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混合分集多天线系统基于相关性的分析信道建模

海凛 张业荣 潘灿林

混合分集多天线系统基于相关性的分析信道建模

海凛, 张业荣, 潘灿林
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  • 在考虑正交极化子信道之间相关性的前提下,指出传统分析模型无法体现极化方向对相关性的影响,并提出一种新的建模理论对传统模型进行修改补充;然后指出传统模型中使用天线在距离分集和极化分集情况下的相关系数来计算混合分集情况下的相关系数是一种不够准确的近似方法,提出直接利用天线处于混合分集情况下的统计数据进行建模,这种新的模型可以准确复现子信道间的相关系数,满足高精度的需求.
    • 基金项目: 国家重点基础研究发展计划(批准号:2007CB310603)资助的课题.
    [1]

    Wang H S, Zeng G H 2008 Chin. Phys. B 17 4451

    [2]

    Kim J, Choi J 2010 Microw. Opt. Techn. Let. 52 13

    [3]

    Tarchi D, Oliveri F, Sammartino P F 2012 IEEE Trans. Geo. Rem. Sens. 51 425

    [4]

    Xiao H L, Ouyang S, Lie Z P 2009 Acta Phys. Sin. 58 3685 (in Chinese) [肖海林, 欧阳缮, 聂在平 2009 物理学报 58 3685]

    [5]

    Xiao H L, Ouyang S, Lie Z P 2009 Acta Phys. Sin. 58 6779 (in Chinese) [肖海林, 欧阳缮, 聂在平 2009 物理学报 58 6779]

    [6]

    Tang M C, Xiao S Q, Guan J, Bai Y Y, Gao S S, Wang B Z 2010 Chin. Phys. B 19 070214

    [7]

    Nguyen H T, Andersen J B, Pedersen G F 2004 IEEE PIMRC 15th Barcelona, Spain September 5–8, 2004 p1827

    [8]

    Carrasco H, Feick R, Hristov H D 2007 Microw. Opt. Techn. Let. 49 1754

    [9]

    Erceg V, Sampath H, Catreux-Erceg S 2006 IEEE Trans. Wireless Commun. 5 28

    [10]

    Wang X, Du Z W, Gong K 2009 Microw. Opt. Techn. Let. 51 348

    [11]

    Anreddy V R, Ingram M A 2006 IEEE WCNC Las Vegas, USA April 3–6 p946

    [12]

    Anreddy V R 2006 M. S. Dissertation (Atlanta: Schools of Earth and Atmospheric Sciences & Chemical and Biomolecular Engineering)

    [13]

    Lozano A, Tulino A M, Verdu S 2003 IEEE Trans. Infor. Theory 49 2527

    [14]

    Coldrey M 2008 IEEE VTC2008 Marina Bay, Singapore May 11–14 p440

    [15]

    Hai L, Zhang Y R 2012 Acta Phys. Sin. 61 180101 (in Chinese) [海凛, 张业荣 2012 物理学报 61 180101]

    [16]

    Kottennan W, Sommerkorn G, Thomä R 2006 ISWCS 2006 Valencia, Spain September 6–8 p505

    [17]

    Oestges C, Clerckx B 2007 MIMO wireless communications: from real-word propagation to spacetimecode design (Oxford: Academic Press) p79

    [18]

    Zheng X Y, Lindskog E 2009 Asilomar’09 Proceedings of the 43rd Asilomar conference on Signals, systems and computers Piscataway, USA September 24–26 p1407

    [19]

    Svantesson T 2001 IEEE VTC-F 2001 Atlantic City, USA October 7–11 p1083

    [20]

    Svantesson T 2002 IEEE VTC-F 2002 Vancouver, Canadian September 24–28 p691

    [21]

    Shafi M, Zhang M, Moustakas A L 2006 IEEE Journal on Selected Areas. Commun. 24 514

    [22]

    Loredo S, Rodrguez-Alonso A, Torres R P 2008 IEEE Trans. Veh. Technol. 57 680

  • [1]

    Wang H S, Zeng G H 2008 Chin. Phys. B 17 4451

    [2]

