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OFDMA无线多跳蜂窝网中的节能型资源分配策略 被引量:1

Energy Saving Resource Allocation Scheme in OFDMA-Based Multi-hop Cellular Networks
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摘要 为在基于正交频分多址接入技术的无线多跳蜂窝网中实现节能型资源分配,将无线多跳蜂窝网描述为树形分层拓扑结构,规定了该结构中的奇数层和偶数层节点在系统奇时隙和偶时隙中的发送-接收关系,建立了可同时适用于奇时隙和偶时隙的基于系统总发射功率的优化目标函数,并确定了包括链路比例公平因子等限制条件.考虑到难以得到实际系统最优解,在尽量减少计算复杂度的前提下,提出了一种次优化分配策略,使系统总发射功率最小化.仿真结果表明,与基于正交频分复用的时分多址接入等传统固定资源分配方法相比,运用本文提出的资源分配策略可使系统的总发射功率减少约1.5 dB,并能保持各条链路的比例公平性. A hierarchical tree topology of orthogonal frequency division multiple access(OFDMA)-based multi-hop cellular network was proposed to reduce energy assumption in resource allocation.The timing of transmitting and receiving for the nodes in odd and even layers is defined.The objective is to reduce the total system transmitting power,and the objective function can be applied in odd and even timeslots.The most important one among the constraints is link proportional fairness.A suboptimal resource allocation scheme was proposed to minimize total system transmitting power with lower computation complexity.Simulation results shown that,compared to traditional resource allocation scheme such as OFDM-TDMA,the proposed scheme reduced total system transmitting power by 1.5 dB while keeping proportional fairness among wireless links.
作者 向征 方旭明 徐鹏
机构地区 西南交通大学信息编码与传输四川省重点实验室 中国民航飞行学院空中交通管理学院
出处 《西南交通大学学报》 EI CSCD 北大核心 2011年第5期787-792,共6页 Journal of Southwest Jiaotong University
基金 国家自然科学基金资助项目(60772085) 铁道部科技研究开发计划重点课题(2009X009-E)
关键词 无线多跳蜂窝网 正交频分多址接入 节能 资源分配 优化 wireless multi-hop cellular network OFDMA energy saving resource allocation optimization
分类号 TN929.5 [电子电信—通信与信息系统]
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参考文献15

  • 1PABST R, BERNHARD W H, DANIEL S C, et al. Relay-based deployment concepts for wireless and mobile broadband radio[ J ]. IEEE Communication Magazine, 2004 ; 42 (9) : 80-89.
  • 2OYMAN O. OFDM A. A centralized resource allocation policy for cellular multi-hop networks[ C]///Proc. of 2006 40th Asilomar Conference on Signals, Systems and Computers. Pacific Grove: [ s. n. ], 2006: 656-660.
  • 3KERNAL K, JOSEPH K H, MURALI K, et al. Crosslayer optimization for OFDMA-based wireless mesh backhaul networks[ C]//Proc. of 2007 IEEE Wireless Communications and Networking Conference. Hong Kong: [s. n. ] , 2007: 276-281.
  • 4CHEONG Y W, ROGER C S, LETAIEF K B, et al. Multiuser OFDM with adaptive subcarrier, bit, and power allocation[ J]. IEEE Journal on Selected Areas in Communications, 1999, 17(10): 1747-1758.
  • 5YOON J P, KIM W J, BAEK J Y, et al. Efficient uplink resource allocation for power saving in IEEE 802. 16 OFDMA systems[C]//Proc, of 2008 IEEE 67th Vehicular Technology Conference. Singapore : [ s. n. ]. 2008: 2167-2171.
  • 6SADR S, ANPALAGAN A, RAAHEMIFAR K. Radio resource allocation algorithms for the downlink of multiuser OFDM communication systems[J]. IEEE, 2009, 11(3) : 92-106.
  • 7WONG I C. SHEN Zukang, EVANS B L, et al. A low complexity algorithm for proportional resource allocation in OFDMA systems [ C ]// Proc. of The IEEE 2004 Workshop on Signal Processing Systems. Austin: [ s. n. ], 2004: 1-6.
  • 8SHEN Zukang, EVANS B L, ANDREWS J G. Adaptive resource allocation in muhiuser OFDM systems with proportional rate constraints[J]. IEEE Transaction on Wireless Communications, 2005, 4 (6) : 2726-2737.
  • 9XU Wenjun, NIU Kai, HE Zheqiang. A probabilistic channel quantization scheme based on max-snr resource allocation in muhiuser OFDM systems[J]. IEEE Communications Letters, 2008, 12 (6) : 435-437.
  • 10TAO Meixia, LIANG Yingchang, ZHANG Fan. Resource allocation for delay differentiated traffic in multiuser OFDM systems [ J ]. IEEE Wireless Communications, 2008, 7 (6) : 2190-2201.

