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

两跳中继OFDMA蜂窝网络下行链路呼叫阻塞率分析 被引量:1

Analysis of Call Blocking Probability in Downlink of Two-Hop-Relay OFDMA Cellular Networks
下载PDF
导出
摘要 本文首先提出了一种分析OFDMA蜂窝网络下行链路呼叫阻塞率的方法,在此基础上进一步分析了加入两跳中继的OFDMA蜂窝网络呼叫阻塞率.OFDMA蜂窝网络的每个呼叫接入都需要随机数量的子载波来满足用户传输速率的需求,传统GSM及CDMA网络的容量分析方法不能应用到OFDMA网络系统中.本文根据用户对子载波的需求量,把接入用户分成不同的服务类型,以多维马尔可夫链为数学模型分别分析传统和两跳中继OFDMA蜂窝网络下行链路呼叫阻塞率,最终通过数值计算分析各种参数对系统性能的影响,数值分析结果表明加入中继后的两跳中继OFDMA蜂窝网络下行链路容量比传统网络有显著的提升. In this paper,a novel approach is presented to evaluate the call blocking probability in downlink of cellular Orthogonal Frequency Division Multiple Access( OFDMA) networks. Based on this analysis,call blocking probability in downlink of two-hop-relay OFDMA cellular networks is evaluated. Capacity analysis of traditional cellular networks like GSMand CDMA cellular networks cannot be applied to OFDMA cellular networks because for the latter every incoming call requires a random number of sub-carriers. In this paper,incoming calls are divided into classes according to their requirement for sub-carrier. Then,the traditional and relay OFDMA cellular network are modeled as the multi-dimensional Markov chain and their call blocking probability in downlink are evaluated. Finally,through numerical calculation,the impact of the various parameters on the performance is analyzed. This analysis shows that the capacity of OFDMA cellular networks which added relays has been greatly improved.
作者 鲁蔚锋 杨绿溪 吴蒙
机构地区 东南大学信息与工程学院 南京邮电大学计算机学院 南京邮电大学宽带无线通信与传感网技术教育部重点实验室
出处 《电子学报》 EI CAS CSCD 北大核心 2016年第2期340-347,共8页 Acta Electronica Sinica
基金 国家自然科学基金(No.61372101 No.61201176 No.61271018 No.61201160) 国家科技重大专项(No.2012ZX03004-005-003) 教育部博士点基金(No.20100092110010) 江苏省科技计划(No.BK20131377) 江苏省高校优秀中青年教师和校长境外研修计划
关键词 正交频分多址接入 两跳中继 下行链路 呼叫阻塞率 马尔可夫链 orthogonal frequency-division multiple access(OFDMA) two-hop-relay downlink call blocking probability Markov chains
分类号 TN929.5 [电子电信—通信与信息系统]
  • 相关文献

参考文献15

  • 1Zhu H,Wang J.Chunk-based resource allocation in OFDMA systems—part II:Joint chunk,power and bit allocation[J].Communications,IEEE Transactions on,2012,60(2):499-509.
  • 2Saquib N,Hossain E,Le L B,et al.Interference management in OFDMA femtocell networks:Issues and approaches[J].Wireless Communications,IEEE,2012,19(3):86-95.
  • 3Wigard J,Mogensen P,Johansen J,et al.Capacity of a GSM network with fractional loading and random frequency hopping.Personal,Indoor and Mobile Radio Communications,1996.PIMRC'96[C].IEEE,1996.2:723-727.
  • 4Arsehdogad M J,Ghorbani M.A new survey for capacity of CDMA systems.Information Science and Technology (ICIST),2012 International Conference on[C].IEEE,2012.889-892.
  • 5Elechi P,Biebuma J J,Elagauma P.Estimating CDMA capacity and performance in mobile network[J].International Journal of Engineering and Technology,2013,3(1).
  • 6Joshi G,Maral H,Karandikar A.Downlink Erlang capacity of cellular OFDMA.2011 National Conference on Communications (NCC)[C].Bangalore,India:IEEE Computer Society,2011.1-5.
  • 7Sung-Yeon Kim,Jeong-Ahn Kwon,Jang-Won Lee.Resource allocation for the multi-cell OFDMA system and its capacity bounds.Modeling & Optimization in Mobile,Ad Hoc & Wireless Networks (WiOpt)[C].Tsukuba Science City,Japan:IEEE Computer Society,2013.326-332.
  • 8Cheng-Xiang Wang,Haider F,et al.Cellular architecture and key technologies for 5G wireless communication networks[J].Communications Magazine,IEEE,2014,52(2):122-130.
  • 9Wen J,Sheng M,Wang X,jiandong L,Sun H.On the capacity of downlink multi-hop heterogeneous cellular networks[J].IEEE Transactions on Wireless Communications,2014(99):1-7.
  • 10Wang H,Xiong C,Iversen V B.Uplink capacity of multi-class IEEE 802.16j relay networks with adaptive modulation and coding.Communications,2009[C].IEEE,2009:1-6.

二级参考文献15

  • 1Fan B, Wu W, and Zheng K. Proportional fair-based joint subcarrier and power allocation in relay-enhanced orthogonal frequency division multiplexing systems[J]. IET Communications, 2010, 4(10): 1143 1152.
  • 2Hu J and Chert X. Performance analysis of amplify-and- forward non-fixed relays cooperative network with relay selection[J]. Journal of Computational Information Systems, 2010, 6(9): 2901 2908.
  • 3Qi Z, Zhang J, and Shao C. Power ailocation for regenerative relay channel with Rayleigh fading[C]. IEEE Conference on Vehicular Teehnolog, Milan, May 2004:1167 1171.
  • 4Yu G, Zhang Z, and Chen Y. Power allocation for non- regenerative OFDM relaying channels[C]. IEEE International Conference on Wireless Comnmnications Networking and Mobile Comptting, Istanbui, Sept. 2005: 185-188.
  • 5HammerstrSm I and Wittneben A. On the optimal power allocation for nonregenerative OFDM relay links[C]. IEEEInternational Conference on Communications, Istanbul, June 2006: 4463-4468.
  • 6Zhou N, Zhu X, and Huang Y. Optimal resource allocation for orthogonal frequency division multiplexing-based multi- destination relay systems[J]. IET Communications, 2011, 5(14): 2075-2081.
  • 7Zhang X, Jiao W, and Tao M. End-to-end resource allocation in OFDM based linear multi-hop networks[@ IEEE TraTzsactions on CommunicatioTzs, 2009, 57(10): 3034 3044.
  • 8Fu Y and Zhu Q. Subcarrier and power allocation in OFDM-based relaying system[J]. Journal of Computational Information Systems, 2012, 7(21): 5013-5020.
  • 9Weng L and Murch R. Cooperation strategies and resource allocations in multiuser OFDMA systems[J]. IEEE Transactions on Vehicular Technology, 2009, 58(6): 2331 2342.
  • 10Mahboobi B and Ardebilipour M. Interference aware resource allocation in orthogonal frequency-division multiple access- based relay networks[J]. IET Communications, 2012, 6(11): 1364-1373.

共引文献1

同被引文献6

引证文献1

电子学报
2016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