[1] AGIWAL M,ROY A,SAXENA N.Next generation 5G wireless networks:a comprehensive survey[J].IEEE Communications Surveys & Tutorials,2016,18(3):1617-1655. [2] HUANG Xumin,YU Rong,KANG Jiawen,et al.Exploring mobile edge computing for 5G-enabled software defined vehicular networks[J].IEEE Wireless Communications,2017,24(6):55-63. [3] WANG Rui,ZHANG Keluo.Survey of 5G network slicing[J].Journal of Nanjing University of Posts and Telecommunications(Natural Science),2018,38(5):19-27.(in Chinese)王睿,张克落.5G网络切片综述[J].南京邮电大学学报(自然科学版),2018,38(5):19-27. [4] IMRAN M A,ABDULRAHMAN S Y,ABBASI Q H.Enabling 5G communication systems to support vertical industries[EB/OL].[2019-09-28].https://www.doc88.com/p-5899907803581.html. [5] ZHANG Jing,JIN Shi,WEN Chaokai,et al.An overview of wireless transmission technology utilizing artificial intelligence[J].Telecommunications Science,2018,34(8):46-55.(in Chinese)张静,金石,温朝凯,等.基于人工智能的无线传输技术最新研究进展[J].电信科学,2018,34(8):46-55. [6] NISHIMORI K.Novel technologies using massive MIMO transmission toward 5G and its beyond systems[C]//Pro-ceedings of 2018 International Symposium on Antennas and Propagation.Washington D.C.,USA:IEEE Press,2018:1-2. [7] XU Sen,XIN Jincan.Study on 5G uRLLC enhancement technology for ultra-reliable and low latency communications[J].Mobile Communications,2019,43(9):62-67.(in Chinese)许森,信金灿.面向低时延高可靠的5G uRLLC增强技术研究[J].移动通信,2019,43(9):62-67. [8] FOSCHINI G J.Layered space-time architecture for wireless communication in a fading environment when using multi-element antennas[J].Bell Labs Technical Journal,2002,1(2):41-59. [9] JAFARKHANI H.Space-time coding[M].Cambridge,UK:Cambridge University Press,2005. [10] GESBERT D,SHAFI M,SHIU D S,et al.From theory to practice:an overview of MIMO space-time coded wireless systems[J].IEEE Journal on Selected Areas in Communications,2003,21(3):281-302. [11] MESLEH R Y,HAAS H,SINANOVIC S,et al.Spatial modulation[J].IEEE Transactions on Vehicular Technology,2008,57(4):2228-2241. [12] JEGANATHAN J,GHRAYEB A,SZCZECINSKI L,et al.Space shift keying modulation for MIMO channels[J].IEEE Transactions on Wireless Communications,2009,8(7):3692-3703. [13] YOUNIS A,SERAFIMOVSKI N,MESLEH R,et al.Generalised spatial modulation[C]//Proceedings of 2010 Conference Record of the 44th Asilomar Conference on Signals,Systems and Computers.Washington D.C.,USA:IEEE Press,2010:1498-1502. [14] WANG Jintao,JIA Shuyun,SONG Jian.Generalised spatial modulation system with multiple active transmit antennas and low complexity detection scheme[J].IEEE Transactions on Wireless Communications,2012,11(4):1605-1615. [15] JEGANATHAN J,GHRAYEB A,SZCZECINSKI L.Generalized space shift keying modulation for MIMO channels[C]//Proceedings of 19th International Symposium on Personal,Indoor and Mobile Radio Communications.Washington D.C.,USA:IEEE Press,2008:1-5. [16] HAI Han,JIANG Xueqin,DUAN Wei,et al.Complex hadamard matrix-aided generalized space shift keying modulation[J].IEEE Access,2017,5:21139-21147. [17] GOLDEN G D,FOSCHINI C J,VALENZUELA R A,et al.Detection algorithm and initial laboratory results using V-BLAST space-time communication architecture[J].Electronics Letters,1999,35(1):14-16. [18] WANG Jintao,JIA Shuyun,SONG Jian.Signal vector based detection scheme for spatial modulation[J].IEEE Communications Letters,2012,16(1):19-21. [19] CHEN Fatang,LONG Yunbo,WANG Yufan.Low-complexity signal detection for spatial modulation[J].Computer Engineering,2018,44(3):99-102,108.(in Chinese)陈发堂,龙云波,王与凡.低复杂度的空间调制信号检测[J].计算机工程,2018,44(3):99-102,108. [20] BUTSON A T.Generalized hadamard matrices[J].Proceedings of the American Mathematical Society,1962,13(6):894-896. [21] PROAKIS J G.Digital communication[M].4th ed.New York,USA:McGraw-Hill,2002. [22] HANDTE T,MULLER A,SPEIDEL J.BER analysis and optimization of generalized spatial modulation in correlated fading channels[C]//Proceedings of the 70th Vehicular Technology Conference Fall.Washington D.C.,USA:IEEE Press,2009:1-5. [23] HOCHWALD B M,TEN BRINK S.Achieving near-capacity on a multiple-antenna channel[J].IEEE Transactions on Communications,2003,51(3):389-399. |