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中继辅助的MIMO系统联合最优的功率分配研究 被引量:6

Investigation on Joint Optimal Power Allocation for MIMO Systems Assisted by Relay
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摘要 本文对中继辅助的多输入多输出(MIMO)系统中信源与中继的联合最优功率分配问题进行了研究.首先,基于系统容量最大化准则提出相应代价函数,并证明了该代价函数仅仅对于部分参数是凸的,而对于全局参数是非凸的.然后,通过推导系统容量的下界,给出了一个新的代价函数,从而将非凸问题转化为一个联合凸优化问题.最后,利用凸优化方法获得了联合功率分配问题的全局最优解.计算机仿真表明,与现有方案相比,所提方案获得了更好的吞吐量性能. The joint optimal power allocation(PA) problem is investigated for the MIMO system enhanced by relay in this paper.Firstly,based on the maximization of the capacity,a cost function is formulated for the joint PA optimization,where the cost function thus obtained is proved to be only convex with respect to the partial parameters but not convex with respect to the whole parameter.Secondly,a modified cost function is obtained by derived a tight lower bound of the capacity,and thus the original nonconvex problem is converted into a convex problem.Finally,a global optimum is obtained by using the convex optimization methods for the joint power allocation problem.It is confirmed through computer simulations that the proposed PA scheme outperforms the existing method in terms of the capacity.
作者 李春国 赵睿 仲崇显 杨绿溪
机构地区 东南大学信息科学与工程学院 东南大学水声信号处理教育部重点实验室
出处 《电子学报》 EI CAS CSCD 北大核心 2010年第10期2214-2218,共5页 Acta Electronica Sinica
基金 国家973重点基础研究发展规划(No.2007CB310603) 国家自然科学基金(No.61071113 No.60672093 No.60702029) 国家863高技术研究发展计划(No.2007AA01Z262) 国家科技重大专项(No.2009ZX03003-004)
关键词 多输入多输出 中继 功率分配 凸优化 multiple-input multiple-output(MIMO) relay power allocation convex optimization
分类号 TN911.5 [电子电信—通信与信息系统]
  • 相关文献

参考文献12

  • 1Cover T M,El Gamal A A.Capacity theorems for the relay channel[J].IEEE Transactions on Information Theory,1979,25(5):572-584.
  • 2Paulraj A,Nabar R,Dhananjay.Introduction to Space-Time Wireless Communications[M].Combridge U K:Cambridge University Press,2003.
  • 3Jafar S A,Gomadam K S,Huang C.Duality and rate optimization for multiple access and broadcast channels with amplify-and-forward relays[J].IEEE Transactions on Information Theory,2007,53(10):3350-3370.
  • 4Wang B,Zhang J,Host-Madsen A.On the capacity of MIMO relay channels[J].IEEE Transactions on Information Theory,2005,51(1):29-43.
  • 5Bolcskei H,Nabar R U,Oyman O,Paulraj A J.Capacity scaling laws in MIMO relay networks[J].IEEE Transactions on Wireless Communications,2006,5(6):1433-1443.
  • 6Hasna M O,Alouini M S.Optimal power allocation for relayed transmissions over Rayleigh-fading channels[J].IEEE Transactions on Wireless Communications,2004,3(6):1999-2004.
  • 7Zhang J,Zhang Q,Shao C,Wang Y,Zhang Z.Adaptive optimal transmit power allocation for two-hop non-regenerative wireless relay system .IEEE Vehicular Technology Conference Proceedings .Genoa,2004,2.1213-1217.
  • 8Yi Z,Kim I.Joint optimization of relay-precoders and decoders with partial channel side information in cooperative networks[J].IEEE Journal on Selected Areas in Communications,2007,25(2):447-458.
  • 9Tang X,Hua Y.Optimal design of non-regenerative MIMO wireless relays[J].IEEE Transactions on Wireless Communications,2007,6(4):1398-1407.
  • 10W Guan,H Luo.Joint MMSE transceiver design in non-regenerative MIMO relay systems[J].IEEE Communications Letters,2007,12(7):517-519.

