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| 研究生: |
胡展銘 Zhan-Ming Hu |
|---|---|
| 論文名稱: |
電信級分封電話交換系統之分散控制結構及其效能分析 |
| 指導教授: |
吳中實
Jung-Shyr Wu |
| 口試委員: | |
| 學位類別: |
碩士 Master |
| 系所名稱: |
資訊電機學院 - 電機工程學系 Department of Electrical Engineering |
| 畢業學年度: | 89 |
| 語文別: | 中文 |
| 論文頁數: | 85 |
| 中文關鍵詞: | 電信級分封電話 、工作排程演算法 、允入控制 |
| 外文關鍵詞: | packet telephony, scheduling algorithm, Call Admission Control (CAC) |
| 相關次數: | 點閱:2 下載:0 |
| 分享至: |
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電信級分封電話交換系統將扮演下一代電信網路之主流系統,其系統控制架構之設計及系統效能之良窳將攸關其服務品質之提供,重要性實不可言喻,本篇論文重點在於討論各種分散式結構對系統有何影響,以及各種分散式結構的優缺點與適用情形之比較,最後再提出適合系統之工作排程與允入控制以提高系統效能與穩定度。
分封電話技術最初只是提供IP網路使用者語音之點對點傳輸,以節省昂貴的國際長途電話費用,隨之而來大家所關心的是如何將語音、資料及視訊服務整合在一起,以擴大分封電話的功能及服務範圍,相信不久的未來,分封電話技術將有更大的願景,電信級分封電話技術將結合傳統電話網路、行動通信網路、公眾網路及企業網路成為下一代電信網路之主流。
[ 1 ]Baldi, M.; Risso, F.,” Comparing the efficiency of IP and ATM telephony”, ICATM ''99., pp. 180 —186, 1999
[ 2 ]Murakami, T.; Aihara, M.; Shimamoto, N.; Ono, K.,” SS7 gateway for inter-working between an IP network and a telephone network”, APCC/OECC ''99., vol.1, pp. 57 —60, 1999
[ 3 ]Yi-Bing Lin,” Signaling System Number 7”, IEEE Potentials, pp. 5 -8, 1996
[ 4 ]Modarressi, A.R.; Skoog, R.A.,” Signaling System No.7: a tutorial”, IEEE Communications Magazine, Vol. 28, pp.19 -20, 22-35, July 1990
[ 5 ]Huitema, C.; Cameron, J.; Mouchtaris, P.; Smyk, D.,” An architecture for residential Internet telephony service”, IEEE Network, pp. 50 —56, 1999
[ 6 ]Goyal, P. et al.,” Integration of call signaling and resource management for IP telephony”, IEEE Internet Computing, pp. 44 —52, 1999
[ 7 ]Schulzrinne, H.; Rosenberg, J,” The IETF Internet telephony architecture and protocols,” IEEE Network Vol.13, pp.18 -23, May-June 1999
[ 8 ]M. Arango et al.,” Media Gateway Control Protocol (MGCP)”, IETF RFC 2705, Oct. 1999
[ 9 ]F. Cuervo et al.,” Megaco Protocol Version 1.0”, IETF RFC3015, Nov. 2000
[10]P. Blatherwick et al.,” Megaco IP Phone Media Gateway Application Profile”, IETF RFC 3054, Jan. 2001
[11]M. Handley et al.,” SIP: Session Initiation Protocol”, IETF RFC2543, Mar.1999
[12]Aparna Vemuri, Jon Peterson et al.,” SIP for Telephones (SIP-T): Context and Architectures”, < draft-vemuri-sip-t-context-02.txt >, Feb. 2001
[13]Ken Morneault et al.,” SS7 MTP2-User Adaptation Layer”, , IETF Internet Draft, Feb 2001
[14]Greg Sidebottom et al.,” SS7 MTP3-User Adaptation Layer (M3UA)”, , IETF Internet Draft, Feb. 2001
[15]R. Stewart et al.,” Stream Control Transmission Protocol”, IETF RFC 2960, Oct. 2000
[16]H. Schulzrinne et al.,” RTP: A Transport Protocol for Real-Time Applications”, IETF RFC 1889, Jan. 1996
[17]A. Demers, S. Keshva, and S. Shenker.,“ Analysis and simulation of a fair queueing algorithm”, in Journal of Internetworking Research and Experience, pp.3-26, Oct. 1990
[18]Bennett, J.C.R.; Hui Zhang,” WF2Q: worst-cast fair weighted fair queueing”, INFOCOM ''96., IEEE, vol.1, pp.120-128, 1996
[19]Wang, J.; Levy, Y. ,” Managing performance using weighted round-robin”, IEEE, pp.785 -792, 2000
[20]Katevenis, M.; Sidiropoulos, S.; Courcoubetis, C.,” Weighted round-robin cell multiplexing in a general-purpose ATM switch chip”, IEEE, pp.1265 —1279, Oct. 1991
[21]ftp://standards.nortelnetworks.com
[22]Tsun-Chien Chiang et al.,” IN services for converged (Internet) telephony”, IEEE Communications Magazine, pp. 108 -115, June 2000
[23]Wanjiun Liao; Jen-Chi Liu,” VoIP mobility in IP/cellular network internetworking”, IEEE Communications Magazine, pp. 70 —75, Apr. 2000
[24]Svanbro, K.; Wiorek, J.; Olin, B.,” Voice-over-IP-over-Wireless”, IEEE International Symposium, vol. 1, pp. 24 -28, 2000
