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研究生:邱研倫
研究生(外文):Yen-Lun Chiu
論文名稱:以IP多媒體子系統為基礎之多媒體內容分享方法
論文名稱(外文):A Multimedia Sharing Scheme on IP Multimedia Subsystem
指導教授:李建緯李建緯引用關係
指導教授(外文):Jian-Wei Li
口試委員:張怡君彭俊澄
口試委員(外文):Yi-Chun ChangChun-Cheng Peng
口試日期:2014-07-28
學位類別:碩士
校院名稱:朝陽科技大學
系所名稱:資訊與通訊系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2014
畢業學年度:103
語文別:中文
論文頁數:47
中文關鍵詞:IMSSIP
外文關鍵詞:IMSSIP
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對於現今無所不在的網路環境中,人們可以透過行動網路及自身設備於任何時間、地點連取網路使用服務,所以近幾年下來行動設備及多媒體串流的應用十分流行。雖然有如此便利性,但有時會礙於環境及設備之關係,而有不便之問題。例如使用者於戶外,使用行動網路及自身行動設備觀看影像串流,若欲分享給周遭好友們觀看時,可以礙於螢幕尺寸的限制,而當是亦無合適的設備,所以使得觀看不方便,甚至無法多人同時觀看。
本論文針對這樣的情境,設計出多媒體內容分享方法(multimedia content sharing method),使用者可透過分享的方式,讓被分享者透過自身的行動設備也可以獲得和自身一樣的影像串流。本文將此服務建立於IP多媒體子系統(IP Multimedia Subsystem, IMS)網路之上,希望使用者可以透過不同的接取網路都能夠應用此服務,本研究透過IMS相關之Open Source來開發本系統機制,及設計出相應的多媒體串流來源,以便搭建於IMS網路之上。

The services of the network environment which is omnipresent currently and accessible to users via the mobile Internet and personal devices anytime and anywhere will popularize applications of mobile devices together with multimedia streaming in the foreseeable future. Despite convenience, the mobile Internet is not available to a user sometimes because of the network environment and associated devices. For example, video screaming subject to the screen size or equipment inappropriate is not always shared to more friends conveniently by a device user outdoors through the mobile Internet and the personal devices.
In this thesis, we designed a multimedia content sharing method by which a user’s own video screaming can be shared to other people via their mobile devices.The shared service constructed on the network of IP Multimedia Subsystem (IMS) is accessible to users via different access networks. Moreover, we depend on IMS-based open sources to develop a mechanism for the system, designing more sources with respect to multimedia streaming on the IMS network.

主目錄
摘要 I
Abstract II
誌謝 III 誌謝
目錄 IV
表目錄 VI
圖目錄 VII
第一章 前言 1
1.1 研究背景與動機 1
1.2 研究目的 3
1.3 論文架構 5
第二章 文獻探討 6
2.1 IP多媒體子系統(IMS) 6
2.2 Session Initiation Protocol(SIP)介紹 8
2.3 視頻共享(Video Sharing)11
第三章 IMS網路之多媒體內容分享機制 13
3.1 系統應用環境 13
3.2 系統架構 15
3.3 多媒體串流分享之標頭設計 16
3.4 多媒體串流分享之訊號流程設計 21
3.4.1 來源端為網路攝影機時 22
3.4.2 來源端為多媒體串流伺服器時 26
第四章 系統實驗與設計 30
4.1 系統實驗環境 30
4.2 系統平台 31
4.3 系統應用伺服器內部原件之設計 33
4.4 系統應用伺服器設置 35
第五章 系統實驗效能分析 38
第六章 結論 44
6.1 結論 44
6.2 未來工作 44
參考文獻 45

