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研究生: 陳資涵
論文名稱: LTE中具DRX機制與服務品質控制之頻寬配置演算法
指導教授: 黃政吉
學位類別: 碩士
Master
系所名稱: 電機工程學系
Department of Electrical Engineering
論文出版年: 2014
畢業學年度: 102
語文別: 中文
論文頁數: 46
中文關鍵詞: 長期演進排程演算下行鏈路服務品質動態調整
英文關鍵詞: LTE (Long-Term Evolution), scheduling, downlink, QoS(Quality of Service), Dynamic allocation
論文種類: 學術論文
相關次數: 點閱:192下載:12
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  • 本論文提出服務品質保證的動態排程演算法針對對話性質之服務流,使用正交分頻多工存取(Orthogonal Frequency Division Multiple Access, OFDMA)技術為基礎之LTE無線環境中,在此我們提出動態調整機制且兼具目標延遲時間追求的下行鏈路排程演算法,在無線通訊系統如3GPP 發展之長期演進 (Long-Term Evolution, LTE)系統中。本論文之設計動機為維持即時(Real time, RT)服務之服務品質(Quality of Service, QoS)使用MLWDF及最大速率法的次佳排程法資源分配,並以動態調整的機制,達到提升系統效能與資源分配公平性。透過模擬,我們觀察到提出之演算法可以有效追逐目標延遲。

    This paper presents QoS in real time service flow for dynamic scheduling algorithm, using orthogonal frequency division multiple access (Orthogonal Frequency Division Multiple Access, OFDMA) technology-based on LTE wireless environment, in which we propose dynamic adjustment mechanism and the target delay time to pursue as goals in the downlink scheduling algorithm of wireless communication systems of the 3GPP Long-Term Evolution (LTE) systems.
    The motivation of this paper is designed to maintain real-time (Real time, RT) service quality of services (Quality of Service, QoS) and based on MLWDF and maximum rate suboptimal resource allocation scheduling method, then using dynamic adjustment mechanism, to improve system performance and resource allocation fairness. Through simulation, we observed proposed algorithm can effectively chase the target delay.

    中文摘要……………………………………………………………………………..…i 英文摘要………………………………………………………………………………iii 誌   謝 v 自 傳 vi 學術成就 vii 目 錄 viii 圖 目 錄 x 表 目 錄 i 第一章  緒論 1 1.1 研究動機與背景 1 1.2 研究目的 3 1.3 其他相關研究 4 1.4 論文架構 6 第二章 LTE相關系統概述 7 2.1 LTE 相關系統簡介概述 9 2.2 LTE系統模型簡介 14 2.3 LTE系統物理層架構 18 2.4 訊框格式 19 2.5 資源區塊型式 21 2.6 LTE系統媒體存取控制層架構 22 2.7 LTE系統中省電架構 24 第三章  本論文提出之排程演算法 27 3.1 研究作法之動機 27 3.2 相關研究演算法 31 3.3 本研究作法 33 第四章  數值分析與模擬結果 36 4.1 模擬環境與參數設定 36 4.2 模擬環境與參數設定 39 第五章 結論 43 參 考 文 獻 44

    [1] Raymond Kwan, Cyril Leung, and Jie Zhang, “Resource Allocation in an LTE Cellular Communication System,” IEEE ICC 2009.
    [2] Raymond Kwan, Cyril Leung, and Jie Zhang, “Proportional Fair Multiuser Scheduling in LTE,” IEEE SIGNAL PROCESSING LETTERS, VOL. 16, NO. 6, pp. 461 - 464, JUNE 2009.
    [3] Jianwei Huang, Vijay G. Subramanian, Rajeev Agrawal, and Randall Berry, “Joint Scheduling and Resource Allocation in Uplink OFDM Systems for Broadband Wireless Access Networks,” IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 27, NO. 2, pp.226-234 , FEBRUARY 2009.
    [4] Haiyan Luo, Song Ci, Dalei Wu, Jianjun Wu, Hui Tang, “Quality-Driven Cross-Layer Optimized Video Delivery over LTE,” IEEE Communications Magazine, pp.102 - 109, February 2010.
    [5] Vladimir Vukadinovi´c, Student Member, IEEE, and Gunnar Karlsson, “Video Streaming Performance Under Proportional Fair Scheduling,” IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 28, NO. 3, pp. 399 - 408, APRIL 2010.
    [6] Ju Yong Lee, Sameh Sorour, Shahrokh Valaee, Wonyoung Park, “Dynamic Parameter Adaptation for M-LWDF/M-LWWF Scheduling.” IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, VOL. 11, NO. 3, pp927 - 937, MARCH 2012.
    [7] Amir Esmailpour and Nidal Nasser,, “Dynamic QoS-Based Bandwidth Allocation Framework for Broadband Wireless Networks,” IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, VOL. 60, NO. 6, pp2690 - 2700, JULY 2011.
    [8] Liu Liu, Xiaoming She and Lan Chen, “Multi-User and Channel Dependent Scheduling Based Adaptive Power Saving for LTE and Beyond System,” 16th Asia-Pacific Conference on Communications (APCC) , pp118 - 122, 2010.
    [9] Telecommunication Standardization Sector of International Telecommunication Union (ITU-T) Rec. ITU-T G.114: One-way transmission time, 2003.
    [10] S. Sesia, I. Toufik, and M. Baker, LTE - The UMTS Long Term Evolution, From Theory to Practice, John Wiley & Sons Ltd., 2009.
    [11]Harri Holma and Antti Toskala, LTE for UMTS: Evolution to LTE-Advanced, John Wiley & Sons Ltd.,2011.
    [12] 3GPP, TS 36.300, Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN), Overall description, V11.3.0( Release 11), November 2012.
    [13] Erik Dahlman, Stefan Parkvall, and Johan Skold, 4G:LTE/LTE-Advanced for Mobile Broadband, Academic Press, 2011.
    [14] 3GPP, TR 36.912, Feasibility study for Further Advancements for E-UTRA (LTE-Advanced), V11.0.0 (Release 11), October 2012.
    [15] Sunggeun Jin, and Daji Qiao, “Numerical Analysis of the Power Saving in 3GPP LTE Advanced Wireless Networks,” IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, VOL. 61, NO. 4, pp1779 - 1785 , MAY 2012.
    [16] Kaijie Zhou, Navid Nikaein, and Thrasyvoulos Spyropoulos, “I LTE/LTE-A Discontinuous Reception Modeling for Machine Type Communications,” IEEE WIRELESS COMMUNICATIONS LETTERS, VOL. 2, NO. 1, pp.102-105, FEBRUARY 2013.
    [17] 3GPP TS 36.211, Evolved Universal Terrestrial Radio Access (E-UTRA):Physical channels and modulation (Release 10), V10.4.0, January 2012.
    [18] Holma Harri and Toskala Antti, WCDMA for UMTS Radio Access for Third Generation Mobile Communications, Second Edition, John Wiley & Sons Ltd., 2002.
    [19] ITU-T Rec. ITU-T G.711, Geneva, Pules Code Modulation (PCM) of voice frequencies, November 1988.
    [20]Baran Kiziltan, Majid Khan and Francesco M. Velotti, “Voice over IP - WLAN, 3G and LTE issues,” WIRELESS NETWORKS, pp.1 - 7CHALMERS 2011.
    [21] Chandra S. Bontu and Ed Illidge, Nortel,DRX Mechanism for Power Saving in LTE.IEEE Communications Magazine,June 2009.

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