二级参考文献12

  • 1沈强,方旭明.基于帧投递率的无线Mesh网络DSR路由协议[J].西南交通大学学报,2007,42(2):200-205. 被引量:4
  • 2AKYILDIZ I F,WANG Xudong,WANG Weilin.Wirelessmesh networks:a survey[J].Computer Networks,2005,47(4):445-487.
  • 3LAN/MAN Standards Committee.IEEE Std 802.11rTM-2008 IEEE standard for information technology-telecommunications and information exchange between systems-local and metropolitan area networks-specific requirements-part 11:wireless LAN medium access control (MAC) and physical layer (PHY) specifications:amendment 2:fast BSS transition[S].New York:IEEE Computer Society,2008.
  • 4LAN/MAN Standards Committee.IEEE P802.11sTM/D5.0-2010 IEEE draft standard for information technology-telecommunications and information exchange between systems-local and metropolitan area networks-specific requirements-part 11:wireless LAN medium access control (MAC) and physical layer (PHY) specifications:amendment 10:mesh networking[S].New York:IEEE Computer Society,2010.
  • 5MANODHAM T,LOYOLA L,ATOCHE G,et al.A seamless handoff scheme with new AP module for wireless LANs support VoIP[C]∥International Symposium on Applications and the Internet (SAINT 2006).Phoenix:IEEE Press,2006.
  • 6MISHRA A,SHIN M,ARBAUGH W,et al.An empirical analysis of the IEEE802.11 MAC layer handoff process[R].College Park:The University of Maryland,2002.
  • 7AMIR Y,DANILOV C,HILSDALE M.et al.Fast handoff for seamless wireless mesh networks[C]∥Proc.of ACM the 4th International Conference on Mobile Systems,Applications and Services (MobiSys06).New York:ACM,2006:83-95.
  • 8NAVDA V,KASHYAP A,DAS S R.Design and evaluation of iMesh:an infrastructure-mode wireless mesh network[C]∥Proc.of Sixth IEEE International Symposium on World of Wireless Mobile and Multimedia Networks (WoWMoM 2005).Taormina:IEEE Press,2005:164-170.
  • 9HUNG Y W,KIM S,GANGULY S,et al.Seamless handoff support in wireless mesh networks[C]∥Proc.of First Workshop on Operator Assisted (Wireless Mesh) Community Networks(WOACN 2006).Berlin:IEEE Press,2006:1-8.
  • 10PACK S,JUNG H,KWON T,et al.A selective neighbor caching scheme for fast handoff in IEEE802.11 wireless networks[C]∥Proc.of 2005 IEEE International Conference on Communications.Seoul:IEEE Press,2005,5:3599-3603.

共引文献9

同被引文献16

  • 13GPP IMT-Advanced Workshop. Further advancements for EUTRA:physical layer aspects[S].Valbonne:3GPP Organizational Press,2009.
  • 2IEEE 802.16 Working Group. IEEE P802.16j/D6Draft amendment to IEEE standard for local and metropolitan area networks-partl6:air interface for fixed and mobile broadband wireless access systems:multihop relay specification[M].New York:IEEE Press,2008.
  • 3SANG W K,WONJIN S,JU W J. Enhanced throughput and QoS fairness for two-hop IEEE 802.16j relay networks[J].Journal of Communications and Networks,2011,(01):32-42.
  • 4LIANG Min,LIU Fang,CHEN Zhe. A novel frequency reuse scheme for OFDMA based relay enhanced cellular networks[A].Barcelona:IEEE Press,2009.1-5.
  • 5KANEKO M,POPOVSKI P. Radio resource allocation algorithm for relay-aided cellular OFDMA system[A].Glasgow:IEEE Press,2007.4831-4836.
  • 6MICALLEF G,MOGENSEN P,SCHECK H O. Cell size breathing and possibilities to introduce cell sleep mode[A].Lucca:IEEE Press,2010.111-115.
  • 7RITESH M,JABER B,ASHWIN S. Cell association and interference coordination in heterogeneous LTE-A cellular networks[J].IEEE Journal on Selected Areas in Communications,2010,(09):1479-1489.
  • 8YANG Zexi,NIU Zhisheng. A new relay based dynamic load balancing scheme in cellular networks[A].Ottawa:IEEE Press,2010.1-5.
  • 9BAEK H,JANG J W. Dynamic frame scheduling with load balancing for IEEE 802.16j[A].Nanjing:IEEE Press,2009.1-5.
  • 10IEEE 802.16 Working Group. IEEE 802.16m system description document (SDD)[S].New York:IEEE Press,2009.

引证文献1

二级引证文献6

西南交通大学学报
2011年 第5期

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