分布式STBC-OFDM交织深度优化被引量：1

Optimal Interleaving Depth in STBC OFDM System with Distributed Transmit Antennas

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摘要该文在分布式发射天线场景下,考虑多径瑞利衰落信道,针对每个天线上分别采用交织分组子载波功率扩展的STBC-OFDM链路,提出了一种交织深度优化方法:根据分布式信道的多径数和多径时延,以最小化成对错误概率上界为目标,设置交织子载波分组的交织深度。在两发一收STBC,BPSK调制,由M.1225步行测试信道A,B组成的分布式场景下仿真,结果表明:当误比特率为10?3时,与传统方法相比,该文方法有1.5 dB的功率节省。 Focusing on the STBC OFDM system where transmit power of data symbols are spreading on interleaving-grouped subcarriers of each distributed transmit antenna in Rayleigh fading channel,an optimal method for interleaving depth is proposed.According to the number of channel taps and the multi-path delays,the method searches the optimal interleaving depth to minimize the pair-wise error probability.Simulation results in distributed channel which is composed by M.1225 pedestrian test channel A and channel B show that the proposed algorithm has 1.5 dB gain at BER of 10？ 3compared to conventional method using BPSK modulation in STBC system with two transmit antennas and one receive antenna.

作者官鹭邵士海唐友喜

机构地区电子科技大学通信抗干扰技术国家级重点实验室

出处《电子与信息学报》 EI CSCD 北大核心 2011年第5期1141-1146,共6页 Journal of Electronics & Information Technology

基金国家自然科学基金(60902027 60832007 60901018) 基金项目(9140A21030209DZ02) 中央高校基本科研业务费专项资金(ZYGX2009J008 ZYGX2009J010) 国家863计划项目(2009AA01Z236)资助课题

关键词无线通信空时分组码(STBC) 正交频分复用(OFDM) 分布式天线系统交织子载波分组 Wireless communication Space Time Block Coding（STBC） Orthogonal Frequency Division Multiplexing（OFDM） Distributed antenna system Interleaved subcarrier grouping

分类号 TN92 [电子电信—通信与信息系统]

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参考文献12

1Wang Z and Giannakis G.Complex-field coding for OFDM over fading wireless channels[J].IEEE Transactions on Information Theory,2003,49(3):707-720.
2Senthuran S,Anpalagan A,and Das O.A quasi-orthogonal space-frequency coded OFDM system with time spreading and constellation rotation[C].IEEE CCECE' 09,Newfoundland and Labrador,Cannda,Jun.2009:739-744.
3Liu Z,Xin Y,and Giannakis G.Linear constellation precoding for OFDM with maximum multipath diversity and coding gains[J].IEEE Transactions on Communication,2003,51(3):416-427.
4Tran N,Nguyen H,and Ngoc T.Subcarrier grouping for OFDM with linear constellation precoding over multipath fading channels[J].IEEE Transactions on Vehicular Technology,2007,56(6):3607-3613.
5Liu Z,Xin Y,and Giannakis G.Space-time-frequency block coded OFDM with subcarrier grouping and constellation precoding[C].IEEE ICASSP'02,Orlando,Florida,USA,Aug.2003:2205-2208.
6Papailiopoulos D and Karystinos G.Maximum-likelihood noncoherent OSTBC detection with polynomial complexity[J].IEEE Transaction on Wireless Communications,2010,9(6):1935-1945.
7Basilio D,Linde L,and Maharaj B.Uplink MC-DS-CDMA using ZCZ sequences for frequency-selective block-fading channels[C].IEEE AFRICON,Nairobi,Kenya,Sept.2009:1-6.
8席晓平,张灿.移动OFDM系统中的ICI消除算法研究[J].电子与信息学报,2009,31(3):653-656. 被引量：7
9Jorswieck E and Sez A.Impact of spatial correlation on the performance of orthogonal space-time block codes[J].IEEE Communications Letters,2004,8(1):21-23.
10任品毅,裴彬,王熠晨,汪瑞.频率选择性衰落信道中一种低复杂度的正交空时分组码译码算法[J].电子与信息学报,2009,31(6):1376-1380. 被引量：4

二级参考文献26

1董涛,尤肖虎.频率选择性衰落下一种基于迭代干扰抵消的空时分组码译码算法[J].通信学报,2006,27(10):94-99. 被引量：3
2Li Y and Stuber G. Orthogonal Frequency Division Multiplexing for Wireless Communications. New York: Springer Press, 2006: 8-28.
3ETS 300 744-1999. Digital Video Broadcasting (DVB): Framing structure, channel coding and modulation for digital terrestrial television, 1999.
4802.16e. Draft 12: Local and metropolitan area networks-part 16, air interface for fix broadband wireless access systems. IEEE 802.16 TGE Working Document, 2005.
5Choi Y S, Voltz P J, and Cassara F A. On channel estimation and detection for multicarrier signals in fast and selective Rayleigh fading channels. IEEE Trans. on Commun., 2001, 49(8): 1375-1387.
6Cai X and Giannakis G B. Bounding performance and suppressing intercarrier interference in wireless mobile OFDM. IEEE Trans. on Commun., 2003, 51(12): 2047-2056.
7Schniter P. Low-complexity equalization of OFDM in doubly selective channels. IEEE Trans. on Commun., 2004, 52(4): 1002-1011.
8Stamoulis A, Diffaci S N, and A1-Dhahir N. Intercarrier interference in MIMO OFDM. IEEE Trans. on Signal Processing, 2002, 50(10): 2451-2464.
9Jeon W G, Chang K H, and Cho Y S. An equalization technique for orthogonal frequency division multiplexing systems in time variant multipath channels. IEEE Trans. on Commun., 1999, 47(1): 27-32.
10Rugini L, Banelli P, and Lenus G. Low-complexity banded equalizers for OFDM systems in Doppler spread channels. EURASIP Journal on Applied Signal Process, 2006, (1): 1-13.

