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无线传感网物理层协作分集的性能分析 被引量:3

Performance Analysis of Cooperative Diversity at PHY Layer in Wireless Sensor Networks
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摘要 该文针对无线传感网中的远距传输问题,研究了一种无需网络同步和正交信道的协作分集方法的性能,给出了在两种典型信道中当解码转发存在误差传播时远程目的节点的误码率及分集指数;分析了当转发节点间为白高斯信道时增加协作节点数能够提高目的节点性能的条件。研究结果表明,当转发节点间为白高斯信道时,只要转发节点处于正常工作点,增加节点数就能提高目的节点的性能;当转发节点间为瑞利平衰落信道时,只有当转发节点处于一定位置时,协作分集相对于直接发送或传统空间分集才有性能增益;当转发节点间为瑞利平衰落信道时增加跳数性能更好,为白高斯信道时增加分支数更有效;当转发节点间为瑞利平衰落信道时,误差传播将使目的节点的分集指数为1,但在较低信噪比条件下对分集性能影响很小。 In this paper, the performance of cooperative diversity for reach-back problem in wireless sensor networks is studied, in which network synchronization or orthogonal channels are not necessary. The bit error rate and diversity order of destination are respectively developed for two typical channels, considering the error propagation appeared in the decode-and-forward procedure. It's shown by the analysis that the increase of the node's number will improve the performance in destination if relays are at normal working point. To increase hop number is more effective for the scenario of AWGN channel among relays, while it is better to increase the number of branches when the channels among relays are Rayleigh fading. Cooperation diversity outperforms the direct transmission or the traditional spatio diversity if the relays are located in a certain region. Error propagation will reduce the diversity order of destination to 1, whereas almost has no influence on the diversity gain at the medium and low signal-noise-rate.
作者 陈贞贞 杨晨阳
机构地区 北京航空航天大学电子与信息工程学院
出处 《电子与信息学报》 EI CSCD 北大核心 2007年第11期2569-2573,共5页 Journal of Electronics & Information Technology
关键词 无线传感网 协作分集 误差传播 Wireless sensor networks Cooperative diversity Error propagation
分类号 TP393 [自动化与计算机技术—计算机应用技术]
  • 相关文献

参考文献12

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二级参考文献7

  • 1[1]W.R. Heinzelman, A.P. Chandrakasan, and H.Balakrishnan, "Energy-efficient communication protocol for wireless microsensor networks", in Proc. 33rd Hawaii int'l,Jan. 2000.
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同被引文献27

  • 1曾智慧,刘富强,陶健,李庆.IEEE 802.16 Mesh模式下MAC调度机制的研究[J].计算机工程与应用,2005,41(23):135-138. 被引量:12
  • 2赵贤敬,郑宝玉,钱小聪,傅洪亮.协作发射分集系统及其误码性能分析[J].通信学报,2007,28(1):40-48. 被引量:5
  • 3Akyildiz I F,Lee W Y,Vuran M C,et al.Next generation/dynamic spectrum access/cognitive radio wireless networks:A survey[J].Computer Networks,2006,50(5):2 127-2 159.
  • 4Ganesan G,Li Y G.Cooperative spectrum sensing in cognitive radio,partⅠ:two user networks[J].IEEE Transactionson Wireless Communications,2007,6(6):2 204-2 213.
  • 5Ganesan G,Li Y G.Cooperative spectrum sensing in cognitive radio,partⅡ:multi-user networks[J].IEEE Transac-tions on Wireless Communications,2007,6(6):2 214-2 222.
  • 6Quan Z,Cui S G,Sayed A H.Optimal linear cooperation for spectrum sensing in cognitive radio networks[J].IEEEJournal of Selected Topics in Signal Processing,2008,2(1):28-40.
  • 7Zhao Q,Sadler B M.A survey of dynamic spectrum access:signal processing,networking and regulatory policy[J].IEEE Signal Processing Magazine,2007,24(5):79-89.
  • 8Wang Q,Yang W.Energy consumption model for power management in wireless sensor networks,sensor,mesh and adhoc communications and networks[C].San Diego,USA.IEEE Press.Proceedings of the 4th Annual IEEE Communica-tions Society Conference,2007:142-151.
  • 9Hong Y W,Huang W J,Chiu F H,et al.Cooperative communications in resource-constrained wireless networks[J].IEEE Signal Processing Magazine,2007,24(5):47-57.
  • 10Cui S G,Goldsmith AJ,Bahai A.Energy-efficiency of MIMO and cooperative MIMO techniques in sensor networks[J].IEEE Journal on Selected Areas in Communications,2004,22(6):1 089-1 098.

引证文献3

电子与信息学报
2007年 第11期

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