跳到主要內容

簡易檢索 / 詳目顯示

回結果列表
研究生: 黃靖淳
Ching-Chun Huang
論文名稱: MIH在異質無線網路上之換手策略研究
Study of Handover Policy in Heterogeneous Wireless Networks by Using MIH
指導教授: 陳彥文
Yen-Wen Chen
口試委員:
學位類別: 碩士
Master
系所名稱: 資訊電機學院 - 通訊工程學系
Department of Communication Engineering
畢業學年度: 97
語文別: 英文
論文頁數: 65
中文關鍵詞: IEEE 802.21LTE3GPP release 8WiMAXIEEE 802.16eMIH異質性網路
外文關鍵詞: Vertical Network, MIH, IEEE 802.21, IEEE 802.16e, WiMAX, 3GPP release 8, LTE
相關次數: 點閱:11下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 環境中充滿各種無線網路技術,常見的有2G,3G,以及Wi-Fi。目前無線技術的普及,人們可以隨時隨地連上網路進行溝通。但是不同無線網路技術擁有不同的特點,可能適合高速、提供較大頻寬、或更大的涵蓋範圍,相對於不同的系統廠商也會有不同的佈建方式。
    針對移動的環境,下一代無線網路技術:IEEE 802.16e (Worldwide Interoperability for Microwave Access,WiMAX),3GPP release 8 Long Term Evolution (LTE) 等,提供使用者更大的頻寬以及支援更快速的移動。
    IEEE 802.21(Media Independent Handover,MIH),提供了一個共通的界面,使不同網路間可以溝通。使用者便可以平順的切換到各種類型的網路,系統也可以更有效率的分配無線資源。
    本篇論文主要是利用IEEE 802.21,結合異質性網路、WiMAX及LTE。並提出演算法來減少使用者需要掃描的基地台數量,以及提出換手的決策機制,來有效提升系統總體效能。模擬結果顯示所提出之演算法可有效達成上述目的。

    Various types of wireless access technologies, such as 2G, 3G, and Wi-Fi, have been developed recently. Due to the popularity of these wireless access networks, people can connect to the Internet everywhere at any time. Different kinds of wireless access technologies have different transmission characteristics, some of them may be suitable for high-speed or provide a greater bandwidth, and some may have wider coverage. Carriers deploy those technologies according to different environment and application needs.
    The next generation wireless network technology, such as IEEE 802.16e (Mobile WiMAX) and 3GPP release 8 Long Term Evolution (LTE), provides users with greater bandwidth and supports mobility capability to accomplish many network services in more convenient and efficient way.
    IEEE 802.21 (MIH) provides the concept of using common interface for intelligent mobility assistance between different access technologies and to achieve efficient handoff. Users can be able to smoothly switch among various types of network, and the system management system can flexibly allocate valuable radio resources.
    This thesis focuses on the mobility control on the heterogeneous wireless access network, WiMAX and LTE, by using the MIH heuristic. We adopt the information provided by MIH server to choose proper base stations (BS) list to save users scanning time, and propose an effective algorithm for handoff decision. Our simulation results show that the proposed schemes can effectively meet the above objectives.

    摘要 I ABSTRACT II 致謝 IV CONTENTS V LIST OF FIGURES VII LIST OF TABLES IX CHAPTER 1 INTRODUCTION 1 1.1 INTRODUCTION TO MOBILE NETWORK 1 1.2 RESEARCH MOTIVATION 3 1.3 THESIS ARCHITECTURE 5 CHAPTER 2 BACKGROUND OVERVIEW 7 2.1 NETWORK ARCHITECTURE 7 2.1.1 IEEE 802.16e 7 2.1.2 WiMAX Forum 10 2.2 3GPP LONG TERM EVOLUTION 16 2.3 IEEE 802.21 20 CHAPTER 3 HANDOFF SCHEME ANALYSIS 25 3.1 INTRODUCTION TO HANDOFF 25 3.2 HANDOFF PROCEDURE 28 3.3 THE PROPOSED ALGORITHMS 30 3.3.1 Algorithm 1 – Scan List Decision 32 3.3.2 Algorithm 2 – Decision of Target BS 35 3.4 HANDOFF ARCHITECTURE 39 CHAPTER 4 EXPERIMENTAL SIMULATIONS 44 4.1 SIMULATION ENVIRONMENT 44 4.2 SIMULATION RESULTS 47 4.2.1 Average Number of Scans 48 4.2.2 Average Handoff Ratio in Connection Time 49 4.2.3 Average Handoff Blocking Ratio 51 4.2.4 With Background Traffic 53 4.2.5 With Different System Parameter 55 CHAPTER 5 CONCLUSIONS AND FUTURE WORKS 58 5.1 CONCLUSIONS 58 5.2 FUTURE WORKS 59 REFERENCE 61

