The path to 5G:mmWave aspects 被引量：1

导出

摘要 The wide spectrum and propagation characteristics over the air give mmWave communication unique advantages as well as design challenges for 5G applications.To increase the system speed,capacity,and coverage,there is a need for innovation in the RF system architecture,circuit,antenna,and package in terms of implementation opportunities and constraints.The discuss mmWave spectrum characteristics,circuits,RF system architecture,and their implementation issues are discussed.Moreover,the transmitter key components,i.e.,the receiver,antenna,and packaging are reviewed.

作者 LI Lianming NIU Xiaokang CHAI Yuan CHEN Linhui ZHANG Tao CHENG Depeng XIA Haiyang WANG Jiangzhou CUI Tiejun YOU Xiaohu

机构地区 School of Information Science and Engineering Communications Research Group with the School of Engineering and Digital Arts

出处《Journal of Communications and Information Networks》 2016年第2期1-18,共18页 通信与信息网络学报（英文）

基金 supported by The National High Technology Project of China(863 Program)(No.2011AA010201,No.2011AA010202) The National Natural Science Foundation of China(No.61306030).

关键词 mmWave 60 GHz MIMO BEAMFORMING TRANSMITTER RECEIVER antenna PACKAGING

分类号 TN9 [电子电信—信息与通信工程]

引文网络
相关文献

参考文献1

1LI Lianming,NIU Xiaokang,CHEN Linhui,CHAI Yuan,ZHANG Tao,SHI Jun,WANG Aili,LUO Ying,HE Long,CHENG Depeng,LIU Nan,CUI Tiejun,YOU Xiaohu.Design of 60GHz RF Transceiver in CMOS:Challenges and Recent Advances[J].China Communications,2014,11(6):32-41. 被引量：2

二级参考文献28

1EEtimes, "Supporting LTE and multiple stan- dards with SDR," [online], EETimes, 2010.
2J. Laskar, S. Pinel, D. Dawn, S. Sarkar, B. Peruma- na, and P. Sen, "The next wireless wave is a mil- limeter wave", Microwave Journal, vol.50, no.8, pp.22-36. Aug. 2007.
3R.C. Daniels, J. N.Murdock, T. S. Rappaport, and R. W. Heath, "60GHz Wireless: Up close and Per- sonal', IEEE Microwave Magazine, pp. s44-s50, Dec. 2010.
4T. S. Rappaport, S. Sun, R. Mayzus, H. Zhao, Y. Azar er al, "Millimeter wave mobile communi- cation for 5G Cellular: it will work! " IEEE Access, pp. 335-349, Vol.1, Janu., 2013.
5S. Pinel, S. Sarkar, P. Sen, B. Perumana, D. Yeh, D. Dawn, and J. Laskar, "A 90nm CMOS 60GHz Radio", in IEEE ISSCC Digest of Technical Papers, pp.130-131, Feb. 2008.
6C. Marcu, D. Chowdhury, C. Thakkar, L, Kong, M.Tabesh, J. Park, ~. Wang, B. Afshar, A. Gupta, A. Arbabian, S. Gambini, R. Zamani, A.Niknejad,and E. Alon, "A 90nm CMOS Low-Power 60GHz transceiver with integrated baseband circuitry," in IEEE ISSCC Digest of Technical Papers, pp. 314-315, Feb. 2009.
7S. Emami, R. Wiser, E. Ali, M. Forbes, M. Gordon, X. Guan, S. Lo, P. McEIwee, J. Parker, J. Tani, J. Gil- bert, and C. Doan, "A 60 GHz CMOS phase-array transceiver pair for multi-Gb/s wireless com- munication," in IEEE ISSCC Dig. Tech. Papers, pp. 164-165. Feb. 2011.
8A. Siligaris, O. Richard et al, "A 65 nm CMOS fully integrated transceiver module for 60GHz wireless HD applications"in IEEE ISSCC Dig. Tech. Papers, pp. 162-163, Feb. 2011.
9V. Vidojkovic, G. Mangraviti et al, "A low-power 57-66GHz transceiver in 40 nm LP CMOS with -17dB EVM at 7Gb/s" in IEEE ISSCC Dig. Tech. Papers, pp. 268-269, Feb. 2012.
101. Mitomo, Y. Tsutsumi et al. "A 2-Gb/s through- put CMOS transceiver chipset with in-package antenna for 60-GHz short-range wireless com- munication," IEEE Journal of Solid-State Circuits, vol.43, no.12, pp. 3160-3171. Dec. 2012.

