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基于对偶分解的OFDMA系统资源分配算法 被引量:3

A Dual-decomposition-based Resource Allocation Algorithm for OFDMA Systems
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摘要 该文针对多业务OFDMA系统资源分配问题,建立了考虑业务服务质量、数据到达、系统约束的最优化问题。分析了不同业务的速率约束、延时约束和队列长度之间的关系,并利用对偶分解方法将原问题分解为若干独立子问题,分别得到了最优资源块与最优功率分配规则,进而提出了基于对偶分解的最优资源分配算法。仿真结果表明,该算法在业务违反概率较低、公平性较好、算法复杂度略有上升的情况下,可以实现非实时业务吞吐量最大化。 The resource allocation issue in multi-services OFDMA systems is formulated by taking Quality of Service (QoS) requirement, data arrival process, system constraints into account. The relations among the traffic rate constraint, latency constraint and the queue length are analyzed. The original issue is decomposed into some independent sub-problems by dual decomposition scheme. The optimal resource blocks allocation scheme and optimal power allocation scheme can be obtained and a Dual Decomposition Based (DDB) optimization resource allocation algorithm is proposed. Simulation results show that total throughput maximum for non-real-time services is achieved by employing DDB algorithm with low service violation probability, nice fairness and slightly increased algorithm complexity.
作者 左勇 刘学勇 刘海洋 陈杰
机构地区 中国科学院微电子研究所
出处 《电子与信息学报》 EI CSCD 北大核心 2012年第12期2843-2849,共7页 Journal of Electronics & Information Technology
基金 国家973计划项目(2009CB320304)资助课题
关键词 正交频分多址接入(OFDMA) 资源分配 最优化 对偶分解 OFDMA Resource allocation Optimization Dual decomposition
分类号 TN92 [电子电信—通信与信息系统]
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参考文献13

  • 1IEEE Computer Society and the IEEE Microwave Theory and Techniques Society. IEEE std 802.16m, standard for local and metropolitan area networks -- part 16: air interface for broadband wireless access systems[S]. IEEE, 2011.
  • 2Wang X and Giannakis G B. Resource allocation for wireless multiuser OFDM networks[J]. IEEE Transactions on Information Theory, 2011, 57(7): 4359-4372.
  • 3Wong C Y, Cheng R S, Letaief K B, et al.. Multiuser OFDM with adaptive subcarrier, bit, and power allocation[J]. IEEE Journal on Selected Areas Communications, 1999, 17(10): 1747-1758.
  • 4Jang J and Lee K B. Transmit power adaptation for multiuser OFDM systems[J]. IEEE Journal on Selected Areas Communications, 2003, 21(2): 171-178.
  • 5Tao M X, Liang Y C, and Zhang F. Resource allocation for delay differentiated traffic in multiuser OFDM systems[J]. IEEE Transactions on Wireless Communications, 2008, 7(6): 2190-2201.
  • 6Zhang D H, Wang Y Z, and Lu J H. QoS aware relay selection and subcarrier allocation in cooperative OFDMA systems[J]. IEEE Communications Letters, 2010, 14(4): 294-296.
  • 7Ng D W K and Schober R. Resource allocation and scheduling in multi-cell OFDMA systems with decode- and-forward relaying[J]. IEEE Transactions on Wireless Communications, 2011, 10(7): 2246-2258.
  • 8Gao N and Wang X. Optimal subcarrier-chunk scheduling for wireless OFDMA systems[J]. IEEE Transactions on Wireless Communications, 2011, 10(7): 2116-2123.
  • 9Poggioni M, Rugini L, and Banelli P. QoS analysis of a scheduling policy for heterogeneous users employing AMC jointly with ARQ[J]. IEEE Transactions on Communications, 2010, 58(9): 2639-2652.
  • 10Hui D S W, Lau V K N, and Lam W H. Cross-layer design for OFDMA wireless systems with heterogeneous delay requirements[J]. IEEE Transactions on Wireless Communications, 2007, 6(8): 2872-2880.

同被引文献28

  • 1Wang Bei-bei,Liu K J R. Advances in cognitive radio networks:a survey[J].IEEE Journal of Selected Topics in Signal Processing,2011,(01):5-23.
  • 2Parsaeefard S,Sharafat A R. Robust distributed power control in cognitive radio networks[J].IEEE Transactions on Mobile Computing,2013,(04):609-620.
  • 3Bai Bo,Chen Wei,Cao Zhi-gang. Max-matching diversity in OFDMA systems[J].IEEE Transactions on Communications,2010,(04):1161-1171.
  • 4Bai Bo,Chen Wei,Letaief K B. Diversity-multiplexing tradeoff in OFDMA systems:an H-matching approach[J].IEEE Transactions on Wireless Communications,2011,(11):3675-3687.
  • 5Chiang M,Tan C W,Palomar D P. Power control by geometric programming[J].IEEE Transactions on Wireless Communications,2007,(07):2640-2651.
  • 6Qian Li-ping,Zhang Ying-jun,Huang Jian-wei. MAPEL:achieving global optimality for a non-convex wireless power control problem[J].IEEE Transactions on Wireless Communications,2009,(03):1553-1563.
  • 7Qian Li-ping,Ying Jun. Monotonic optimization for non-concave power control in multiuser multicarrier network systems[A].Rio de Janeiro,Brazil,2009.172-180.
  • 8Phuong N T H,Tuy H. A unified monotonic approach to generalized linear fractional programming[J].Journal of Global Optimization,2003,(03):229-259.
  • 9Ngo D T,Le-Ngoc T. Distributed resource allocation for cognitive radio Ad-Hoc networks with spectrum-sharing constraints[A].Miami,USA,2010.1-6.
  • 10Lovász L,Plummer M D. Matching Theory[M].USA:American Mathematical Soc,2009.357-379.

引证文献3

二级引证文献11

电子与信息学报
2012年 第12期

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