2.2.3 MIH換手流程 15 2.3 串流緩衝區控制機制 15 2.3.1 串流緩衝區 15 2.3.2 漸進式調整畫面更新率機制 17 2.3.3 曲線式調整畫面更新率機制 18 2.4 RSSI的介紹 19 2.4.1 RSSI的 Rx Sensitivity 對照 20 2.4.2 WiFi 跟Rx Sensitivity的關係 23 第三章控制機制的研究 25 3.1 系統問題的說明 25 3.2 解決方法及控制機制的研究 25 3.2.1 RSSI動態調整串流緩衝區控制機制 25 3.2.2 RSSI決定換手的時機的機制 27 3.3 案例說明 30 3.3.1 案例1 30 3.3.2 案例2 32 3.3.3 案例3 34 3.4 小結 35 第四章模擬與研究分析 37 4.1 實驗環境 37 4.2 模擬實驗 38 4.2.1 實驗1 38 4.2.2 實驗2 40 4.2.3 實驗3 42 4.3 數據分析 43 第五章結論與未來展望 46 參考文獻 47 圖目錄圖2.1 換手示意圖 3 圖2.2 水平換手 4 圖2.3 垂直換手 5 圖2.4 硬式換手 6 圖2.5 軟式換手 7 圖2.6 MIH Architecture [2] 9 圖2.7 SSL元件架構圖[2] 16 圖2.8 換手串流緩衝區的示意圖[3] 17 圖2.9 漸進式調整畫面更新率機制[3] 18 ...

Titel:	基於IEEE802.21 MIH之基地台RSSI訊號改良串流緩衝區控制機制之研究 ; The research of improving streaming buffer control mechanism by base station RSSI based on IEEE802.21 MIH
Autor/in / Beteiligte Person:	蘇維鈞 ; Su, Wei-Chun ; 淡江大學電機工程學系碩士在職專班 ; 李維聰
Link:	http://www.ieee802.org/21/ [2] Yu-Chin Wang, et al. "Seamless Handover with Buffer Prediction for Wireless Networks Based on IEEE 802.21". Information Networking, 2008. ICOIN 2008. International Conference on. 2008. 1-5. [3] 林弘偉."基於IEEE 802.21之動態調整群播影像的畫面更新率以達成無縫式換手之研究". 淡江大學電機工程學系碩士班學位論文,(2010 年) [4] 吳振宇, 基於MIH換手架構改良式串流畫面更新率控制機制之研究, 淡江大學電機工程學系碩士在職專班碩士論文,(2013年) [5] Joe Bardwell, VP of Professional Services, “Converting Signal Strength Percentage to dBm Values”. Nov. 2002. [6] Sheau-Ru Tong, Sheng-Hsiung Yang, “Buffer Control to Support a Seamless Stream Handoff in a WLAN that Employs Simulcast Streaming”, IEEE Transactions on Wireless Communications, Jan. 2008. [7] Moon Kim, Tae-wook Moon, Sung-joon Cho, “A study on IEEE 802.21 MIH frameworks in heterogeneous wireless networks”, International Conference on Advanced Communication Technology, 15-18 Feb. 2009, pp. 242-246 [8] ---. "Proactive Hot-Zone Flow Control for Seamless Stream Handoff Under Mobile Multicast Networks". Multimedia and Expo, 2005. ICME 2005. IEEE International Conference on. 2005. 4 pp. [9] Tauil, M., et al. "Realization of IEEE 802.21 Services and Preauthentication Framework". Testbeds and Research Infrastructures for the Development of Networks & Communities and Workshops, 2009. TridentCom 2009. 5th International Conference on. 2009. 1-10. [10] Tawil, R., G. Pujolle, and J. Demerjian. "Distributed Handoff Decision Scheme using MIH Function for the Fourth Generation Wireless Networks". Information and Communication Technologies: From Theory to Applications, 2008. ICTTA 2008. 3rd International Conference on. 2008. 1-6. [11] Wei Zhao, et al. "Optimal bandwidth/delay Tradeoff for Feasible-Region-Based Scalable Multimedia Scheduling". INFOCOM ''98. Seventeenth Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE. 1998. 1131-1138 vol.3. [12] Wei Zhao, M. Willebeek-LeMair, and P. Tiwari. "Efficient Adaptive Media Scaling and Streaming of Layered Multimedia in Heterogeneous Environment". Multimedia Computing and Systems, 1999. IEEE International Conference on. 1999. 377-381 vol.2. [13] Ciubotaru, B., and G. Muntean. "Smooth Adaptive Soft Handover Algorithm for Multimedia Streaming Over Wireless Networks". Wireless Communications and Networking Conference, 2009. WCNC 2009. IEEE. 2009. 1-6. [14] De La Oliva, A., et al. "An Overview of IEEE 802.21: Media-Independent Handover Services." Wireless Communications, IEEE 15.4 (2008): 96-103. [15] Hsiao-Chiang Chuang, ChingYao Huang, and Tihao Chiang. "On the Buffer Dynamics of Scalable Video Streaming Over Wireless Network". Vehicular Technology Conference, 2004. VTC2004-Fall. 2004 IEEE 60th. 2004. 2582-2586 Vol. 4. http://tkuir.lib.tku.edu.tw:8080/dspace/handle/987654321/102665 http://tkuir.lib.tku.edu.tw:8080/dspace/bitstream/987654321/102665/-1/index.html
Quelle:	[1] IEEE 802.21, U0002-1008201417231600;; (2014)
Veröffentlichung:	2014
Medientyp:	unknown
Schlagwort:	IEEE802.21 無縫換手 RSSI 串流視訊 Seamless handover Vedio Streaming
Sonstiges:	Nachgewiesen in: BASE Sprachen: Chinese Collection: Tamkang University Institutional Repository (TKUIR) / 淡江大學機構典藏 Document Type: other/unknown material Language: Chinese

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基於IEEE802.21 MIH之基地台RSSI訊號改良串流緩衝區控制機制之研究 ; The research of improving streaming buffer control mechanism by base station RSSI based on IEEE802.21 MIH