    [1] Shantidev Mohanty and Ian F. Akyildiz, “A Cross-Layer (Layer 2+3) Handoff Management Protocol for Next-Generation Wireless Systems”, IEEE Transactions on Mobile Computing, October 2006, pp. 1347-1360.
    [2] IEEE P802.16Rev2/D8.
    [3] http://en.wikipedia.org/wiki/IEEE_802.16
    [4] 3GPP TS 36.321 V8.5.0 (2009-03) 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA) Medium Access Control (MAC) protocol specification (Release 8).
    [5] 3GPP TR 36.938 V8.0.0 (2008-03) 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Improved Network Controlled Mobility between E-UTRAN and 3GPP2/Mobile WiMAX Radio Technologies.
    [6] http://en.wikipedia.org/wiki/3GPP_Long_Term_Evolution
    [7] UMA Consortium, “Unlicensed Mobile Access (UMA) Architecture (Stage 2)”, Technical Specification, September 2004.
    [8] IEEE P802.11u/D3.0.
    [9] IEEE Std 802.21?-2008.
    [10] http://en.wikipedia.org/wiki/IEEE_802.21
    [11] WiMAX Forum Network Architecture – Stage 2 – Release 1.1.0, WiMAX Forum, July 2007.
    [12] WiMAX Forum Network Architecture – Stage 3 – Release 1.1.0, WiMAX Forum, July 2007.
    [13] Shih-yu Hsu, “Handoff Overhead Analysis for Applying Hierarchical Mobile IPv6 in WiMAX Network Architecture“.
    [14] 王竣彥, “3GPP LTE 系統之換手機制及其相關議題簡介“, 工業技術研究院技術專欄April 2007.
    [15] Choong K N, Kesavan V S, Ng S L, de Carvalho F, Low A L Y and Maciocco C, “SIP-based IEEE802.21 media independent handoff — a BT Intel collaboration“, BT Technol J, 25, No 2, pp. 219–230, April 2007.
    [16] George Lampropoulos, Apostolis K. Salkintzis, Nikos Passas, “Media-Independent Handover for Seamless Service Provision in Heterogeneous Networks”, IEEE Communications Magazine, pp. 64-71, January 2008.
    [17] L. Eastwood, S. Migaldi, Q. Xie, V. Gupta, “Mobility using IEEE 802.21 in a hetrogeneous IEEE 802.16/802.11-based, IMT-advanced (4G) network“, IEEE Wireless Commun., pp. 26-34, 2008.
    [18] Widyo Cahyono Andi, Yang Xia, Chai Kiat Yeo, Bu Sung Lee, “MIH Based SIP Mobility Management Scheme in Heterogeneous Wireless Networks“, pp. 7-12, Sept. , doi:10.1109/UBICOMM.2008.17.
    [19] Yoon Young An, Byung Ho Yae , Kang Won Lee, You Ze Cho, Woo Young Jung, “Reduction of Handover Latency Using MIH Services in MIPv6“, Proceedings of the 20th International Conference on Advanced Information Networking and Applications - Volume 2 (AINA''06), p.229-234, April 18-20, 2006.
    [20] Young-Chul Jung, Byung-Kil Kim, Young-Tak Kim, “SIP Based End-to-End QoS Negotiation Scheme for MIH”, IITA-2006, pp.1-12.
    [21] R. Tawil, J. Demerjian, G. Pujolle, “Distributed Handoff Decision Scheme using MIH Function for the Fourth Generation Wireless Networks”, International Conference on Information and Communication Technologies: from theory to applications (ICTTA), Umayyad Palace, Damascus, Syria, pp. 1-5.
    [22] Takashi Kumagai, Takuya Asaka, and Tatsuro Takahashi. 2004, “Location Management Using Mobile History for Hierarchical Mobile IPv6 Networks”. Global telecommunications Conference, GLOBECOM ''04. IEEE Volume 3, 29 Nov.-3 Dec. 2004, pp. 1585 - 1589 Vol.3
    [23] K. Kawano, K. Kinoshita, and K. Murakami.2002. “A mobility-based terminal management in IPv6 networks”. IEICE Trans. Comm., vol.E85-B, no.10, pp. 2090–2099, Oct. 2002.
    [24] K. Kawano, K. Kinoshita, and K. Murakami.2004. “A study on estimation of mobility of terminals for hierarchical mobility management scheme”. IEICE Trans. Comm., vol. E87-B, no.9, Sept. 2004.
    [25] Jae-Han Seol, Jong-Moon Chung, “IEEE 802.21 MIH based Handover for Next Generation Mobile Communication Systems”, 2008 IEEE, pp. 431 – 435.
    [26] Ali, I. Casati, A. Chowdhury, K. Nishida, K. Parsons, E. Schmid, S. Vaidya, R. Motorola Inc., Schaumburg, IL, “Network-based mobility management in the evolved 3GPP core network Communications“, Magazine, IEEE, February 2009.
    [27] F. Bai, N. Sadagopan and A. Helmy, “IMPORTANT: A Framework to Systematically Analyze the Impact of Mobility on Performance of Routing Protocols for Ad hoc Networks,” Proceedings of the IEEE International Conference on Computer Communications, pp. 825-835, March-April, 2003.
    [28] Draft IEEE 802.16m Evaluation Methodology Document
    [29]3GPP TR 25.996 V8.0.0 (2008-12) 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Spatial channel model for Multiple Input Multiple Output (MIMO) simulations (Release 8).

    QR CODE
    :::