LTE-A異質網路下基地台間干擾之調適性協調方法研究

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姓名

黃柏勳(Po-Hsun Huang) 查詢紙本館藏

畢業系所

通訊工程學系

論文名稱

LTE-A異質網路下基地台間干擾之調適性協調方法研究
(Study of Adaptive eICIC Scheme in LTE-A Heterogeneous Network)

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摘要(中)

隨著科技的進步，人類對於傳輸速率與傳輸品質有著更高的需求，為了解決這個問題，有許多處理流量的有效方法被提出，例如: 提升基地台的硬體裝置、增加基地台的佈建、放置小型基地台…，增加基地台佈建與放置小型基地台都會產生內佈基地台間的互相干擾，enhanced Inter Cell Interference Coordination (eICIC)就被提出來解決異質網路間的干擾問題，本篇異質網路的定義為不同層級基地台混合而成的網路，由大型基地台(Macro)與小型基地台(Pico)所構成，然而，大型基地的功率較大，會對小型基地台的傳輸造成干擾，所以需使用eICIC來協調干擾，在eICIC中有兩項增加傳輸量的機制，其一是Cell Range Extension (CRE)，由於User Equipment(UE)是根據最大的接收參考功率( Reference signal receive power,RSRP)來決定連接哪個基地台，然而CRE在UE計算接收功率時加上一定的數值在接收小基地台的功率上，讓小基地台能服務更多的UE，另一個機制是Almost Blank Subframe (ABS)，由於小基地台傳輸時，UE會受到大基地台的干擾，就讓大基地台特定時間停止傳輸資料以減少對Pico UE干擾。
本篇論文主要探討包括CRE、ABS、及大型基地台降低傳輸功率(ReducePower)這三種機制在eICIC之應用及其互動之影響，並提出在UE移動環境下，上述三種機制之動態調整方法，並透過模擬以驗證所提出方法之效果，從模擬結果可看出，與其他方法相比，所提出方法更能因應UE通道品質變化，調節不同機制之參數設定，因而有較佳之效能。

摘要(英)

As technology advances, the demands of transmission rate and transmission quality get higher. In order to solve this problem, many studies were proposed, such as proper base station placements, pico cells deployments, etc.. However, deployment of multiple macro and pico cells always causes interference with each other. Enhanced Inter Cell Interference Coordination (eICIC) was proposed as one of the possible solutions to deal with the interference in the macro/pico co-existence heterogeneous network. Generally, Macro cell will cause interference to the User Equipments (UEs) served by pico base station due to the high transmission power from macro base station. eICIC involves two mechanisms to improve total throughput, first is Cell Range Extension (CRE), UEs connect to the cell due to its reference signal receive power (RSRP). However, CRE add some specific value to calculating small cells power for more UEs serving by small cells. Another mechanism is Almost Blank Subframe (ABS), when small cells serving for UE would suffer interference form Macro cell, and ABS decrease the interference by stopping transfer traffic in specific times in macro cell.
This thesis studies the effects among the CRE, ABS, and the transmission power transmitted by the macro base station in eICIC and proposes the dynamic parameters adjustment algorithm of the above three mechanism for the moveable UE environment.Simulations were performed to investigate the performance of the proposed algorithm. The simulation results show that the proposed algorithm can effectively adjust the parameters of the above three mechanism and, therefore, has better throughput when comparing to the other schemes.

關鍵字(中)

★ 異質網路
★ 增強型基地台間干擾消除
★ 近乎空白子訊框
★ 基地台範圍擴增

關鍵字(英)

★ CRE
★ Hetergeneous network
★ ABS
★ LTE-A

論文目次

目錄
中文摘要 I
ABSTRACT II
致謝 III
目錄 IV
圖目錄 VI
表目錄 VII
第一章緒論 1
1.1 研究背景 1
1.2 研究動機與目的 1
1.3 章節概要 3
第二章相關背景研究 4
2.1 LTE系統架構 4
2.2 LTE訊框架構 8
2.3 異質網路 10
2.4 ICIC 11
2.5 EICIC 12
2.5.1 ABS 12
2.5.1 ABS訊號模式 13
2.5.2 CRE 14
2.5.3 RP-ABS 15
2.6 相關文獻探討 15
第三章研究方法 19
3.1 系統架構 19
3.1.1 集中式管理 19
3.1.2 eICIC機制影響 20
3.1.3 符號 24
3.2 演算法 24
3.2.1 state construction 25
3.2.2 parameter adjustment 26
3.2.3 resource allocation 28
3.2.4 return previous parameter set 29
3.3 範例說明 30
第四章模擬環境與結果分析 32
4.1 模擬環境 32
4.1.1 移動模式 32
4.2 模擬假設與更動方式 34
4.3 單次模擬結果與分析 36
4.3.1 random移動模擬圖 36
4.3.2 away移動模擬圖 39
4.3.3 away&return移動模擬圖 41
4.3.4 單次差異對照 43
4.4 綜合模擬結果與分析 44
4.4.1 固定eICIC分析 44
4.4.2 綜合分析 46
4.5 各方法比較 50
第五章　結論 51
參考文獻 52

