期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

基于OFDM星载交换的星地下行链路子载波分配与峰均比抑制联合优化方法 被引量:1

Joint Optimization of Downlink Subcarrier Allocation and PAPR Reduction for OFDM Based on-board Switching Scheme
下载PDF
导出
摘要 提出了一种基于OFDM的全新星载交换方案,此星载交换方案可通过星上子载波交换实现业务交换。以点波束星地下行链路为研究对象,结合跨层设计思想,提出了一种适用于点波束星地下行链路的子载波分配和峰均比抑制方法。此方法可根据点波束星地下行链路信号发射功率上限、当前点波束星地下行链路信道状态、每个星地下行链路传输业务目的地和QoS要求,并结合抑制点波束星地下行链路OFDM信号的峰均比,实现在属于不同地面设备的各个星地下行链路传输业务之间自适应分配子载波,实现充分利用点波束星地下行链路资源、满足传输业务的QoS要求,同时抑制星地下行链路OFDM信号的峰均比,而且不会因抑制星地下行链路OFDM信号的峰均比而增加额外的边带信息和传输功率。 A novel OFDM based on-board switching scheme has been proposed, which can achieve service switching, by on- board sub-carrier switching. This paper focuses on the satellite spot beam downlinks, and proposes a joint optimization method of downlink sub-carrier allocation and PAPR reduction. In this method, sub- carriers can be allocated adaptively to the services of different user terminals according to the current downlink channel state information, transmit power limit, service destinations, QoS requirements, and PAPR of the downlink OFDM signal. Simulation results show that the proposed melhod can satisfy the QoS requirements and reduce the PAPR to the utmost without extra side information and transmit power.
作者 党军宏 周坡 曹志刚
机构地区 清华大学电子工程系
出处 《宇航学报》 EI CAS CSCD 北大核心 2010年第2期448-456,共9页 Journal of Astronautics
关键词 正交频分复用 星载交换 星地下行链路 子载波分配 峰均比抑制 OFDM On-board Switch Downlink Sub-cartier allocation PAPR reduction
分类号 TN919.72 [电子电信—通信与信息系统]
  • 相关文献

参考文献13

  • 1FERNANDO W A C, RAJATHEVA R M A P. Performance of COFDM for LEO satellite channels in global mobile communications [ C]//IEEE Vehicular Technology Conference, 1998 : 1503 - 1507.
  • 2LEI W, DUBEY V K. Performance of frequency and time domain coded OFDM over fast fading LEO channels[ C]//IEEE/AFCEA EUROCOM : hfformation Systems for Enhanced Public Safety and Security, 2000:179- 183.
  • 3JIN Y K. Turbo-coded OFDM system for a mobile satellite broadcasting system[ C ]//IEEE Vehicular Technology Conference, 2001 : 2945- 2949.
  • 4党军宏,晏坚,曹志刚.一种基于OFDM和跨层设计的星载交换方案[J].宇航学报,2009,30(3):1086-1094. 被引量:7
  • 5WEN W K, ZHOU Y P. Transmit beam-tracking algorilhm in FDD DMA cellular wireless system[J]. IEE Electronics Letter, 2004, 40 (13): 814- 816.
  • 6Ferez Fontan P, Vazquez Castro M A, Enjamio Cabado C, Pita J. Garcia statistical modelling of the LMS channel[ J]. IEEE Transactions on Vehicular Technology, 2001, 50:1549 - 1567.
  • 7Scalise S, Mura R, Mignone V. Air interfaces for satellite based digital TV broadcasting in the railway environment[J]. IEEE Transactions on Broadcasting, 2006, 52(2) : 158 - 166.
  • 8Scalise S, Ernst H, Harles G. Measurement and modelling of the land mobile satellite channel at ku-band[J]. IEEE Transactions on Vehicular Januray, 2008.
  • 9Ortgies G, Rucker F, Dintelmann F, Jakoby R. Effect-specific analysis of propagation parameters[ C]//Proc. 16th NASA Propagat. Experimenters Meeting (NAPEXXVI) ACTS Propagat Studies Miniworkshop, Houston, 1992: 143- 154.
  • 10Zhang G. Subcarrier and bit allocation for real-time services in multiuser OFDM systems[C]// IEEE ICC'04, Paris, France, 2004:2895 - 2989, 20 - 24.

