基於比例公平原則之LTE物聯網非授權頻譜之排程策略

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張傳寅(Chuan-Yin Chang) 查詢紙本館藏

畢業系所

通訊工程學系

論文名稱

基於比例公平原則之LTE物聯網非授權頻譜之排程策略
(A Scheduling Strategy for LTE-IoT Accessing Unlicensed Band with Proportional Fairness)

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摘要(中)

隨著物聯網逐漸的發展，業界歸納出今日物聯網應具備之特性，如無線、長距離、低電力消耗等等，並據此制定並推行許多針對物聯網應用需求的新技術，3GPP也定義出了eMTC和NB-IoT作為競爭LPWAN市場。
LTE-A為了追求更高的傳輸速度，3GPP於Release 13和Release 14中提出了LAA和eLAA，將載波聚合的技術應用在聚合授權頻譜和非授權頻譜上數個載波單元，以實現更大的傳輸頻寬，即為LTE-U。在MulteFire Alliance的想法中，未來能夠動態的調配授權頻譜和非授權頻譜的資源給LTE-IoT、LTE用戶和LTE-U用戶。
本篇論文即是在研究在加入LTE-IoT的環境下的排程演算法，我們會根據LTE-IoT、LTE用戶和LTE-U的用戶給予不同的權重大小，做初步的排程，考慮GBR的因素，對授權頻譜和非授權頻譜皆會有占用程序，保障GBR用戶的傳輸量，為了擴展LTE-IoT設備使用非授權頻譜，我們使用K-means分群演算法，讓eMTC和LTE-U用戶分群並讓LTE-U用戶帶eMTC的資料上傳。考慮到NB-IoT有自己的一條通道，但如果發生塞車的狀況，導致滿意度下降，也讓NB-IoT設備能有機制可以使用非授權頻譜以提升滿意度。

摘要(英)

With the growing of the Internet of Things(IoT) development, the industry has summarized the characteristics that the IoT should have nowadays, such as wireless, long-distance, low power consumption, and so on. Accordingly to above, the industry has implemented a number of new technologies for IoT applications, 3GPP also defined eMTC and NB-IoT as competitor in LPWAN markets.
In order to pursue higher transmission rate, LTE-A proposes LAA and eLAA in Release 13 and Release 14, applies the carrier aggregation technology to aggregate licensed spectrum and unlicensed spectrum on several carrier units to achieve higher speed, is named LTE-U.
The idea comes form Qualcomm, the future can dynamically allocate resources from licensed spectrum and unlicensed spectrum to LTE-IoT, LTE users and LTE-U users.
This thesis is studying the scheduling algorithm in the LTE-based IoT environment. We will do preliminary scheduling and giving different weights according to the LTE-IoT, LTE users, and LTE-U users. Considering the factors of GBR, there will be occupation procedures for licensed spectrum and unlicensed spectrum to ensure the guaranteed transmission of GBR users. In order to expand the use of unlicensed spectrum to LTE-IoT devices, we use a K-means clustering algorithm to allow eMTC devices and LTE- U users are grouped and LTE-U users upload eMTC devices data. Taking into account that NB-IoT has its own channel, once if congestion occurs resulting the decrease of satisfaction, it also allows NB-IoT devices to have mechanisms to use unlicensed spectrum to increase satisfaction.

關鍵字(中)

★ eMTC
★ NB-IoT
★ LTE
★ LTE-U
★ 資源分配

關鍵字(英)

★ eMTC
★ NB-IoT
★ LTE
★ LTE-Unlicensed
★ resource allocation

論文目次

中文摘要....................................................................................................I
英文摘要...................................................................................................II
誌謝..........................................................................................................IV
目錄..........................................................................................................V
圖目錄.....................................................................................................VII
表目錄......................................................................................................IX
第一章序論..............................................................................................1
1.1 前言.....................................................................................................1
1.2 研究動機.............................................................................................2
1.3 論文架構.............................................................................................3
第二章相關研究背景..............................................................................4
2.1 長期演進技術 ( LTE ) 介紹…..........................................................4
2.1.1 LTE Frame架構............................................................................6
2.1.2 通道品質指標..............................................................................9
2.2 LTE-Advanced…..............................................................................10
2.2.1 載波聚合(Carrier Aggregation)………………………….........10
2.3 Enhanced Licensed Assisted Access(eLAA)……….………………13
2.4 5th generation mobile networks….………………………………….17
2.5 封包排程演算法…………………………………………………..20
第三章系統架構與資源分配演算法…................................................24
3.1 系統架構...........................................................................................25
3.2 proposed演算法–LTE_IoT資源分配演算法................................27
3.2.1 License Band排程…………......................................................22
3.2.2 占用程序………………………………………………………31
3.2.3 Unlicensed Band排程………………………………………….34
第四章模擬與分析................................................................................37
4.1 模擬環境與參數...............................................................................37
4.2 Traffic Model.....................................................................................39
4.2.1 Video stream……………………………………………………39
4.2.2 FTP……………………………………………………………..40
4.3 模擬結果與分析...............................................................................41
第五章結論與未來研究........................................................................58
參考文獻..................................................................................................59

參考文獻

[1] Ghosh, A., et al. “LTE-Advanced : next-generation wireless broadband technology”, IEEE Wireless Communications, Vol. 17, no. 3, pp. 10-22, June 2010.