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1江开忠,李子成,顾君忠.基于用户兴趣的文本摘要方法研究[J].计算机应用,2007,27(2):459-462. 被引量：1
2江开忠,李子成,顾君忠.自动文本摘要方法[J].计算机工程,2008,34(1):221-223. 被引量：13
3李永慈,唐守正,徐松.线性度量误差模型的参数估计法与最小二乘法的关系[J].生物数学学报,2008,23(1):139-142. 被引量：6
4于剑桥,罗冠辰.求解广义特征值问题设计导弹H_∞增益调度自动驾驶仪[J].宇航学报,2008,29(3):957-961. 被引量：1
5李睿,宋土仓.热传导方程的均匀化方程的混合元方法[J].应用数学,2008,21(4):806-810.
6张贺,袁博.正规矩阵的几个等价条件[J].河北北方学院学报（自然科学版）,2009,25(1):9-13. 被引量：6
7任磊,王永良,陈辉,陈建文.基于DSP的SMI方法快速实现研究[J].国防科技大学学报,2009,31(3):53-59. 被引量：3
8王绪振,贺志强,牛凯,于光炜,吴伟陵.鲁棒线性预测编码器设计[J].北京邮电大学学报,2009,32(4):117-121. 被引量：1
9邱卫宁,齐公玉,田丰瑞.整体最小二乘求解线性模型的改进算法[J].武汉大学学报（信息科学版）,2010,35(6):708-710. 被引量：30
10张建华,曾建潮.采用分布估计算法计算AHP判断矩阵排序权重[J].计算机工程与应用,2010,46(27):25-28. 被引量：8

同被引文献12

1BAE K,ANDREWS J G,POWERS E J.Quantifying aninteractive clipping and filtering technique for reducingPAP in OFDM[J].IEEE Trans.on Wireless Communica-tions,2010,9(5):1558-1563.
2HOU J,GE J,ZHAI D,LI J.Peak-to-average power ra-tio reduction of OFDM signals with nonlinear compand-ing scheme[J].IEEE Trans.on Broadcast,2010,56(2):258-262.
3DAVIS J A,JEDWAB J.Peak-to-mean power control inOFDM Golay complementary sequences and Reed-Mull-er codes[J].IEEE Trans.on Information Theory,1999,45(7):2397-2417.
4TELLAMBURA C.Use of m-sequence for OFDM peak-to-average power ratio reduction[J].Electronics Letters,1997,33(15):15-16.
5LI C P,WANG S H,WANG C L.Novel low-complex-ity SLM schemes for PAPR reduction in OFDM sys-tems[J].IEEE Trans.on Signal Processing,2010,58(5):2916-2921.
6ZHOU Y,JIANG T.A novel Multi-Points square map-ping combined with PTS to reduce PAPR of OFDMsignals without side information[J].IEEE Trans.onBroadcast,2009,55(4):831-835.
7NAEINY M F,MARVASTI F.Selected mapping algo-rithm for PAPR reduction of space frequency codedOFDM systems without side information[J].IEEE Trans.on Vehicular Technology,2011,60(3):1211-1216.
8GOFF S Y,SAMAHI A,KHOO S B,et al.Selectedmapping without side information for PAPR reduction inOFDM[J].IEEE Transactions on Wireless Communica-tions,2009,8(7):3320-3325.
9SIEGL C,ROBERT F.Transmission and detection ofside information for selected mapping in MIMOOFDM[C].IEEE International ITG Workshop on SmartAntennas,2010:205-212.
10SIEGL C,FISCHER F H.Selected mapping with im-plicit transmission of side information using discretephase rotations[C].ITG and SCC,2010.

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3邬钢,陈明,程时昕.移动通信系统中空时格码的改进设计[J].电路与系统学报,2002,7(2):53-57. 被引量：1
4金伟奇.“随身听”的功率扩展[J].电子世界,1994(6):10-10.
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8钱致文,王家兵.不同场景下CDMA网络无线覆盖问题的解决[J].移动通信,2009(5):24-28. 被引量：5
9文凯,傅小玲,陈小洪.认知中基于业务和信道分级的分布式信道分配[J].计算机工程与设计,2012,33(9):3381-3385. 被引量：1
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分布式STBC-OFDM交织深度优化被引量：1

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分布式STBC-OFDM交织深度优化被引量：1