Performance of Physical-Layer Network Coding in Asymmetric Two-Way Relay Channels 被引量：3

物理层网络编码在非对称双向中继通信中的性能(英文)

下载PDF

导出

摘要 In this paper, we study the performance of physical-layer network coding in asymmetric two-way relay channels using four different cases having different poor channels:phase asymmetry, downlink asymmetry, uplink asymmetry and node asymmetry. The decision and mapping rule for symmetric and asymmetric cases are studied. The performance in terms of bit error rate for each case will be studied and analysed by computer simulation. Analytical and simulation results show that uplink asymmetry is the worst case;intra-phase asymmetry and unreliable uplink channels will more severely affect the performance degradation, which is caused by channel asymmetry. In this paper, we study the performance of physical-layer network coding in asy- mmetric two-way relay channels using four different cases having different poor channels： phase asymmetry, downlink asymmetry, uplink asymmetry and node asymmetry. The decision and mapping rule for symmetric and asymmetric cases are studied. The performance in terms of bit error rate for each case will be studied and analysed by computer simulation. Analytical and simulation results show that uplink asymmetry is the worst case; intra-phase asymmetry and unreliable uplink channels will more severely affect the performance degradation, which is caused by channel asymmetry.

作者李博王钢 Peter H.J.Chong 杨洪娟 Yongliang GUAN 沙学军

机构地区 Communication Research Center Communication Research Center School of Electrical and Electronic Engineering

出处《China Communications》 SCIE CSCD 2013年第10期65-73,共9页 中国通信（英文版）

基金 supported by the National Natural Science Foundation of China under Grant No.61101248 the Equipment Advance Research Projectof"Twelfth Five-Year"Plan under Grant No.51306040202 And this work has been performed in the Project"Advanced Communication Research Program(ACRP)"supported by the Directorate of Research and Development,Defense Science and Technology Agency,Singapore under Grant No.DSOCL04020

关键词 physical-layer network coding two-way relay channels asymmetric channels bit error rate 不对称性中继信道网络编码物理层性能上行链路计算机模拟比特错误率

分类号 TN911.22 [电子电信—通信与信息系统]

引文网络
相关文献

参考文献15

1ALSWEDE R, CAl Ning, LI S Y R, et al. Network Information Flow[J]. IEEE Transactions on Information Theory, 2000,46 (4): 1204-1216.
2LI S Y R, YEUNG R W, CAl Ning. Linear Network Coding[J]. IEEE Transactions on Information Theory, 2003, 49 (2): 1204-1216.
3FASOLO E, ROSSI M, WIDMER J, et al. A Proactive Network Coding Strategy for Pervasive Wireless Networking[C]// Proceedings of IEEE Global Telecommunication Conference 2007 (GLOBECOM'07): November 26-30, 2007. Washington, D.C., USA. IEEE Press, 2007: 5271- 5276.
4KATT! S, RAHUL H, HU Wenjun, et al. XORs in the Air: Practical Wireless Network Coding[J]. IEEE/ACM Transaction on Networking, 2008, 16(3): 497-510.
5SENGUPTA S, RYANCHU S, BANERJEE S. Network Coding-Aware Routing in Wireless Networks[J]. IEEE Transactions on Networking, 2010, 18(4): 1158-1170.
6SHANNON C E. Two-Way Communication Cha- nnels[C]// Proceedings of 4th Berkeley Symposium on Mathematical Statics and Probability: June 20-July 30, 1960. Berkeley, USA, 1960, 1: 611-644.
7RANKOV R, WITNEBEN A. Achievable Rate Regions for the Two-Way Relay Channel[C]// Proceedings of IEEE International Symposium on Information Theory (ISIT 2006): July 9-14,2006. Seattle, USA. IEEE Press, 2006: 1668-1672.
8ZHANG Sheng Ii, LIEW S C, LAM P P. Hot Topic: Physical-Layer Network Coding[C]// Proceedings. of the 12th Annual International Conference on Mobile Computing and Networking (MobiCom'06): September 24-29, 2006. New York, USA. ACM Press, 2006: 358-365.
9POPOVSKI P, YOMO H. The Anti-Packets Can Increase the Achievable Throughput of a Wireless Multi-Hop Network[C]// Proceedings of IEEE International Conference on Communications (ICC06): June 11-15, 2006. Istanbul, Turkey. IEEE Press, 2006: 3885-3890.
10ZHANG Shengli, LIEW S C, LU Lu. PhysicalLayer Network Coding Schemes over Finite and Infinite Fields[ClI/ Proceedings of IEEE Global Communications Conference (GLOBECOM'08): November 30-December 4, 2008. New Orleans, USA. IEEE Press, 2008: 1-6.

