跨层自适应无线资源分配方案

Cross-layer adaptive wireless resource allocation scheme

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摘要提出了一种新的跨层自适应资源分配方案,该方案不仅考虑了业务数据到达的随机特性、数据缓存队列状态、业务时延等MAC层的QoS要求,还考虑了无线信道的时变特性和功率限制,并通过自适应技术实现了系统性能的优化.仿真结果显示,该方案提高了系统频谱效率、功率效率和系统容量,可以满足多用户实时业务的QoS要求,是一种适用于时变选择性衰落信道的资源分配方案. A new cross-layer adaptive resource allocation scheme for real time services under a fading wireless communication system was proposed, arrival, limited buffers and QoS requirements at MAC time-varying in considevation of not only the random service layer, but also the wireless channel characteristics, and end-to-end system performance was improved the thanks to adaptive process. The algorithm （CLARA） was composed of two parts： adaptive scheduling and adaptive subcarrier-power allocation. The adaptive scheduling controlled the order in which packets from different users were served according to traffic QoS requirements, such as packet delay, buffer status as well as CSI. The second part dynamically allocated suhcarriers and the corresponding transmission power to users according to scheduling results, traffic QoS requirements, such as BER and the BS power constraint. Thus, the system performance could be improved by sufficient exploiting of time diversity, frequency diversity and multiuser diversity. Simulation results show that the CLARA algorithm has about 7dB gain when the throughput, which was defined as successfully received packets in a frame, began to stablize compared to fixed subcarrier-power allocation. The performance of normalized packet delay, which was defined as the ratio of total packets delayed in simulation with the total simulation times, was also significantly improved by the algorithm.

作者侯华周武旸

机构地区中国科学技术大学电子工程与信息科学系

出处《中国科学技术大学学报》 CAS CSCD 北大核心 2006年第11期1221-1226,共6页 JUSTC

基金国家自然科学基金(60496314) 中国高技术研究发展(863)计划(2003AA12331003)资助

关键词跨层自适应资源分配调度子载波功率联合分配多用户OFDM系统 cross-layer adaptive resource allocation scheduling subcarrier-power allocation multiuser OFDM system

分类号 TN929.5 [电子电信—通信与信息系统]

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参考文献16

1Berry R A,Yeh E M.Cross-layer wireless resource allocation:fundamental performance limits for wireless fading channels[J].IEEE Signal Processing Magazine,2004,21(5):59-68.
2Shakkotai S,Rappaport T S,Karlsson P C.Crosslayer design for wireless networks[J].IEEE Communications Magazine,2003,41(10):74-80.
3Cimini L J.Analysis and simulation of a digital mobile channel using orthogonal frequency-division multiplexing[J].IEEE Transactions on Communications,1985,33(7):665-675.
4Bingham J A C.Multicarrier modulation for data transmission:an idea whose time has come[J].IEEE Transactions on Communications,1990,28(5):5-14.
5梁晓雯,朱近康.OFDM系统中不同调制方式抗多径干扰的性能分析[J].中国科学技术大学学报,2004,34(2):196-201. 被引量：2
6Cheong Y W,Cheng R S,Lataief K B.Multiuser OFDM with adaptive subcarrier,bit,and power allocation[J].IEEE J.on Select Areas.Commun.,1999,17(10):1747-1758.
7Cheong Y W,Tsui C Y,Cheng R S.A real-time subcarrier allocation scheme for multiple access downlink OFDM transmission[C] // IEEE VTS 50th Vehicular Technology Conference.Amsterdam.1999,2:1124-1128.
8Goodman D J,Wei S X.Efficiency of packet reservation multiple access[J].IEEE Trans.on Veh.Tech.,1991,40(1):170-176.
9Nanda S,Goodman D J,Timor U.Performance of PRMA:a packet voice protocol for cellular systems[J].IEEE Trans.on Veh.Tech.,1991,40(3):584-598.
10Cao Y,Li V O K.Scheduling algorithms in broadband wireless networks[J].IEEE Proc.2001,89(1):76-87.

二级参考文献13

1Mosier R R, Clabaugh R G. Kineplex. A bandwidth efficient binary transmission systme[J]. AIEE Trans , 1958,76(1) :723-728.
2Schmidl M Timothy, Cox C Donald. Robust frequency and timing synchronization for OFDM[J]. IEEE Trans Comm, 1997,45.(12) :1 613-1 621.
3Larsson G Erik, Liu Guoqing, Li Jian, et al.Joint symbol timing and channel estimation for OFDM based WLANs [ J ]. IEEE Communications letters, 2001,5 (8) :325-327.
4Lawrey E, Kikkert C J. Peak to average power ratio reduction of OFDM signals USING peak reduction carriers[ A]. Proceedings of the Fifth International Symposium on Signal Processing and Its Applications [ C] , Brisbane: The Signal Processing Research Centre, 1999.737-740.
5Wong C Y, Cheng S Roger, 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) : 1 747-1 758.
6Lawrey Eric. The suitability of OFDM as a modulation technique for wireless telecommunications with a CDMA comparison [ EB/OL].http ://www. eng. jcu. edu. au, 1997.
7Nee R V, Prasad R. OFDM for Wireless Multimedia Communications [ M ]. London : ArtechHouse, 2000.
8Cimini J Leonard. Analysis and simulation of a digital mobile channel using orthogonal frequency division multiplexing[J].IEEE Trans On Comm , 1985, 33(7) :665-675.
9Casas F Eduardo, Leung C. OFDM for data communication over mobile radio FM channels-Part I : Analysis and experimental results[J]. IEEE Trans On Comm , 1991, 39(5) :783-793.
10Koukourgiannis A, Miaoudakls A, Kalivas G.Performance of an OFDM transceiver for radio transmission in industrial multipath environments [ A ], Vehicular Technology Conference[C], VTC 2001 Spring, 2001. 805-809.

共引文献1

1陈朝阳,孙娇燕.OFDM-CDMA系统干扰分析[J].大连海事大学学报,2005,31(3):77-79.

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2徐雷,管宇,徐建中.MIMO-OFDM系统自适应资源分配研究[J].数据通信,2008(4):27-29.
3古达文,周冰.CoMP-JT中预编码与功率联合分配算法[J].光通信研究,2015(2):71-75.
4黄天聪,胡幻,冯文江.OFDMA协同通信系统子载波和功率联合分配算法[J].电路与系统学报,2013,18(2):139-144.
5刘立阳,张景川,吴至真.一种快速OFDM比特、功率分配方案[J].通信技术,2008,41(12):117-119. 被引量：2
6许威,赵春明,巩晓群,张立.MIMO-OFDM系统中的比特和功率联合分配算法[J].电子与信息学报,2007,29(9):2203-2207. 被引量：2
7章坚武,金露,许晓荣.一种兼顾速率公平的多用户子载波功率联合分配算法[J].电信科学,2013,29(4):57-61. 被引量：1
8惠毅,周志杰,张文强,黄炳刚,赵陆文.一种多用户MIMO OFDM系统中的跨层自适应资源分配算法[J].兰州大学学报（自然科学版）,2008,44(S1):234-238. 被引量：1
9李默,徐友云,吴连国,刘忠军.一种认知无线电资源分配系统级仿真平台[J].系统仿真学报,2012,24(4):799-803.
10李黎,朱光喜,肖啸,石婧.OFDM下行链路的跨层自适应传输算法[J].华中科技大学学报（自然科学版）,2005,33(9):22-25. 被引量：1

中国科学技术大学学报

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跨层自适应无线资源分配方案

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