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V-BLAST系统中采用发射功率分配的MMSE迭代软干扰抵消算法

唐万斌 张亮 李少谦

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.
引用本文: 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.
Tang Wan-bin, Zhang Liang, Li Shao-qian. MMSE Iterative Soft Interference Cancellation Algorithm Using Transmit Power Allocation Scheme in V-BLAST System[J]. Journal of Electronics & Information Technology, 2006, 28(9): 1640-1644.
Citation: Tang Wan-bin, Zhang Liang, Li Shao-qian. MMSE Iterative Soft Interference Cancellation Algorithm Using Transmit Power Allocation Scheme in V-BLAST System[J]. Journal of Electronics & Information Technology, 2006, 28(9): 1640-1644.

V-BLAST系统中采用发射功率分配的MMSE迭代软干扰抵消算法

MMSE Iterative Soft Interference Cancellation Algorithm Using Transmit Power Allocation Scheme in V-BLAST System

  • 摘要: 作为一种软输入软输出的MIMO检测算法,MMSE迭代软干扰抵消算法在MIMO Turbo接收机中得到广泛的关注。为了进一步改善系统性能,采用链路自适应方案是很好的选择。该文给出变发射功率的MMSE迭代软干扰抵消算法,并采用了一种有效的发射功率分配方案,只需要很少的控制信令,就可以获得较大的误码率性能改善。通过没有信道编译码的链路仿真,在4发4收QPSK调制的V-BLAST系统中,如果误码率要求为BER=10-3,MMSE迭代软干扰抵消检测算法迭代次数为2时,采用推荐的发射功率分配方案比不采用发射功率分配方案的系统性能提高了约2dB,如果调制方式为16QAM,系统性能提高了约6dB。
  • Foschini G J, Gans M J. On limits of wireless communications in a fading environment when using multiple antennas. Wireless Personal Communication, 1998, 6(5): 315-335.[2]Tarokh V, Naguib A, Seshadri N. Combined array processing and space-time coding[J].IEEE Trans. on Information Theory.1999, 45(5):1121-1128[3]Raleigh G G, Cioffi J M. Spatio-temporal coding for wireless communication[J].IEEE Trans. on Communications.1998, 46(3):357-366[4]Wolniansky 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. Proceedings of the URSI International Symposium on Signals, Systems and Electronics, Pisa, Italy, Sept.-Oct. 1998: 295-300.[5]Arogyaswami Paulraj, Rohit Nabar, Dhananjay Gore. Introduction to Space-Time Wireless Communications. United Kingdom: Cambridge University Press, 2003: 121-235.[6]Golden G D, Foschini C J, Valenzuela R A, et al.. Detection algorithm and initial laboratory results using V-BLAST space-time communication architecture[J].Electronics Letters.1999, 35(1):14-16[7]Takumi Ito, Wang Xiaodong, Kakura Yoshikazu, et al.. Performance comparison of MF and MMSE combined iterative soft interference canceller and V-BLAST technique in MIMO/OFDM systems. IEEE Vehicular Technology Conference 2003 Fall, 2003, 1: 488-492.[8]Wautelet Xavier, Dejonghe Antoine, Vandendorpe Luc. MMSE-based fractional Turbo receiver for space-time BICM over frequency-selective MIMO fading channels[J].IEEE Trans. on Signal Processing.2004, 52(6):1804-1809[9]Sellathurai Mathini, Haykin Simon. Turbo-BLAST for wireless communications: Theory and experiments[J].IEEE Trans. on Signal Processing.2002, 50(10):2538-2546[10]Goldsmith A J, Varaiya P. Capacity of fading channels with channel side information[J].IEEE Trans. on Information Theory.1997, 43(11):1986-1992[11]Chung S T, Goldsmith A J. Degrees of freedom in adaptivemodulation: a unified view[J].IEEE Trans. on Communications.2001, 49(12):1561-1571[12]Nam S H, Shin O S, Lee K B. Transmit power allocation for a modified V-BLAST system. IEEE Trans. on Communications. 2004, 52(7): 1074-1079.
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出版历程
  • 收稿日期:  2004-12-17
  • 修回日期:  2005-08-04
  • 刊出日期:  2006-09-19

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