表目錄
表2-1 SIP methods 9
表4-1 系統實作相關資訊 32
表5-1 多媒體分享時間參數定義 41
表5-2 系統實驗參數所花費時間 42

圖目錄
圖1-1 NGN系統架構圖 2
圖2-1 IMS網路簡易架構圖 6
圖2-2 Video Sharing的傳輸方式 11
圖3-1 多媒體內容分享示意圖 14
圖3-2 系統架構圖 15
圖3-3 3PCC流程示意圖 18
圖3-4 原始REFR訊號流程圖 19
圖3-5 分享者獲得網路攝影機串流後之訊號流程設計 23
圖3-6 分享者獲得網路攝影機串流前之訊號流程設計 25
圖3-7 分享者多媒體串流伺服器之串流後的分享之訊號流程 27
圖3-8 分享者多媒體串流伺服器之串流前的分享之訊號流程 29
圖4-1 系統實驗環境圖 30
圖4-2 使用IMSDroid所開發之使用者端介面 31
圖4-3 基於IMS網路之多媒體串流伺服器之內部元件圖 34
圖4-4 基於IMS網路之攝影機管理伺服器之內部元件圖 35
圖4-5 IMS AS伺服器端相關設定頁面 36
圖4-6 IMS AS伺服器端接收到相關SIP訊息 36
圖5-1 分享者Alice分享攝影機訊息之介面 38
圖5-2 接收者Bob收到Alice之分享訊息 39
圖5-3 接收者Bob開始Alice所分享之攝影機串流 39
圖5-4 分享者Alice接收到Bob之確認訊息 40
圖5-5 系統實驗示意圖 40


