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无线通信英文参考文献精选

2024-07-02 20:11:15参考文献 学术堂 秦老师
近年来,干扰以及干扰抑制技术研究已逐渐成为无线通信研究领域中的一个热点。尤其是面对极端恶劣通信环境中微弱信号检测时,无线通信抗干扰技术研究和应用具有重要的现实意义和工程价值。我们在这里为你提供了一些无线通信英文参考文献,供你借鉴参考。无线
  近年来,干扰以及干扰抑制技术研究已逐渐成为无线通信研究领域中的一个热点。尤其是面对极端恶劣通信环境中微弱信号检测时,无线通信抗干扰技术研究和应用具有重要的现实意义和工程价值。我们在这里为你提供了一些无线通信英文参考文献,供你借鉴参考。
  
  无线通信英文参考文献一:
  
  [1]Emslie AG,Lagace RL,Strong PF.Theory of the Propagation of UHF radio waves in coal mine runnels. IEEE Transactions on Antennas and Propagation . 1975
  [2]Zhang, Y.P.,Hwang, Y.,Kouyoumjian, R.G.Ray-optical prediction of radio-wave propagation characteristics in tunnel environments - Part 2: Analysis and measurements. IEEE Transactions on Antennas and Propagation . 1998
  [3]Laakmann, Katherine D.,Steier, William H.WAVEGUIDES: CHARACTERISTIC MODES OF HOLLOW RECTANGULAR DIELECTRIC WAVEGUIDES. Applied Optics . 1976
  [4]Dudley,Donald G.Wireless propagation in circular tunnels. IEEE Transactions on Antennas and Propagation . 2005
  [5]Zhi Sun,Ian F. Akyildiz.Channel modeling and analysis for wireless networks in underground mines and road tunnels. IEEE Transactions on Communications . 2010
  [6]Jiangzhou Wang,Huiling Zhu,Gomes, N.J.Distributed Antenna Systems for Mobile Communications in High Speed Trains. IEEE Journal on Selected Areas in Communications . 2012
  [7]Briso-Rodríguez, Cesar,Cruz, Javier M.,Alonso, Jose I.Measurements and modeling of distributed antenna systems in railway tunnels. IEEE Transactions on Vehicular Technology . 2007
  [8]Ke Guan,Zhangdui Zhong,Jose I. Alonso.Measurement of Distributed Antenna Systems at 2.4 GHz in a Realistic Subway Tunnel Environment. IEEE Transactions on Vehicular Technology . 2012
  [9]Guan, K.,Zhong, Z.,Ai, B.,Briso-Rodríguez, C.Propagation mechanism modelling in the near region of circular tunnels. IET Microwaves, Antennas and Propagation . 2012
  [10]Ghazal A,Wang C X,Member S, et al.A Nonstationary Wideband MIMO Channel Model for High-Mobility Intelligent Transportation Systems. IEEE Transactions on Intelligent Transportation Systems . 2015
  [11]Xue Qi.Coordinated control for multiple underactuated underwater vehicles with time delay in game theory frame[A]. 第36届中国控制会议论文集(F)[C]. 2017
  [12]Wang Jian-guo 1 1. China Ship Development and Design Center,Wuhan 430064.Research on motion control of underwater vehicle[A]. 第24届中国控制与决策会议论文集[C]. 2012
  [13]Xun Hua,Daqi Zhu,Xiang Cao.A neurodynamics control strategy for real-time tracking control of autonomous underwater vehicle[A]. 第25届中国控制与决策会议论文集[C]. 2013
  [14]Feihu Sun,Junzhi Yu,De Xu.Visual Measurement and Control for Underwater Robots: A Survey[A]. 第25届中国控制与决策会议论文集[C]. 2013
  [15]Lu Tang~1,Yanfu Li~2 1.Shenyang University School of Information Engineering,Liaoning Shenyang 110044 2.State Key Laboratory of Robotics,Chinese Academy of Sciences,Shenyang 110016.Study on kinematical control based on fuzzy inference for underwater work system[A]. 2009中国控制与决策会议论文集(1)[C]. 2009
  [16]WU Fan,GENG Zhiyong The State Key Laboratory for Turbulence and Complex Systems,College of Engineering,Peking University,Beijing 100871,P.R.China.Energy Shaping for Stably Coordinating Internally Actuated Underwater Vehicles[A]. 中国自动化学会控制理论专业委员会C卷[C]. 2011
  [17]De-sen YANG,Xin-yi SUN,Lian-jin HONG,Hong-kun ZHOU.RESEARCH OF DIRECTIVITY OF UNDERWATER ACOUSTIC VELOCITY GRADIENT SENSORS[A]. 2013全国压电和声波理论及器件技术研讨会论文集[C]. 2013
  [18]Li Ming,Zhou Lin,Zhang Yide.A Novel Doppler Frequency Shift Compensation Algorithm for OFDM Underwater Acoustic Communication System[A]. 第25届中国控制与决策会议论文集[C]. 2013
  [19]Jinhua Wang,Yongzhong Ma.Testing-Oriented Simulator for Autonomous Underwater Vehicles[A]. 2013年中国智能自动化学术会议论文集(第一分册)[C]. 2013
  [20]Xinqian Bian,Jiajia Zhou,Zheping Yan,Heming Jia,Shuping Peng College of Automation,Harbin Engineering University,Harbin,150001,China Harbin Institute of Technology,Harbin 150001,China.Simulation Research of H∞ Filter for the Pitch Control of AUV[A]. Proceedings of 2010 Chinese Control and Decision Conference[C]. 2010
  [23]Ali,E,Ismail,M,Nordin,R.,et al.Beamforming techniques for massive MIMO systems in 5G:overview,classification,and trends for future research. Front.Inform.Technol.Electron.Eng . 2017
  [24]Feng,Z.Y,Feng,Z.B,Gulliver,T.A.Joint user association and resource partition for downlink-uplink decoupling in multi-tier Het Nets. Front.Inform.Technol.Electron.Eng . 2017
  [25]Kuang,J.M,Zhou,Y,Fei,Z.S.Joint DOA and channel estimation with data detection based on 2D unitary ES-PRIT in massive MIMO systems. Front.Inform.Technol.Electron.Eng . 2017
  [26]Li,J.Z,Ai,B,He,R.S.,et al.Indoor massive MIMOchannel characterization and performance evaluation. Front.Inform.Technol.Electron.Eng . 2017
  [27]Niu,H.H,Zhang,B.N,Guo,D.X.,et al.Joint cooperative beamforming and artificial noise design for secure AF relay networks with energy-harvesting eavesdroppers. Front.Inform.Technol.Electron.Eng . 2017
  [28]Wang,J,Wen,X.J,Huang,C.,et al.Optimal precoding for full-duplex base stations under strongly correlated self-interference channels. Front.Inform.Technol.Electron.Eng . 2017
  [29]Yuan,Z.H,Chen,C,Cheng,X.,et al.Correlated channel model-based secure communications in dual-hop wireless communication networks. Front.Inform.Technol.Electron.Eng . 2017
  [30]Zhang,K.L,Zhang,C,Gu,F.L.,et al.Efficient detection methods for AF relay-aided D2D systems with full-rate space-time block code. Front.Inform.Technol.Electron.Eng . 2017
  [31]Zhang,Z.Y,Lyu,W.Interference coordination in full-duplex Het Net with large-scale antenna arrays. Front.Inform.Technol.Electron.Eng . 2017