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一种低复杂度的MIMOOFDM下行链路子载波分配改进算法

An Improved Sub-carriers Allocation Algorithm with Low Complexity for MIMO-OFDM Downlink
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摘要 针对多入多出正交频分复用(MIMO-OFDM)系统的下行链路,提出一种基于信道状态信息(CSI)反馈的次优子载波分配算法。算法从寻求容量和公平性之间的平衡出发,将提高系统容量作为资源分配的优化目标。该算法首先按照比例公平约束进行子载波初始分配,然后将现行分配给任意两个用户的子载波互换之后计算系统容量,如果系统容量增加,则将子载波在用户间进行交换,否则保持初始分配不变。将子载波在用户间进行迭代调整,直到系统总容量不再增加为止。仿真结果表明,该算法能够很好地保证比例公平约束,有效地提高系统容量,提升效率可以达到贪婪算法的40%左右,对MIMO-OFDM系统中的子载波分配具有一定的参考价值。 A suboptimal sub - carriers allocation algorithm based on channel state information (CSI) for the downlink of Multiple Input Multiple Output - Orthogonal Frequency Division Multiplexing (MIMO - OFDM) system is proposed in this paper. The tradeoff between fairness and capacity is considered and the purpose of the algorithm is to maximize the capacity of the system. The algorithm firstly implements initial allocation according to the proportional fairness constraint, and then calculates the variety of the system capacity if the sub - carriers allocated to any pair of the users are swapped. If the system capacity is increased, the sub - carriers are swapped, or the initial allocation is kept. The sub - carriers among users are iteratively swapped until the system capacity couldn't be improved. Simulation result shows that the proposed algorithm can improve system capacity effectively with proportional fairness among users and the capacity increment can reach about 40% of the greedy algorithm. The conclusion has reference value for the sub- carriers allocation in the MIMO - OFDM systems.
作者 魏方旭 胡晓鹏
机构地区 西南交通大学信息科学与技术学院
出处 《电讯技术》 北大核心 2012年第4期553-557,共5页 Telecommunication Engineering
关键词 多入多出 正交频分复用 子载波分配 状态信息反馈 比例公平 MIMO OFDM sub - carrier allocation CSI feedback proportional fairness
分类号 TN929.5 [电子电信—通信与信息系统]
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参考文献13

  • 1Inhyoung Kim, In - Soon Park, Yong H Lee. Use of Linear ProgTamming for Dynamic Subcarrier and Bit Allocation in Multiuser OFDM[J]. IEEE Transactions on Vehicular Tech- nology, 2006, 55(4): 107- 116.
  • 2Wong C Y, Cheng R S, Letaief K B, et al. Murch. Multius- er OFDM with adaptive subcarrier, bit, and power allocation [J]. IEEE Journal on Selected Areas in Communication, 1999, 17(10) : 1743 - 1758.
  • 3JangJ, Lee K B. Transmit power adaptation for multiuser OFDM systems[J]. IEEE Journal on Selected Areas in Com- munication, 2003, 21(2) : 171 - 178.
  • 4Rhee W, Cioiti J L. Increase in capacity of multiuser OFDM system using dynamic subchannel allocation[ C]//Proceedings of IEEE Vehicular Technology Conference. Tokyo: IEEE, 2000:1085 - 1089.
  • 5管张均,周希朗.基于容量最大化的多用户MIMO-OFDM子载波分配算法[J].电讯技术,2011,51(9):127-130. 被引量:2
  • 6SHEN Zu - kang, Andrews J G, Evans B L. Adaptive Re- source Allocation in Muhiuser OFDM Systems With Propor- tional Rate Constraints [ J ]. IEEE Transactions on Wireless Communications, 2005,4 (6) : 2726 - 2737.
  • 7Xu J, Kim J Y, Paik W K, et al. Adaptive Resource Alloca- tion Algorithm with Fairness for MIMO - OFDMA System [ C]//Proceedings of IEEE Vehicular Technology Confer- ence. Melbourne: IEEE,2006:1585 - 1589.
  • 8Wong I C, Shen Zukang, Evans B L, et al. A Low ComplexityAlgorithm for Proportional Resource Allocation in OFDMA Systems[ C]//Proceedings of 1EEE Workshop on Signal Pro- cessing Systems. Texas: IEEE, 2004:1 - 6.
  • 9Zhu Han, Zhu Ji, Liu K J R. Low- complexity OFDMA channel allocation with Nash bargaining solution fairness [C]//Proceedings of IEEE Global Telecommunications Con- ference. Texas: IEEE, 2004: 3726-3731.
  • 10LI Hong- xiang, RU Guan- ying, Kim Younsun,et al. OFD- MA Capacity Analysis in MIMO Channels[J]. IEEE Transac- tions on Infonmtion Theory, 2010,56(9) :4438 - 4446.

二级参考文献16

  • 1Berrou C, Glavierx A ,Thitimajshima P. NearShannon limit error correcting coding and decoding : turbo codes [ C ]// Proceedings of 1993 International Conference on Communication. [ S. l. ] :IEEE,2003 : 1064 - 1070.
  • 2Mackay D C. Near Shannon limit performance of low density parity check codes [ J ]. Electronics Letters, 2006,32 ( 18 ) : 1645 - 1646.
  • 3Telatar L E. Capacity of multi - antenna gaussian channels [ J ]. European Transactions on Telecommunications, 1999,10 (6) :585 - 595.
  • 4Foschini G J, Gans M J. On limits of wireless communications in a fading environment when using multiple antennas [ J ]. Wireless Personal Communications, 1998 ( 6 ) : 311 -335.
  • 5Da -Shan Shiu, Gerard J Foschini, Michael J. Fading Correlation and Its Effect on the Capacity of Multielement Antenna Systems[J]. IEEE Transactions on Communication,2005,48 ( 3 ) : 502 - 513.
  • 6Gesbert D, Bolcskei, Gore H. Outdoor MIMO wireless channels : models and performance prediction [ J ]. IEEE Transactions on Communications ,2002,50 ( 12 ) : 1926 - 1934.
  • 7Molisch A F, Steinhauer M, Toehsch M. Measurement of the capacity of MIMO system in frequency - selective channels [ C ]//Proceedings of Vehicular Technology Conference. [ S. l. ] :IEEE,2006:204 - 208.
  • 8Palomar D P, Fonollosa J R, Lagunas M A. Capacity resuits of spatially correlated frequency selective MIMO channels in UNITS [ C ]//Proceedings of Vehicular Technology Conference. [ S. l. ] : IEEE ,2007:553 - 557.
  • 9Adarsh B. Narasimhamurthy, Cihan Tedepelenlioglu. Anten- na Selection for MIMO - OFDM Systems With Channel Esti- mation Error [ J ]. IEEE Transactions on Vehicular Technolo- gy, 2009, 58(5) :2269 - 2278.
  • 10Sebastien Simoens, Olga Munoz-Medina, Josep Vidal, et al. Compress-and-Forward Cooperative MIMO Relaying With Full Channel State Information [ J ]. IEEE Transactions on Signal Processing, 2010, 58(2) :781 - 791.

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电讯技术
2012年 第4期

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