下行多載波多使用者使用非正交多重接取技術之使用者分組以及子載波配置演算法設計

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研究生：	陳敬恩 Ching-En Chen
論文名稱：	下行多載波多使用者使用非正交多重接取技術之使用者分組以及子載波配置演算法設計 User Grouping and Subcarrier Allocation for Multicarrier Non-Orthogonal Multiple Access Systems on Downlink
指導教授：	陳永芳
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
論文出版年：	2017
畢業學年度：	105
語文別：	中文
論文頁數：	48
中文關鍵詞：	多載波、多使用者、非正交多重接取技術、使用者分組、子載波配置演算法
相關次數：	點閱：9 下載：0
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本論文提出一個以正交分頻多工(OFDM)為基礎，結合非正交多重接取(NOMA)的系統，搭配使用者迭代選擇演算法、子載波配置演算法等資源配置方式，來提升系統整體的通道容量。

In this paper, we propose a non-orthogonal multiple access systems based on orthogonal frequency division multiplexing (NOMA-OFDM) system with user grouping and subcarrier allocation algorithm to improve the sum capacity.

論文摘要    i
Abstract    iii
致謝    v
List of Figure    viii
List of Tables    ix
Chapter1.    Introduction    - 1 -
1.1.    Non-orthogonal Multiple Access    - 1 -
1.2.    Organization    - 3 -
1.3.    Abbreviations    - 4 -
1.4.    Notation    - 4 -
Chapter2.    System Model and Problem Formulation    - 6 -
2.1.    Non-Orthogonal Multiple Access System    - 6 -
2.2.    Problem Formulation    - 11 -
Chapter3.    Resource Allocation Scheme    - 12 -
3.1.    Propose Iteration User Grouping Scheme    - 12 -
3.2.    Propose Subcarrier Allocation Scheme    - 16 -
Chapter4.    Simulation Results    - 21 -
4.1.    Simulation model    - 21 -
4.2.    Performance of NOMA resource allocation    - 23 -
Chapter5.    Computation Complexity    - 27 -
Chapter6.    Conclusion    - 29 -
Reference    - 30 -
APPENDIX    - 34 -

                                

[1] Z. Ding, P. Fan, and H. Vincent Poor, “Impact of User Pairing on 5G Nonorthogonal Multiple-Access Downlink Transmissions,” IEEE Trans. Vehicular Technology, vol. 65, Issue: 8, pp. 6010-6023, Aug. 2016.
[2] Y. Saito, Y. Kishiyama, A. Benjebbour, T. Nakamura, A. Li, and K. Higuchi, “Non-Orthogonal Multiple Access (NOMA) for Cellular Future Radio Access,” Vehicular Technology Conference, pp. 1-5, Jun. 2013.
[3] J. Choi, “Non-orthogonal multiple access in downlink coordinated two point systems,” IEEE Commun. Letters, vol. 18, no. 2, pp. 313–316, Feb. 2014.
[4] L. Dai, B. Wang, Y. Yuan, S. Han, C. I, and Z. Wang, “Non-orthogonal multiple access for 5G: solutions, challenges, opportunities, and future research trends,” IEEE Communications Magazine vol. 53, Issue: 9, pp. 74-81, Sept. 2015.
[5] Sharp corporation, “Evolving RAN Towards Rel-12 and Beyond,” RWS-120039, 3GPP Workshop on Release 12 Onward Ljubljana, Slovenia, June 11-12, 2012.
[6] NTT Docomo, “Requirements, Candidate Solutions and Technology
Roadmap for LTE Rel-12 Onward,” RWS-120010, 3GPP Workshop on Release 12 Onward Ljubljana, Slovenia, June 11 - 12, 2012.
[7] Q, Li and H, Niu, Papathanassiou, A., et al.: “5G network capacity: Key elements and technologies”, IEEE Vehicular Technology. Mag., 2014, Sep. pp. 71-78
[8] 3GPP TS 36.211: “Physical channels and modulation”. 2011.
[9] S. Tomida and K. Higuchi, “Non-orthogonal Access with SIC in Cellular Downlink for User Fairness Enhancement,” Intelligent Signal Processing and Communications Systems (ISPACS), 2011 International Symposium on, pp.1-6, Dec. 7-9, 2011.
[10] T. Takeda and K. Higuchi, “Enhanced User Fairness Using Non-Orthogonal Access with SIC in Cellular Uplink,” Vehicular Technology Conference (VTC fall), 2011 IEEE, pp.1-5, Sept. 5-8, 2011.
[11] W.Cai; C.Chen; L.Bai; Y.Jin; J.Choi, “Subcarrier and power allocation scheme for downlink OFDM-NOMA systems” IET Signal Processing, 2017, pp. 51-58
[12] Z. Shen, R. Chen, l. G. Andrews, R. W. Heath and B. L. Evans, “Low complexity user selection algorithms for multiuser MIMO systems with block diagonalization,” IEEE Transactions on Signal Processing, vol.54, pp. 3658-3663, Sep. 2006.
[13] H. G. Myung, J. Lim, and D. J. Goodman, “Single carrier FDMA for uplink wireless transmission,” IEEE Veh. Technol. Mag., vol. 1, no. 3, pp. 30-38, Sep. 2006
[14] C. Y. Wong, C. Y. Tsui, R. S. Cheng, and K. B. Letaief, “A realtime subcarrier allocation scheme for multiple access download OFDM transmission,” in Proc. IEEE Veh. Technol. Conf. –Fall, Sep. 1999, vol. 2, pp. 1124-1128.
[15] B. Kimy, S. Lim, H. Kim, S. Suh, J. Kwun, S. Choi, C. Lee, S. Lee and D. Hong, “Non-orthogonal Multiple Access in a Downlink Multiuser Beamforming System,” IEEE Military Communications Conference. pp. 1278 - 1283, Nov. 2013.
[16] A, Benjebbour, A, Li and Y, Saito, “System-level performance of downlink NOMA for future LTE enhancements, ” Proc. Int. Conf. IEEE Globecom Workshops (GC Wkshps), December 2013, pp. 66–70
[17] M.-R, Hojeij, J, Farah and C, Nour, “Resource allocation in downlink non-orthogonal multiple access (NOMA) for future radio access, ” Proc. Int. Conf. IEEE Vehicular Technology Conf. (VTC Spring), May 2015, pp. 1–6
[18] H. Wu and T. Haustein, “Radio resource management for the multiuser uplink using DFT-precoded OFDM,” in Proc. IEEE International Conf. Commun., May 2008, pp. 4724-4728.
[19] Y. F. Chen and J. W. Chen, “A Fast Subcarrier, Bit, and Power Allocation Algorithm for Multiuser OFDM-Based Systems,” IEEE Trans. Vehicular Technology, Vol. 57, Issue: 2, pp. 873-811, Mar. 2008.
[20] W. C. Pao and Y. F. Chen, “Reduced Complexity Subcarrier Allocation Schemes for DFT-Precoded OFDMA Uplink System”. IEEE Trans. Wireless Communications, Vol. 9, NO. 9, September 2010
[21] P. Parida and S. Sekhar Das, “Power allocation in OFDM based NOMA systems: A DC programming approach,” IEEE Globecom Workshops, pp. 1026-1031, Dec. 2014.

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