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存在信道反馈延迟时Turbo-BLAST系统的自适应功率分配算法 被引量:2

Adaptive Power Allocation Algorithm for Turbo-BLAST System with Channel Feedback Delay
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摘要 该文针对信道反馈有延迟的Turbo-BLAST系统,以误比特率(Bit Error Rate,BER)为优化目标,提出次优和最优两种自适应功率分配算法。通过系统建模和性能分析,推导出系统瞬时信噪比(Signal Noise Ratio,SNR)的条件概率密度函数,利用数学变换得到信道反馈有延迟时系统BER的表达式。发送端在总功率约束条件下,分别采用拉格朗日极值法和牛顿迭代法求解功率分配矩阵的次优解与最优解。接收端采用基于迫零(Zero Forcing,ZF)准则的软干扰抵消算法进行迭代检测。仿真结果表明,和等功率分配相比,采用该文所提两种算法均可改善系统的BER性能。最优功率分配算法以增加计算复杂度为代价更好地改善了系统的BER性能,而接收端的迭代检测可进一步改善系统性能。 The suboptimal and optimal adaptive transmit power allocation algorithms are proposed to minimize the Bit Error Rate (BER) performance for Turbo-BLAST system with channel feedback delay. The conditional probability density function of the instantaneous Signal Noise Ratio (SNR) is deduced by system modeling and performance analysis. The system BER can be computed using mathematical transformation. At the transmitter, with the total transmit power constraint condition, the suboptimal and optimal transmit power matrix can be calculated by using the Lagrange multiplier method and Newton iteration technique, respectively. At the receiver, the iterative soft interference cancellation algorithm based on Zero Forcing (ZF) rule is used to detect the received symbols. Simulation results show that the proposed algorithms can improve the system BER performance. The optimal power allocation algorithm can improve BER performance more at the cost of increasing the computational complexity. The system performance can be further improved by iterative detection.
作者 于晓丹 陈小敏 谭伟 虞湘宾
机构地区 南京航空航天大学电子信息工程学院
出处 《电子与信息学报》 EI CSCD 北大核心 2014年第4期787-791,共5页 Journal of Electronics & Information Technology
基金 南京航空航天大学基本科研业务费专项科研项目(NS2012075) 国家自然科学基金(61172078)资助课题
关键词 TURBO-BLAST系统 反馈延迟 估计信噪比 自适应功率分配 迭代检测 Turbo-BLAST system Feedback delay Estimated SNR Adaptive power allocation Iterative detection
分类号 TN914 [电子电信—通信与信息系统]
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  • 1贺志强,王晓湘,吴伟陵.一种新的时变衰落信道下MIMO系统的功率分配与自适应调制算法[J].电子学报,2004,32(9):1556-1559. 被引量:10
  • 2倪志,李道本.非理想信道估计和相关Nakagami信道条件下空时发送分集的性能分析[J].北京邮电大学学报,2004,27(5):36-40. 被引量:3
  • 3M C Thomas, A T Joy. Elements of Information Theory [ M]. New York:Wiley & Sons, 1991.
  • 4G G Raleigh, J M Ciofti. Spatio-temporal coding for wireless communication [J].IEEE Transactions on Communications, 1998,46(3) :357 - 366.
  • 5C S Park, K B Lee. Transmit power allocation for BER performance improvement in multicarrier systems[J]. IEEE Transactions on Communications,2004,52( 10):1658- 1663.
  • 6E N Onggosanusi, A M Sayeed, B V Veen, Efficient signaling schemes for wideband space-time wireless channels using channel state information [J]. IEEE Transactions Vehicular Technology, 2003,52( 1 ) : 1 - 13.
  • 7F Ray,M Lamarca, G Vazquez. Robust power allocation algorithms for MIMO-OFDM systems with imperfect CSI [J]. IEEE Transactions Signal Processing, 2005,53(3) : 1070 - 1085.
  • 8Y Liu, Y Yang. W-function solution to MBER based power allocation for MIMO eigenmode transmission [ A]. In Proc IEEE, ICWC 2005 [ C]. Wuhan, China: IEEE Communications Society, 2005.77 - 80.
  • 9Z Y Yan,K M Wong,Z Q Luo,Optimal diagonal precoder for mulfiantenna communication systems [ J]. IEEE Transactions on Signal Processing, 2005,53 (6) : 2089 - 2100.
  • 10N Wang, S D Blostein, Minimum BER power allocation for MIMO spatial multiplexing systems [A]. In Proc IEEE ICC 2005 [C ]. Seoul, Korea: IEEE Communications Society, 2005. 2282 - 2286.

共引文献15

同被引文献17

  • 1唐万斌,张亮,李少谦.V-BLAST系统中采用发射功率分配的MMSE迭代软干扰抵消算法[J].电子与信息学报,2006,28(9):1640-1644. 被引量:4
  • 2Wolniansky P W,Foschini G J, Golden G D, et al. V- BLAST: An Architecture for Realizing Very High Data Rates over the Rich-scattering Wireless Channel I C~// Proceedings of 1998 URSI International Symposium on Signals, Systems, and Electronics. Pisa, Italy: IEEE Press, 1998:295-300.
  • 3Nam S H, Shin O S, Lee K B. Transmit Power Allocation for a Modified V-BLAST System E J ]. IEEE Transactions on Communications, 2004,52 ( 7 ) : 1074- 1080.
  • 4Zhang Rui, Cioffi J M. Approaching MIMO-OFDM Capacity with Zero-forcing V-BLAST Decoding and Optimized Power, Rate, and Antenna-mapping Feed- back[ J]. IEEE Transactions on Signal Processing,2008, 56(10) :5191-5203.
  • 5Kostina V, Loyka S. Optimum Power and Rate Allocation for Coded V-BLAST : Instantaneous Optimization ~ J ]. IEEE Transactions on Com- munications, 2011,59 ( 10 ) : 2841-2850.
  • 6Kuang Quan, Leung Shu Hung, Yu Xiangbin. Optimal Joint Spatial and Temporal Pimperfect CSI ~ J J. IEEE Transactions on Signal Processing, 2012,60 ( 6 ) ~ 3335- 3339.
  • 7Nguyen T N, Lai Xuan, Tran A. Performance Analysis of the V-BLAST Algorithm for MIMO-OFDMA Systems on Spatial Correlated Channels [ C l//Pro- ceedings of 2014 International Conference on Computing, Management and Telecommunications.Da Nang, Socialist Republic of Vietnam: E s. n. ] ,2014: 146-151.
  • 8Pillai V A, Sudhakar R. V-BLAST Detectors: Per- formance Investigation in Correlated Condition and Time Analysis I C ~//Proceedings of 2013 International Conference on Automation, Computing, Communication, Control and Compressed Sensing. Kottayam, India: IEEE Press ,2013:98-103.
  • 9Xu Rongtao, Zhong Zhangdui, Chen Jiannmou. Analytical Results of V-BLAST MIMO Systems with Two Transmit Antennas over Correlated Rayleigh Channels ~ C l//Proceedings of the 5th International Conference on Wireless Communications, Networking and Mobile Computing. Beijing, China: [ s. n. I , 2009: 1-5.
  • 10Shen Guoliang,Liu Shouyin,Jang Seong Hyun,et al. On the Capacity of MIMO-OFDM Systems with Doubly Correlated Channels [ C ]//Proceedings of the 66th IEEE Vehicular Technology Conference. Baltimore, USA: IEEE Press ,2007 : 1218-1222.

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电子与信息学报
2014年 第4期

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