參考文獻

[1] 3GPP, TS 36.300, V13.3.0, “Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2,”March 2016, Available at www.3gpp.org
[2] 3GPP, TS23.401, V14.0.0, “General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access,” June 2016, Available at www.3gpp.org
[3] http://www.mem.com.tw/article_content.asp?sn=1112020004
[4] A. Damnjanovic, J. Montojo, Y. Wei, T. Ji, T. Luo, M. Vajapeyam, T. Yoo, O. Song, and D. Malladi “A survey on 3GPP heterogeneous networks”, IEEE Wireless Communications, Volume 18 , Issue 3, June 2011
[5] M. Al-Shalash, F. Khafizov, and Z. Chao, “Interference constrained soft frequency reuse for uplink ICIC in LTE networks,” in Proc. IEEE Intl. Symp. on Personal Indoor and Mobile Radio Communications, Istanbul, Turkey, pp. 1882–1887 , September 2010
[6] K. I. Pedersen,Y. Wang,B. Soret, “eICIC Functionality and Performance for LTE HetNet Co-Channel Deployments” in IEEE Vehicular Technology Conference (VTC Fall), Sept. 2012
[7] X. Wang, C. Wang, R. Cai, S. Huang, C. Wang,and W. Wang “Reduced Power Centralized eICIC for LTE-Advanced Heterogeneous Networks”, in IEEE Communications in China (ICCC), pp. 743-74, 2014
[8] Md. S. Ali “An Overview on Interference Management in 3GPP LTE-Advanced Heterogeneous Networks” International Journal of Future Generation Communication and Networking Vol. 8, No. 1, pp. 55-68, 2015
[9] J. Oh and Y. Han “Cell Selection for Range Expansion with Almost Blank Subframe in Heterogeneous Networks “, in IEEE Personal Indoor and Mobile Radio Communications (PIMRC),pp. 653-657, Sept. 2012
[10] A. Tall, Z. Altman and E. Altman”Self Organizing strategies for enhanced ICIC (eICIC)” WiOpt, Jan. 2014
[11] B. Soret and K. I. Pedersen “Macro Transmission Power Reduction for HetNet Co-Channel Deployments”, in IEEE Global Communications Conference (GLOBECOM), pp. 4126-4130, Dec. 2012
[12] Q. Zhang, T. Yang, Y. Zhang,and Z. Feng “Fairness guaranteed novel eICIC technology for capacity enhancement in multi-tier heterogeneous cellular networks” in EURASIP Journal on Wireless Communications and Networking, March 2015
[13] J. Wang, X. She, and L. Chen “Enhanced Dynamic Inter-cell Interference Coordination Schemes for LTE-Advanced”, in IEEE Vehicular Technology Conference (VTC Spring), pp. 1-6, May 2012
[14] Beyer, J., Deutsche Telekom,and Klein, O. “eICIC performance calculations based on idle mode measurements in two heterogeneous networks”,in IEEE Vehicular Technology Conference (VTC Fall), pp. 1-5, Sept 2013
[15] M. T. Kawser, N. I. B. Hamid, Md. N. Hasan, M. S. Alam, and M.M. Rahman “Downlink SNR to CQI Mapping for Different Multiple Antenna Techniques in LTE” Journal of Information and Electronics Engineering, Vol. 2, No. 5, Sep. 2012
[16] F. Z. Kaddour, E. Vivier, Mroueh, L. Mroueh, M.Pischella, P. Martins
“Gain of multi-resource block allocation and tuning in the uplink of LTE
networks”, in IEEE Wireless Communication Systems (ISWCS), pp. 312-325, Aug. 2012
[17] 3GPP, TS36.213, V9.0.2, “Evolved Universal Terrestrial Radio Access (E-UTRA) Physical layer procedures; Release 9,” June 2010, Available at www.3gpp.org
[18] 3GPP, TS36.101, V9.22.0, “Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception; Release 9,” March 2015, Available at www.3gpp.org
[19] ETSI, TR 136 942, V12.0.0, “LTE; Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Frequency (RF) system scenarios; Release 12,” Oct. 2014

指導教授

陳彥文(Yen-Wen Chen)

審核日期

2016-8-10

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