[2] Stefania Sesia, Issam Toufik, Matthew Baker, “LTE-The UMTS Long Term Evolution : From Theory to practice”, ISBN: 978-0-470-66025-6, Wiley, 2011

[3] “Uplink Performance of Enhanced Licensed Assisted Access (eLAA) in Unlicensed Spectrum”, Reem Karaki; Jung-Fu Cheng; Evanny Obregon; Amitav Mukherjee; Du Ho Kang; Sorour Falahati; Havish Koorapaty; Oskar Drugge, IEEE Conferences, 2017

[4] “LTE-M Evolution Towards 5G Massive MTC”, Rapeepat Ratasuk, Nitin Mangalvedhe, David Bhatoolaul, Amitava Ghosh, IEEE Conferences, 2017

[5] 3GPP TS 36.300, “Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2”, version 10.4.0, June 2011.

[6] 3GPP TS 36.101, “Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception”, version 10.3.0, June 2011.

[7] 3GPP TS 36.213 , “LTE ,Evolved Universal Terrestrial Radio Access (E-UTRA), Physical layer procedures”, version 12.3.0 Release12 , Oct 2014.

[8]M. Kottkamp, A. Roessler, J. Schlienz , “LTE-Advanced Technology Introduction White Paper”, Aug 2012.

[9] Jeanette Wannstrom, “LTE-Advanced”, 3GPP, Technologies, Keywords & Acronyms”, June 2013.

[10] Rasmus Hellberg, “拓展網路覆蓋率/容量 LTE-A邁向未授權頻譜發展”,新通訊元件雜誌，161 期, 2014 年 7 月

[11] Qualcomm, “LTE in Unlicensed Spectrum Research” , 2014.

[12] CableLabs, “Will Wi-Fi Have to Share the Waves” , May 2014.

[13] Qualcomm, “Extending the benefits of LTE Advanced to unlicensed spectrum”, Apirl 2014.

[14] Qualcomm, “LTE IoT is starting to connect the massive IoT today, thanks to eMTC and NB-IoT”, JUN 15, 2017.

[15]財團法人電信技術中心,張志鵬,陳志宇,王彥中,江亮均, “LTE-U與LAA發展趨勢介紹”, 2015 年 10 月

[16] 魏嘉宏/汪海瀚,“低功耗物聯網刷新架構　NB-IoT三大模式面面俱到”,新通訊元件雜誌，186 期, 2016 年 8 月

[17] 簡均哲/汪海瀚,“eMBB/URLLC/mMTC鼎立　5G標準制定全面啟動”,新通訊元件雜誌，200 期, 2017 年 10 月

[18] J. M. Holtzman, “Asymptotic analysis of proportional fair algorithm,” in 2001 12th IEEE International Symposium on Personal Indoor and Mobile Radio Communications, vol. 2, pp. F–33, IEEE, Oct. 2001.

[19] M. Andrews, K. Kumaran, K. Ramanan, A. Stolyar, P. Whiting, and R. Vijayakumar,“Providing quality of service over a shared wireless link,” IEEE Communications magazine, vol. 39, no. 2, pp. 150–154, Feb. 2001

[20] Hung-Chin Jang, Yun-Jun Lee, “QoS-Constrained Resource Allocation Scheduling for LTE Network”, ISWPC, 2013 International Symposium on, 2013.

[21] Qualcomm, “Leading the LTE IoT evolution to connect the massive Internet of Things”, JUN , 2017.

[22] 3GPP TR 25.892, “Technical Specification Group Radio Access Network; Feasibility Study for Orthogonal Frequency Division Multiplexing (OFDM) for UTRAN enhancement”, version 6.0.0, June 2004.

[23] WiMAX Forum Application AWGN Working Group. “WiMAX System Evaluation Methodology”, September 2007.

[24] “物聯網專用通信技術，這三種授權頻段下的低功耗廣域網你不得不知 ”, 每日頭條 2016-12-01

指導教授

吳中實(Jung-Shyr Wu)

審核日期

2018-7-18

推文