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研究生:鄭雅馨
研究生(外文):Ya-Hsing Cheng
論文名稱:自動化隨身碼之藍芽位置追蹤系統
論文名稱(外文):Bluetooth Radio Tracking System for AFS(Automatic Follow-me Service)
指導教授:林一平林一平引用關係
指導教授(外文):Yi-Bing Lin
學位類別:碩士
校院名稱:國立交通大學
系所名稱:資訊工程系
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:2001
畢業學年度:90
語文別:中文
論文頁數:41
中文關鍵詞:藍芽科技隨身碼服務個人數位助理公眾電話網路網際網路語音傳輸個人碼
外文關鍵詞:Bluetooth technologyFollow-me ServicePDAPSTNVoIPPersonal Number
相關次數:
  • 被引用被引用:1
  • 點閱點閱:490
  • 評分評分:
  • 下載下載:105
  • 收藏至我的研究室書目清單書目收藏:2
個人碼(或稱為隨身碼)的服務,讓使用者能在服務區域範圍內,利用多種終端設備(舉例來說:固定式電話、行動電話)來取得電信通訊服務。目前隨身碼的用戶,每當移動到一個新的位置時,就必須以手動的方式,將自己所在位置的新電話號碼註冊到資料庫中。如果隨身碼用戶,在移動位置後,忘了做將所在新位置的電話號碼更新的動作,則打給該用戶的電話,將無法正確的被轉到使用者所在位置的電話。為了提供給使用者更貼心的服務,我們將會提出一個自動化隨身碼服務:隨身碼資料庫(Follow-me database)中的使用者所在位置的電話號碼,會自動的被更新,而不用使用者以手動的方式更新。我們在這篇論文中,最重要的成就在於,這個自動化隨身碼服務可和目前各家公眾電信網路業者所提供的隨身碼服務整合在一起。我們將以藍芽科技(Bluetooth),把我們所提出的自動化隨身碼服務實作出來。我們並且提出一個分析模型來研究自動化隨身碼的效能,這些分析模型所導出的分析結果已和模擬實驗所得到的成果互相驗證。最後,我們依據我們的研究結果建議如何選擇查詢(polling)頻率,以最佳化自動化隨身碼服務的效能
Personal Number (PN) service or Follow-me service allows a user to access telecommunication services with any terminals (e.g., fixed telephones or mobile phones) in any locations within the service area. To provide this feature, the PN user needs to manually register with a phone number every time he/she enters a new location. If the user forgets to register the new phone number, the incoming calls will be mis-routed. To provide user-friendly Follow-me service, this thesis proposes Automatic Follow-me Service (AFS) approach that automatically updates the PN records in the Follow-me database. The significance of our approach is that AFS can be integrated with existing Follow-me databases to automate PN services offered by different PSTN service providers. We show how AFS can be implemented by using the Bluetooth technology. Then we propose an analytic model to investigate the performance of AFS. The analytic results are validated by simulation experiments. Our study suggests guidelines to select polling frequency to optimize the AFS performance.
中文摘要 i
Abstract ii
Acknowledgement iii
Contents iv
List of Figures vi
List of Tables viii
Chapter 1 Introduction 1
1.1 VoIP 1
1.2 Bluetooth 2
1.3 AFS Architecture 2
Chapter 2 Bluetooth Radio Tracking System 5
2.1 Bluetooth Protocol Stack 5
2.1.1 The Transport Protocol Group 6
2.2 Bluetooth Device Architecture 8
2.3 Link Controller Finite State Machine 9
2.4 AFS Polling Message Flow 10
Chapter 3 Implementation 14
3.1 HCI UART Transport Layer 14
3.2 HCI Command and HCI Event 15
3.3 Message Flow 18
3.3.1 Initialization 18
3.3.2 Registration 18
3.3.3 Deregistration 19
Chapter 4 Bluetooth Radio Tracking System Platform 21
4.1 Administrator Operation for Access Point 22
4.2 User Operation for Portable Device 23
Chapter 5 Performance of the Polling Mechanism 25
5.1 Polling Interval Distribution 25
5.2 Polling Frequency 25
5.3 Analytic Model 26
5.4 Results and Comparison 32
Chapter 6 Conclusions 37
Reference 39
Appendix 41
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[2] Arango, M., Dugan, A., Elliott, I., Huitema, C., Pickett, S. Media Gateway Control Protocol. Technical Report RFC 2705, Internet Engineering Task Force, 1999.
[3] Bluetooth Special Interest Group, “Bluetooth Core”, Specification of the Bluetooth System, Version 1.1, February 22, 2001.
[4] ETSI. Radio Equipment and Systems (RES); Digital Enhanced Cordless Telecommunications (DECT); Common Interface (CI). Technical Report ETS 300 175, ETSI, 1996.
[5] Fang, Y., and Chlamtac, I. Teletraffic Analysis and Mobility Modeling for PCS Networks. IEEE Transactions on Communications, 47(7):1062—1072, July 1999.
[6] Harter, A. and Hopper, A. A Distributed Location System for the Active Office. IEEE Network Magazine, pages 62—70, January 1994.
[7] Kelly, F.P. Reversibility And Stochastic Networks. John Wiley & Sons, 1979.
[8] Lin, Y.-B., and Chlamtac, I. Wireless and Mobile Network Architectures. John Wiley & Sons, 2001.
[9] Mettale, R. Bluetooth Protocol Architecture. Technical Report Version 1.0, Nokia, 1999.
[10] Ong, L. et. al. Framework Architecture for Signaling Transport. Technical Report RFC 2719, Internet Engineering Task Force, 1999.
[11] Pang, A.-C., Lin, P., and Lin, Y.-B. Modeling Mis-routing Calls Due to User Mobility in Wireless VoIP. IEEE Communications Letters, 4(12):394—397, 2001.
[12] Zaruba, G. V., Basagni, S., and Chlamtac, I. Bluetrees─Scatternet Formation to Enable Bluetooth-Based Ad Hoc Networks. IEEE ICC 2001, Helsinki, Finland, 2001.
[13] Zorzi, M. Energy Management in Personal Communications and Mobile Computing. IEEE Personal Communications, 5, 1998.
[14] AnyWhereYouGo.com.Bluetooth,
URL: http://www.anywhereyougo.com/bluetooth/Index.po
[15] Bluetooth Special Interest Group,” Bluetooth Personal Area Networking (PAN) Marketing Requirement Document
[16] Bluetooth Special Interest Group, “Bluetooth Profile”, Specification of the Bluetooth System, Version 1.1, February 22, 2001.
[17] Brent A. Miller, Chatschik Bisdikian, Bluetooth Revealed, September 25,2000
[18] Lin, Y.-B., and Chen, Y.-K. Reducing Authentication Signaling Traffic in Third Generation Mobile Network. IEEE Trans. on Wireless Commun., 2002. See also http://liny.csie.nctu.edu.tw/#jorunal.
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