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Author: 陳永慶
Yung-ching Chen
Thesis Title: 個人通訊服務網路之位置管理機制設計
Design of Location Management Schemes for PCS Networks
Advisor: 馮輝文
Huei-Wen Ferng
Committee: 蔡志宏
Zsehong Tsai
陳金蓮
Jean-Lien Chen
賴源正
Yuan-Cheng Lai
吳中實
Jung-Shyr Wu
Degree: 碩士
Master
Department: 電資學院 - 資訊工程系
Department of Computer Science and Information Engineering
Thesis Publication Year: 2006
Graduation Academic Year: 94
Language: 中文
Pages: 47
Keywords (in Chinese): 位置管理個人通訊服務蜂巢式網路行動裝置位置更新角度式傳呼應用移動速率
Keywords (in other languages): Location Management, Personal Communication Service, Cellular Network, Mobile Terminal, Location Update, Angular Paging, Velocity-Based
Reference times: Clicks: 516Downloads: 3
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    • 在行動電話之個人通訊服務 (Personal Communication Service, PCS) 網路中,由位置更新 (Location Update) 和傳呼 (Paging) 所構成之位置管理 (Location Management) 機制,使人們無論在何時何地都能夠相互溝通。然而隨著電話用戶 (Subscriber) 人數不斷增加,如何在有限頻寬內做有效地管理並且降低其成本將是十分重要且具討戰性的議題。在本論文中,我們提出一個增強型應用移動速率 (Enhanced Velocity-Based) 之位置更新方法,其利用兩個速率相關參數,速率增加時之時間比例和速率減少時之距離比例,並且採取嚴格增加速率與不輕易減少速率的策略來減少可能發生的振盪 (Oscillation) 現象,減少其成本;另外,許多論文在傳呼策略上,都採取環狀 (Ring) 式細胞搜尋,然而這種方式相當浪費頻寬資源,所以我們設計了一個三步驟之角度式傳呼 (Angular Paging) 策略並配合根據速率快慢調整角度的作法以減少其成本。經由建置一個六邊形蜂巢式 (Cellular) 網路移動環境架構的模擬程式,並與應用移動距離 (Distance-Based) 和應用移動速率 (Velocity-Based)的位置管理機制在各種移動模式 (Mobility Pattern) 下作比較,最後模擬數據顯示我們所提出位置管理機制無論在高速率或者低速率的移動情形下其成本效能都為最佳的。

    In personal communication service (PCS) networks, location management composed of location update and paging is used to keep track of mobile terminals (MTs) to enable people with MTs to communicate with each other at any time and any place. However, how to efficiently manage locations and reduce related costs under the limited bandwidth is a fundamental and challenging issue as the number of subscribers increasingly grows. In this thesis, we propose an enhanced velocity-based location update scheme with two velocity-related parameters, i.e., time ratio when velocity goes up and distance ratio when velocity goes down. Adopting the strategy of strictly increasing velocity and not easily decreasing velocity, it can avoid oscillations caused by the original velocity-based location update scheme. Additionally, ring-structured paging has been extensively used in many various location management studies in the literature but it wastes much processing resources. Hence, we design a three-step angular paging strategy which adapts the paging angle according to the velocity to reduce the paging cost. Compared with the distance-based and velocity-based location management schemes, it turns out that our proposed location management schemes perform better for both higher and lower velocities through extensive simulations of the cellular network.

    中文摘要 i 英文摘要 ii 目錄 iii 表格目錄 v 圖形目錄 vi 1. 緒論 1 1.1 前言......................................1 1.2 研究背景..................................1 1.3 研究動機..................................5 1.4 研究目標..................................5 1.5 論文架構..................................6 2. 相關文獻回顧 7 2.1 個人通訊服務網路..........................7 2.1.1 蜂巢式網路架構........................7 2.2.2 位置管理協定..........................8 2.2 目前相關位置管理機制之研究...............11 2.2.1 位置註冊和通話建立延遲時間研究.......11 2.2.2 位置更新與傳呼研究...................11 2.2.3 座標配置與距離計算...................12 2.3 位置管理之效能評估型.....................13 2.3.1 網路拓僕.............................13 2.3.2 通話請求與停留細胞時間模型機率.......14 2.3.3 移動模型.............................15 3. 個人通訊服務網路隻位置管理機制設計 17 3.1 相關應用移動速率之位置管理機制介紹.......17 3.2 位置管理機制描述.........................18 3.2.1 增強型應用移動速率之位置更新方法.....18 3.2.2 角度式搜尋行動裝置之策略.............18 3.3 數值結果與討論...........................21 3.3.1 模擬環境建置與移動模型設定...........25 3.3.2 程式流程與效能評估模型設定...........26 3.3.3 數值討論.............................27 3.4 結論.....................................32 4 總結 43 參考文獻 44