[1]H. Khlifi, J.C. Gregoire,“IMS Application Servers Roles, Requirements and Implementation Technologies,”IEEE Internet Computing, vol.12, no.3, pp.40-51, May-June 2008.
[2]3GPP TS 23.228 Technical Specification Group Services and System Aspects; IP Multimedia Subsystem (IMS); Stage 2(Release 6). 3rd Generation Partnership Project.
[3]Y. He, J. Veerkamp, A. Bilgic, “Analyzing the Internal Processing of IMS-based and traditional VoIP systems,” Telecommunications: The Infrastructure for the 21st Century (WTC), pp.1-6, September 2010.
[4]M. Cao, M. Alvarez-Campana, R.P. Leal, J. Navarro and E. Polo,“An IMS-Based Testbed for Fleet Management Services, Fourth International Conference on (NGMAST), pp.67-72, 27-29 July 2010.
[5]IP Multimedia Subsystem (IMS) Handbook. Syed A. Ahson, Mohammad Ilyas: CRC Press
[6]Converging NGN Wireline and Mobile 3G Networks with IMS: Converging NGN and 3G Mobile. Rebecca Copeland: CRC Press
[7]Nikolaos Psimogiannos, Aggeliki Sgora and Dimitrios D. Vergados, “An IMS-based network architecture for WiMAX-UMTS and WiMAX-WLAN interworking,” Computer Communications, vol. 34, issue 9,pp. 1077-1099, 15 June 2011.
[8]A. Munir, A. Gordon-Ross, “SIP-Based IMS Signaling Analysis for WiMax-3G Interworking Architectures,” IEEE Transactions on Mobile Computing, vol. 9, no. 5, May 2010.
[9]M. Toyama, H. Kataoka, Y. Sueda, O. Mizuno and K. Takahashi, “Implementation of session-based web linkage system on IMS,” 200913th International Conference on Intelligence in Next Generation Networks,pp.1-5, 26-29, October 2009.
[10]J. Lin, W. Lei and Y. Liu, “The Design of IMS based Video Surveillance System,”2009 Ninth International Conference on Hybrid Intelligent Systems, vol.2, pp.283-288, 12-14, August 2009.
[11]T.H. Truong, N.T. Hung and N.H. Thanh, “Service provisioning with Quality-of-Experience support in IMS-based IPTV,” Ubiquitous and Future Networks (ICUFN), pp.346-351, July 2012.
[12]J. Rosenberg et al., “Sip: Session Initiation Protocol,” RFC 3261, IETF, June 2002.
[13]J. Rosenberg, H. Schulzrinne,“Reliability of Provisional Responses in the Session Initiation Protocol (SIP) ,”RFC 3626, IETF, June 2002.
[14]A.B. Roach, “SIP-Specific Event Notification,”RFC 6665, IETF, July 2012.
[15]A. Niemi,“Session Initiation Protocol (SIP) Extension for Event State Publication,”RFC 3903, IETF, October 2004.
[16]C. Holmberg, E. Burger, H. Kaplan,“Session Initiation Protocol (SIP) INFO Method and Package Framework,”RFC 6086, IETF, January 2011.
[17]B. Campbell, J. Rosenberg, H. Schulzrinne, C. Huitema, D. Gurle,“Session Initiation Protocol (SIP) Extension for Instant Messaging,” RFC 3428, IETF, December 2002.
[18]J. Rosenberg,“Session Initiation Protocol (SIP) INFO Method and Package Framework,”RFC 3311, IETF, September 2002.
[19]R. Sparks,“The Session Initiation Protocol(SIP)Refer Method,”RFC 3515, IETF, April 2003.
[20]J. Rosenberg, J. Peterson, H. Schulzrinne, G. Camarillo,“Best Current Practices for Third Party Call Control(3pcc)in the Session Initiation Protocol(SIP),”RFC 3725, IETF, April 2004.
[21]M. Chen, C. Peng & R. Hwang, “SSIP: Split a SIP Session over Multiple Devices,” Computer Standards and Interfaces, vol. 29, no. 5, pp. 531-545, January 2007.
[22]Jiang Hongbo, A. Iyengar, E. Nahum, W. Segmuller, A.N. Tantawi, C.P. Wright, “Design, Implementation, and Performance of a Load Balancer for SIP Server Clusters,” IEEE/ACM Transactions on Networking, vol.20, no.4, pp.1190-1202, August 2012.
[23]A. Lahmadi, O. Festor, “A Framework for Automated Exploit Prevention from Known Vulnerabilities in Voice over IP Services,” IEEE Transactions on Network and Service Management, vol.9, no.2, pp.114-127, June 2012.
[24]P. Sangheon, P. Gwangwoo, K. Lee, W. Lee, “Analysis of SIP Transfer Delay in Multi-Rate Wireless Networks,” IEEE Communications Letters,vol.14, no.10, pp.918-920, October 2010.
[25]R.G. Garroppo, S. Giordano, S. Niccolini, S. Spagna, “A Prediction-Based Overload Control Algorithm for SIP Servers,” IEEE Transactions on Network and Service Management, vol.8, no.1, pp.39-51, March 2011.
[26]J. Esch,“Prolog to IMS: The New Generation of Internet-Protocol-Based Multimedia Services,” Proceedings of the IEEE, vol.101, no.8, pp.1856-1859, August 2013.
[27]M. Rawashdeh, A.Karmouch, “Seamless Video Handoff in Session Mobility over the IMS Network,” IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks &Workshops, pp. 1-6, 15-19 June 2009.
[28]Video Share Interoperability Specification 1.3, GSM Association Official Document IR.7, 2008.
[29]L.L. Fernandez, M.G. Carrillo, J.M.R. Pelaez & F.J.L. Fernandez, “Palpatine: a P2MP IMS Video Share architecture and implementation,” The Second International Conference on Next Generation Mobile Applications, Services and Technologies, pp.149-154, 16-19 September 2008.
[30]R. Noldus, U. Olsson, C. Mulligan and I. Fikouras, “IMS Application Developer's Handbook: Creating and Deploying Innovative IMS Applications (Hardcover),”2011.
[31]H. Schulzrinne, S. Casner, R. Frederickand V. Jacobson, “RTP: A Transport Protocol for Real-Time Applications,” RFC 3550, IETF, July 2003.
[32]M. Montagud, F. Boronat, “Enhanced adaptive RTCP-based Inter-Destination Multimedia Synchronization approach for distributed applications”, Computer Networks, vol.56, no.12, pp. 2912-2933, August 2012.


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