二级参考文献14

  • 1FERNANDO W A C,RAJATHEVA R M A P.Performance ofCOFDMfor LEO~tellite chazmels in g10bal mobile comnmnications[C]//IEEE Vehicular Technolc6y Conference,1998:1503-1507.
  • 2LEI W.DUBEY V K.Performance of frequency and time domain-coded OFDM over fast fading LEO channels[C]//IEEE/AFCEA EUROCOM:Information Systems for Enhanced Public Safety and Security,2000:179-183.
  • 3JIN Y K.Turbo-coded OFDM system for a mobile satellite broadcasting system[C]//IEEE Vehicular Technology Conference,2001:2945-2949.
  • 4Coleri S,Ergen M,Puri A,Bahai A.Channel estimation techniques based on pilot arrangement in OFDM systems[J].IEEE Trans.OnBroadcasting,2002,48(3):223-229.
  • 5Kim Y H,Hahm Y K,Jung H J.An efficient fiequency offset estimator for timing and frequency synchronization in OFDM systems[C].IEEE Pacific Rim Conference on Communications,Computer and Signal Processing,Victoria,BC,Canada,22-24 Aug 1999:580-583.
  • 6Van de Beek J J,Sandell M P O,Borjesson.ML estimation of time and frequency offset in OFDM systems[J].IEEE Trans.On Signal Processing,1997,45(7):1800-1805.
  • 7Chen Biao.ML estimation of OFDM carrier frequency offset[J].IEEE Signal Processing Letters,2002,9(4):123-126.
  • 8Kimura R,Funada R,Harada H.Performance evaluation of time alignment control under high-mobility environment for dynamic parameter controlled OF/TDMA[J].IEICE Trans.on Communication,2005,E88-B(2):541-551.
  • 9Van de Beek J J,Berjesson P O,Boucheret M L,Landstrom D,Arenas J M,Odling P,Ostberg C,Wahlqvist M,and Wilson S K.A time and frequency synchronization scheme for multiuser OFDM[J].IEEE J.Sel.Areas Commun,1999,17(11):1900-1914.
  • 10Armstrong J.New OFDM peak-to-average power reduction scheme[C]// Proc.IEEE 53rd Veh.Tech.Conf,May 2001(1):756-760.

共引文献6

同被引文献7

  • 1J A Davis and J Jedwab. Peak - to - mean power control in OFDM, golay complementary sequences, and Reed- Muller codes [J]. IEEE Trans. Inf. Theory, 1999,45(7):2397-2417.
  • 2S H Muller et al. OFDM with reduced peak - to - average power ratio by multiple signal representation [ J ]. Ann. Telecommun, 1997,52(1 -2) :58 -67.
  • 3DW Lira, J S No, C WLim and H Chung. A new PTS OFDM with low complexity for PAPR reduction[ J]. IEEE Trans. Broadcast. , 2006,52( 1 ) :77 -82.
  • 4DWLim, J S No, C WLimand H Chung. AnewSLM OFDM with low complexity for PAPR reduction[ J]. IEEE Signal Processing Lett, 2005,12(2) :93 -95.
  • 5J Benko, et al. A PHY/MAC proposal for IEEE 802.22 WRAN systems. IEEE 802.22 -06/0003r3, 2006.
  • 6何少源,何海浪.一种简化的OFDM信道估计方法[J].计算机仿真,2010,27(2):332-334. 被引量:6
  • 7雷鸣,周力,谢瑶.OFDM系统自适应资源算法研究[J].计算机仿真,2010,27(4):197-200. 被引量:2

引证文献1

二级引证文献1

宇航学报
2010年 第2期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部