    [1] I. F. Akyildiz, J. S. M. Ho, and Y. B. Lin, “Movement-based location update and selective paging for PCS networks,” IEEE/ACM Trans. Networking, vol. 4, no. 4, pp. 629–638, Aug. 1996.
    [2] I. F. Akyildiz, J. McNair, J. S. M. Ho, H. Uzunalioglu, and W. Wang, “Mobility Management in Next-Generation Wireless System,” Proc. IEEE, vol. 87, no. 8,
    pp. 1347–1384, Aug. 1999.
    [3] A. Bar–Noy, I. Kessler, and M. Sidi, “Mobile users: to update or not to update,”
    ACM/Baltzer J. Wireless Networks, vol. 1, no. 2, pp. 175–186, Jul. 1995.
    [4] E. Cayirci and I. F. Akyildiz, “User mobility pattern scheme for location update
    and paging in wireless systems,” IEEE Trans. Mobile Computing, vol. 1, no. 3,
    pp. 236–247, Jul.–Sept. 2002.
    [5] G. Fan, I. Stojmenovic, and J. Zhang, “A triple layer location management
    strategy for wireless cellular networks,” in Proc. IEEE ICCCN ’02, pp. 489–
    492, Oct. 2002.
    [6] G. Fan and J. Zhang, “A multi-layer location management scheme that bridges
    the best static scheme and the best dynamic scheme,” in Proc. IEEE MDM ’04,
    pp. 125–132, 2004.
    [7] Y. Huh and C. Kim, “New caching-based location management scheme in personal
    communication systems,” in Proc. IEEE ICOIN ’01, pp. 649–654, Jan.–
    Feb. 2001.
    [8] H. W. Hwang, M. F. Chang, and C. C. Tseng, “A direction-based location
    update scheme with a line-paging strategy for PCS networks,” IEEE Commun.
    Letters, vol. 4, no. 5, pp. 149–151, May 2000.
    [9] S. H. Hwang, Y. H. Han, B. K. Lee, and C. S. Hwang, “An adaptive location
    management scheme using the velocity of mobile nodes,” in Proc. IEEE WCNC
    ’03, vol. 3, pp. 1999–2004, Mar. 2003.
    [10] L. Li, Y. Pan, and J. Li, “An improved movement-based location management
    scheme for PCS network,” in Proc. IEEE VTC ’03, vol. 2, pp. 757–760, Oct.
    2003.
    [11] S. C. Lo and A. L. P. Chen, “Adaptive region-based location management for
    PCS systems,” IEEE Trans. Vehicular Technology, vol. 51, no. 4, pp. 667–676,
    Jul. 2002.
    [12] W. Ma and Y. Fang, “A new location management strategy based on user
    mobility pattern for wireless networks,” in Proc. IEEE LCN ’02, pp. 451–457,
    Nov. 2002.
    [13] W. Ma and Y. Fang, “Two-level pointer forwording strategy for location management
    in PCS networks,” IEEE Trans. Mobile Computing, vol. 1, no. 1, pp.
    32–45, Jan.–Mar. 2002.
    [14] Z. Mao, “An intra-LA location update strategy for reducing paging cost,” IEEE
    Commun. Letters, vol. 6, no. 8, pp. 334–336, Aug. 2002.
    [15] Z. Naor, “Tracking mobile users with uncertain parameters,” MobiCom 2000,
    Bostan, MA, pp. 110–119, Aug. 2000.
    [16] S. J. Oh, “The location management scheme using mobility information of
    mobile users in wireless mobile networks,” in Proc. IEEE ICCNMC ’03, pp.
    230–237, Oct. 2003.
    [17] C. W. Pyo, J. Li, and H. Kameda, “A caching scheme for dynamic location
    management in PCS networks,” in Proc. IEEE VTC ’03, vol. 2, pp. 761–765,
    Oct. 2003.
    [18] T. Tung and A. Jamalipour, “Adaptive location management strategy combining
    distance-based update and sectional paging techniques,” in Proc. IEEE
    HICSS ’03, Jan. 2003.
    [19] T. Tung and A. Jamalipour, “Adaptive location management strategy to the
    distance-based location update technique for cellular networks,” in Proc. IEEE
    WCNC ’04, vol. 1, pp. 172–176, Mar. 2004.
    [20] T. Tung and A. Jamalipour, “A novel sectional paging strategy for location
    tracking in cellular networks,” IEEE Commun. Letters, vol. 8, no. 1, pp. 24–26,
    Jan. 2004.
    [21] G. Varsamopoulos and S. K. S. Guata, “Dynamically adapting registration
    areas to user mobility and call pattern for efficient location management in
    PCS networks,” IEEE/ACM Trans. Networking, vol. 12, no. 5, pp.837–850,
    Oct. 2004.
    [22] Z. Wang and J. Zhang, “A speed-adaptive location management scheme,” in
    Proc. IEEE ICPADS ’02, pp. 597–602, Dec. 2002.
    [23] F. Wang, L. T, F.Zhang, and Z. Huang, “Group location update scheme and
    performance analysis for location management in mobile network,” in Proc.
    IEEE VTC ’05, vol. 4, pp. 2429 - 2433, May–Jun. 2005.
    [24] C. H. Wu, H. P. Lin, and L. S. Lan, “A new analytic framework for dynamic
    mobility management of PCS networks,” IEEE Trans. Mobile Computing, vol.
    1, no. 3, pp. 208–220, Jul.–Sept. 2002.
    [25] K. I. Yeung and S. Nanda, “Channel management in microcell/macrocell cellular
    radio systems,” IEEE Trans. Vehicular Technology, vol. 45, no. 4, pp.
    601–612, Nov. 1996.
    [26] Y. Xiao, “An intra-location area location update scheme for PCS networks,” in
    Proc. IEEE VTC ’03, vol. 4, pp. 2769–2773, Oct. 2003.
    [27] J. Zhang, “A cell ID assignment scheme and its applications,” in Proc. IEEE
    ICPPW ’00, pp. 507–512, Aug. 2000.
    [28] J. Zhang, “Location management in cellular networks,” in Handbook of Wireless
    Networks and Mobile Computing, Ivan Stojmenovic (Editor), John Wiley &
    Sons, 2002, pp. 27–49.
    [29] J. Zheng and E. Regentova, “An enhanced direction-based location update
    scheme for PCS networks,” in Proc. IEEE VTC ’04, vol. 5, pp. 3555–3559,
    Sept. 2004.
    [30] Y. H. Zhu, G. G. Zhou, D.–H. Shi, and J. Gao, “A location management scheme
    with layered cells within location areas,” in Proc. IEEE WCNC ’04, vol. 1, pp.
    255–259, Mar. 2004.

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