二级参考文献35

1ZHANG S,LIEW S C,LAM P P.Physical layer network coding. IEEE Transactions on Networking .
2XUE F,LIU C H,SANDHU S.MAC-layer and PHYlayer Network Coding for Two-way Relaying: Achievable Rate Regions and Opportunistic Scheduling. Proceedings of the 45th Annual Allerton Conference on Communication,Control,and Computing . 2007
3SCHNURR C,OECHTERING T J,STANCZAK S.On Coding for the Broadcast Phase in the Two Way Relay Channel. Proceedings of the 41st Annual Conference on Information Sciences and Systems . 2007
4HAUSL C,HAGENAUER J.Iterative Network and Channel Coding for the Two Way Relay Channels. Proceedings of the IEEE International Conference on Communications . 2006
5CUI T,GAO F F,TELLAMBURA C.Differential Modulation for Two-way Wireless Communications: A Perspective of Differential Network Coding at the Physical Layer. IEEE Transactions on Communications . 2009
6LO E S,LETAIEF K B.Network Coding Versus Superposition Coding for Two-Way Wireless Communication. Proceedings of the Wireless Communications and Networking Conference . 2009
7ZHANG R,HANZO L.Physical-layer Algebraic Network Coding and Superposition Coding for the Multi-Source Cooperation Aided Uplink. Proceedings of the IEEE Vehicular Technology Conference . 2009
8ZHAN R,LIANG Y C,CHAI C C,et al.Optimal Beamforming for Two-way Multi-antenna Relay Channel with Analogue Network Coding. IEEE Journal on Selected Areas in Communications . 2009
9POPOVSKI P,YOMO H.Wireless Network Coding by Amplify-and-forward for Bi-directional Traffic Flows. Communications Letters,IEEE . 2007
10DING Z,RATNARAJAH T,LEUNG K K.On the Study of Network Coded AF Transmission Protocol for Wireless Multiple Access Channels. IEEE Transactions on Wireless Communications . 2009

同被引文献27

1SUJIT P B, BEARD R.Multiple UAV exploration of an unknown region[J].Annals of Mathematics and Artificial Intelligence, 2008,52 (2-4) : 335-366.
2ISCOLD P, PEREIRA G A S,TORRES L A B, et al. Development of a hand-launched small UAV for ground reconnaissance[J].IEEE Transactions on Aerospace and Electronics Systems, 2010,46 ( 1 ) : 335- 348.
3CERASOLI C.An analysis of unmanned airborne vehicle relay coverage in urban environments[C].IEEE Military Communications Conference, 2007 : 1-7.
4ZHAN P C,YU K, SWINDLEHURST A L.Wireless relay communications with unmanned aerial vehicles: performance and optimization[J].IEEE Transactions on Aerospace and Electronics Systems, 2011 , 47 (3) : 2068 - 2085.
5ZHANG S,LIEW S C ,LAM P P.Hot topic :physical-layer network coding[C].ACM MobiCom ' 06, Calfomia, 2006 : 358-365.
6VAZE R, HEATH R.On the capacity and diversity- multiplexing tradeoff of the two-way relay channel[J]. IEEE Transactions on Information Theory, 2011,57(7): 4219-4234.
7COVER T and GAMA A. Capacity theorems for the relay channel[J]. IEEE Transactions on Information Theory, 1979, 25(5): 572-584.
8AHLSWEDE R, LI S R, YEUNG R W, et al. Network information flow[J]. IEEE Transactions on Information Theory, 2000, 46(4): 1204-1216.
9LI S R, YEUNG R W, and CAIN. Linear network coding[J]. IEEE Transactions on Information Theory, 2003, 49(2): 371-381.
10WU Y, CHOU P A, and KUNG S Y. Information exchanging in wireless networks with network coding and physical layer broadcast[R]. Redmond: Microsoft Research, 2004.

