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Power-Effective in the Cell Sectorization Using Wide-Beam and Narrow-Beam for Multi-hop Relay Network 被引量:1

Power-Effective in the Cell Sectorization Using Wide-Beam and Narrow-Beam for Multi-hop Relay Network
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摘要 Multi-hop relay is a significant topic in the wireless communication and it is provisioned in the 802.16j standards.At present,the major research on multi-hop relay is focused on the capacity,coverage,coordination,throughput,etc.But in this paper,a new concept about power-effective was discussed.Then,two power-effective coverage extension methods using two sectorized cellular approaches were introduced,i.e.,the widebeam three sector cell(WBTC) and the narrow-beam three sector cell(NBTC).Under such topologies,the consumption of power and optimal numbers of base stations(BSs) and relay stations(RSs) with respect to various user traffic densities were investigated.Finally,it is found that the performance of WBTC is better than NBTC. Multi-hop relay is a significant topic in the wireless communication and it is provisioned in the 802.16j standards.At present,the major research on multi-hop relay is focused on the capacity,coverage,coordination,throughput,etc.But in this paper,a new concept about power-effective was discussed.Then,two power-effective coverage extension methods using two sectorized cellular approaches were introduced,i.e.,the widebeam three sector cell(WBTC) and the narrow-beam three sector cell(NBTC).Under such topologies,the consumption of power and optimal numbers of base stations(BSs) and relay stations(RSs) with respect to various user traffic densities were investigated.Finally,it is found that the performance of WBTC is better than NBTC.
作者 仇润鹤 周立峰 金彦龄
机构地区 College of Information Science and Technology
出处 《Journal of Donghua University(English Edition)》 EI CAS 2011年第1期100-103,共4页 东华大学学报(英文版)
关键词 MULTI-HOP power-effective wide-beam three sector cell(WBTC) narrow-beam three sector cell(NBTC) 多跳跃;力量有效;宽横梁三个部门房间(WBTC ) ;狭窄横梁三个部门房间(NBTC ) ;
分类号 TN915 [电子电信—通信与信息系统]
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参考文献8

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同被引文献14

  • 1Qiao D, Mustafa C G, Senem V. Effective Capacity of Two-Hop Wireless Communication Systems [ J ]. IEEE Transactions on Information Theory, 2013, 59(2) : 873-885.
  • 2ParkvaU S, Anders F, Erik D. Evolution of LTE toward IMT- Advanced [ J ]. IEEE Communications Magazine, 2011,49 (2) : 84 -91.
  • 3Qiu R H, Xie Y H, Shen X W, et al. Design and Implementation of DSP: Based IEEES02 16a OFDM System [J]. Journal of Donghua University: English Edition, 2009, 20(1 ) : 62~98.
  • 4Fan Y, John T. MIMO Configurations for Relay Channels: Theory and Practice [ J ]. IEEE Transactions on Wireless Communications, 2007, 6(5) .. 1774-1786.
  • 5Millar A P, Stephan W, Robert W. THP Transceiver Design for MIMO Relaying with Direct Link and Partial CSI [ J ]. IEEE Communications Letters, 2013, 17(6): 1204-1207.
  • 6Jaa_far W, Wessam A, David H. Cognitive Radio Networks [ J ]. (11) : 1151-1162.
  • 7Adaptive Relaying Scheme for lET Communications, 2013, 7 Ikhlef A, Robert S. Joint Source-relay Design in Multi-antenna Multi-relay Networks with Prefixed Receivers [ C ]. Proceedings of International Conference on Communications ( ICC ), Budapest, Hungary, 2013 : 9-13.
  • 8Zhang M. Joint Optimization in Bidirectional Multi-user Multi- relay MIMO Systems: Non-Robust and Robust Cases [ J]. IEEE Transactions on Vehicular Technology, 2013, 62 ( 7 ) : 3228- 3244.
  • 9Love D J, Robert W H. Limited Feedback Unitary Precoding for Spatial Multiplexing Systems [ J ]. IEEE Transactions on Information Theory, 2005, 51(8): 2967-2976.
  • 10Huang Y. A Limited Feedback Joint Precoding for Amplify-and- Forward Relaying [ J ]. IEEE Transactions on Signal Processing, 2010, 58(3) : 1347-]357.

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Journal of Donghua University(English Edition)
2011年 第1期

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