    Kim J, Choi J 2010 Microw. Opt. Techn. Let. 52 13

    [3]

    Tarchi D, Oliveri F, Sammartino P F 2012 IEEE Trans. Geo. Rem. Sens. 51 425

    [4]

    Xiao H L, Ouyang S, Lie Z P 2009 Acta Phys. Sin. 58 3685 (in Chinese) [肖海林, 欧阳缮, 聂在平 2009 物理学报 58 3685]

    [5]

    Xiao H L, Ouyang S, Lie Z P 2009 Acta Phys. Sin. 58 6779 (in Chinese) [肖海林, 欧阳缮, 聂在平 2009 物理学报 58 6779]

    [6]

    Tang M C, Xiao S Q, Guan J, Bai Y Y, Gao S S, Wang B Z 2010 Chin. Phys. B 19 070214

    [7]

    Nguyen H T, Andersen J B, Pedersen G F 2004 IEEE PIMRC 15th Barcelona, Spain September 5–8, 2004 p1827

    [8]

    Carrasco H, Feick R, Hristov H D 2007 Microw. Opt. Techn. Let. 49 1754

    [9]

    Erceg V, Sampath H, Catreux-Erceg S 2006 IEEE Trans. Wireless Commun. 5 28

    [10]

    Wang X, Du Z W, Gong K 2009 Microw. Opt. Techn. Let. 51 348

    [11]

    Anreddy V R, Ingram M A 2006 IEEE WCNC Las Vegas, USA April 3–6 p946

    [12]

    Anreddy V R 2006 M. S. Dissertation (Atlanta: Schools of Earth and Atmospheric Sciences & Chemical and Biomolecular Engineering)

    [13]

    Lozano A, Tulino A M, Verdu S 2003 IEEE Trans. Infor. Theory 49 2527

    [14]

    Coldrey M 2008 IEEE VTC2008 Marina Bay, Singapore May 11–14 p440

    [15]

    Hai L, Zhang Y R 2012 Acta Phys. Sin. 61 180101 (in Chinese) [海凛, 张业荣 2012 物理学报 61 180101]

    [16]

    Kottennan W, Sommerkorn G, Thomä R 2006 ISWCS 2006 Valencia, Spain September 6–8 p505

    [17]

    Oestges C, Clerckx B 2007 MIMO wireless communications: from real-word propagation to spacetimecode design (Oxford: Academic Press) p79

    [18]

    Zheng X Y, Lindskog E 2009 Asilomar’09 Proceedings of the 43rd Asilomar conference on Signals, systems and computers Piscataway, USA September 24–26 p1407

    [19]

    Svantesson T 2001 IEEE VTC-F 2001 Atlantic City, USA October 7–11 p1083

    [20]

    Svantesson T 2002 IEEE VTC-F 2002 Vancouver, Canadian September 24–28 p691

    [21]

    Shafi M, Zhang M, Moustakas A L 2006 IEEE Journal on Selected Areas. Commun. 24 514

    [22]

    Loredo S, Rodrguez-Alonso A, Torres R P 2008 IEEE Trans. Veh. Technol. 57 680

  • 引用本文:
    Citation:
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  • 文章访问数:  1578
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  • 被引次数: 0
出版历程
  • 收稿日期:  2013-07-01
  • 修回日期:  2013-08-20
  • 刊出日期:  2013-12-05

混合分集多天线系统基于相关性的分析信道建模

  • 1. 南京邮电大学电子科学与工程学院, 南京 210003
    基金项目: 

    国家重点基础研究发展计划(批准号:2007CB310603)资助的课题.

摘要: 在考虑正交极化子信道之间相关性的前提下,指出传统分析模型无法体现极化方向对相关性的影响,并提出一种新的建模理论对传统模型进行修改补充;然后指出传统模型中使用天线在距离分集和极化分集情况下的相关系数来计算混合分集情况下的相关系数是一种不够准确的近似方法,提出直接利用天线处于混合分集情况下的统计数据进行建模,这种新的模型可以准确复现子信道间的相关系数,满足高精度的需求.

English Abstract

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