引证文献3

1袁全盛,胡永江,王长龙.无人机通信中的非对称物理层网络编码研究[J].电子技术应用,2015,41(12):90-93. 被引量：2
2唐猛,陈建华,张艳,张榆锋.基于分层调制的物理层网络编码研究[J].电子与信息学报,2016,38(10):2568-2574. 被引量：6
3方太彬,唐猛,陈庆豪,陈建华,曾国峰.非对称调制下物理层网络编码系统设计及性能分析[J].云南大学学报（自然科学版）,2022,44(2):246-253. 被引量：1

二级引证文献9

1徐栋,杨敏,王新胜,孙昕雨.无人机组网技术在海洋观测中的应用研究[J].海洋科学,2018,42(1):45-51. 被引量：4
2王强,杨俊波,冉耀宗,石维.基于晶格量化异构网络视频联合信源信道编码[J].电子技术应用,2018,44(4):108-112. 被引量：1
3王国仲,余梦佳.物联网协作通信中混合编码调制方法研究[J].广东通信技术,2019,39(3):21-25. 被引量：2
4张亚鹏,唐猛,李海华,谢灵运,陈建华.物理层网络编码与LDPC码联合系统设计及性能优化[J].云南大学学报（自然科学版）,2020,42(1):28-35. 被引量：4
5唐猛,李海华,谢灵运,陈建华.多中继物理层网络编码系统加密设计及安全性能研究[J].云南大学学报（自然科学版）,2021,43(4):652-662. 被引量：14
6方太彬,唐猛,陈庆豪,陈建华,曾国峰.非对称调制下物理层网络编码系统设计及性能分析[J].云南大学学报（自然科学版）,2022,44(2):246-253. 被引量：1
7张晨星,宋丕伟,岳泽锴,王亮,刘羽婷.基于喜鹊的多鸟类统一运动机构设计与实验[J].科技创新与应用,2022,12(23):53-56.
8秦怀军,曹阳,彭小峰,张祖鹏.分层调制联合物理层网络编码下协作自由空间光通信系统的误码率性能[J].激光与光电子学进展,2023,60(17):126-133. 被引量：1
9周明纯.舰载超短波电台编码调制可靠性测试研究[J].环境技术,2024,42(5):19-25.

1华增斌.第三代移动通信(3G)概览[J].黑龙江科技信息,2004(5):33-33.
2李惊蛰,师向东.MODBUS协议在不可靠信道中的应用[J].电气传动自动化,2003,25(5):51-52. 被引量：5
3袁建国,李璋超,马骏,王永,林金朝,庞宇.A novel TS-EIA-PTS PAPR reduction algorithm for optical OFDM systems[J].Optoelectronics Letters,2015,11(5):375-378. 被引量：1
4袁剑锋,王伟.Turbo解码的算法改进及其定点仿真[J].计算机仿真,2005,22(8):91-94. 被引量：1
5元超,郑宝玉,池新生.异步双向中继信道的物理层网络编码[J].重庆邮电大学学报（自然科学版）,2012,24(5):540-543. 被引量：2
6陈晨,程海川,依那,项海格.物理层网络编码在数据会聚无线自组织网络中的容量增益研究[J].电子与信息学报,2010,32(8):1932-1937. 被引量：1
7宋雪桦,胡光锐,唐斌.重叠变换在扩频通信系统抗干扰中的应用[J].上海交通大学学报,2001,35(6):842-844. 被引量：5
8王金龙,王钢,郑黎明,王海龙,刘法.MIMO-PNC中继系统的信道容量研究[J].无线电工程,2015,45(10):16-18.
9ZHOU Yuzhe AI Bo.Quality of Service Improvement for High-Speed Railway Communications[J].China Communications,2014,11(11):156-167. 被引量：1
10Xican Yang,Jian Li,Changliang Xie,Li Li.Throughput Gain of Random Wireless Networks with Physical-Layer Network Coding[J].Tsinghua Science and Technology,2012,17(2):161-171. 被引量：3

China Communications

2013年第10期

浏览历史

内容加载中请稍等...