二级参考文献11

  • 1Tao Xiaofeng, Yu Zhuizhuan, Qin Haiyan, Zhang Ping, et al. New sub-optimal detection algorithm of layered space-time code [A]. In Proc. IE, EE Vehicular Technology Conference[C]. Birmingham, U. S. A. : VTC 2002-Spring, 2002,4:1791 - 1794.
  • 2Zhang Ping, Tao Xiaofeng,Zhang Jianhua,et al.A vision from FUTURE beyond 3G TDD[J ]. 1EEE Communication Magazine, Jan. 2005,43 ( 1 ) : 38 - 44.
  • 3A Nosratinia, A Hedayat. Cooperative communication in wireless networks[ J]. IEEE Communications Magazine, Oct. 2004, 42(10) :74 - 80.
  • 4R Pabst, B H Walke, D C Schultz. Relay-based deployment concepts for wireless and mobile broadband radio [ J ]. IEEE Communications Magazine, Sep. 2004,42(9) : 80 - 88.
  • 5Li Guoqing, Liu Hui. On the capacity of the broadband relay networks[A]. In Conference Record - Asilomar Conference on Signals, Systems and Computers[ C]. Pacific Grove, CA, USA, 1F.EE Press, 2004,2: 1318 - 1322.
  • 62hang Jingmei, Shao Chunju, Wang Ying, et al. Performance of a two-hop cellular system with different power allocation schemes[ A ]. In Proc. IEEE Vehicular Technology Conference VTC 2004-Fall[ C ]. Los Angeles, U. S. A. : IEEE Press, 2004, 60(6) :4538 - 4542.
  • 7Zhang Jingmei, Zhang Qi, Shao Chunju, et al. Adaptive optimal transmit power allocation for two-hop non-regenerative wireless relaying system [A]. IEEE Vehicular Technology Conference VTC 2004-Spring [C ]. Los Angeles, U. S. A. : IEEE Press, 2004,2:1213 - 1217.
  • 8Zhang Qi, Zhang Jingmei, Shao Chunju, et al. Power allocation for regenerative relay channels with Rayleigh fading [ A ]. In Proc.IEEE Vehicular Technology Conference VTC 2004-Fall [C]. Los Angeles, U. S. A. : IEEE Press, 2004, 2:1167 - 1171.
  • 9Yu Guanding,Zhang Zhaoyang, Chen Yan, et al. Power allocation for non-regenerative OFDM relaying channels [A ]. In Proc. Wireless Communications Networking and Mobile Computing [C]. Wuhan, China: 1EEE Press, 2005,1 : 185 - 188.
  • 10I Hammerstrom, A Wittneben. On the optimal allocation for nonregenemtive OFDM relay links[ A]. In Prec. IEEE International Conference on Communications, ICC 2006 [ C ]. Istanbul, Turkey: IEEE. Press,2006, 10:4463 - 4468.

共引文献4

同被引文献41

  • 1J N Laneman, D N C Tse, G W Womell. Cooperative diversity in wireless networks: efficient protocols and outage behavior [J] .IEEE Transactions on Information Theory,2004,50( 12): 3062 - 3080.
  • 2C G Li, X Yang, L X Yang, W P Zhu. A joint source and relay power allocation scheme for a class of MIMO relay systems [J]. IEEE Transactions on Signal Processing, 2009, 57 (12) : 4852 - 4860.
  • 3M O Hasna, M S Alouini. A performance study of dual-hop transmissions with fixed gain relays[ J]. IEEE Transactions on Wireless Communication, 2004,3 (6) : 1963 - 1968.
  • 4M O Hasna, M S Alouini. End-to-end performance of transmission systems with relays over Rayleigh-fading channels [J]. IEEE Transactions on Wireless Communication, 2003, 2 ( 6 ) : 1126- 1131.
  • 5H Min, S Lee, K Kwak, et al. Effect of multiple antennas at the source on outage probability for amplify-and-forward relaying systems[J]. IEEE Transactions on Wireless Communication, 2009,8(2) :633 - 637.
  • 6M O Hasna,M S Alouini. Harmonic mean and end-to-end performance of transmission systems with relays[ J]. IEEE Transactions on Commtmication, 2004,52( 1 ) : 130 - 135.
  • 7D B Costa, M D Yacoub. Dual-hop transmissions with semiblind relays over Nakagami-m fading channels[ J]. Electronics Letters, 2008,44(3) :214 - 216.
  • 8B Maham, A Hjorungnes. Asymptotic performance analysis of amplify-and-forward cooperative networks in a nakagami-m fading environment[ J]. IEEE Communication Letter, 2009, 13 (5) :300 - 302.
  • 9M K Simon,M S Alouini. Digital Communication over Fading Channels[M]. New York: Wiley, 2000.
  • 10I S Gradshteyn, I M Ryzhik. Table of Integrals, Series, and Products, 6th ed[ M]. San Diego, CA: Academic, 2000.

引证文献6

二级引证文献30

电子学报
2010年 第10期

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