共引文献1

1Lianming LI,Dongming WANG,Xiaokang NIU,Yuan CHAI,Linhui CHEN,Long HE,Xu WU,Fuchun ZHENG,Tiejun CUI,Xiaohu YOU.mm Wave communications for 5G: implementation challenges and advances[J].Science China(Information Sciences),2018,61(2):1-19. 被引量：22

同被引文献4

1LI Lianming,NIU Xiaokang,CHEN Linhui,CHAI Yuan,ZHANG Tao,SHI Jun,WANG Aili,LUO Ying,HE Long,CHENG Depeng,LIU Nan,CUI Tiejun,YOU Xiaohu.Design of 60GHz RF Transceiver in CMOS:Challenges and Recent Advances[J].China Communications,2014,11(6):32-41. 被引量：2
2Cheng-Xiang WANG,Shangbin WU,Lu BAI,Xiaohu YOU,Jing WANG,Chih-Lin I.Recent advances and future challenges for massive MIMO channel measurements and models[J].Science China(Information Sciences),2016,59(2):2-17. 被引量：16
3Lei GAO,Shuo ZHANG,Ziyao LIU,Jinyong LIN,Shuai WANG,Chengwen XING.An overview of multi-antenna technologies for space-ground integrated networks[J].Science China Earth Sciences,2016,59(12):1-18. 被引量：2
4Jianhua ZHANG,Pan TANG,Lei TIAN,Zhixue HU,Tan WANG,Haiming WANG.6–100 GHz research progress and challenges from a channel perspective for fifth generation(5G)and future wireless communication[J].Science China(Information Sciences),2017,60(8):3-20. 被引量：18

引证文献1

1Lianming LI,Dongming WANG,Xiaokang NIU,Yuan CHAI,Linhui CHEN,Long HE,Xu WU,Fuchun ZHENG,Tiejun CUI,Xiaohu YOU.mm Wave communications for 5G: implementation challenges and advances[J].Science China(Information Sciences),2018,61(2):1-19. 被引量：22

二级引证文献22

1尤肖虎,张川,谈晓思,金石,邬贺铨.基于AI的5G技术——研究方向与范例[J].中国科学：信息科学,2018,48(12):1589-1602. 被引量：65
2Xinsheng JI,Kaizhi HUANG,Liang JIN,Hongbo TANG,Caixia LIU,Zhou ZHONG,Wei YOU,Xiaoming XU,Hua ZHAO,Jiangxing WU,Ming YI.Overview of 5G security technology[J].Science China(Information Sciences),2018,61(8):103-127. 被引量：21
3Xiaohu YOU,Chuan ZHANG,Xiaosi TAN,Shi JIN,Hequan WU.AI for 5G: research directions and paradigms[J].Science China(Information Sciences),2019,62(2):1-13. 被引量：18
4Yining LI,Wenjin WANG,Jiaheng WANG,Xiqi GAO.Fast-convolution multicarrier based frequency division multiple access[J].Science China(Information Sciences),2019,62(8):1-17. 被引量：2
5LI Lianming,SI Jiachen,CHEN Linhui.Design of Power Amplifier for mm Wave 5G and Beyond[J].Transactions of Nanjing University of Aeronautics and Astronautics,2019,36(4):579-588.
6Shixun LUO,Zhongshan ZHANG,Shuai WANG,Shuo ZHANG,Jibo DAI,Xiangyuan BU,Jianping AN.Network for hypersonic UCAV swarms[J].Science China(Information Sciences),2020,63(4):108-135. 被引量：10
7尤肖虎,尹浩,邬贺铨.6G与广域物联网[J].物联网学报,2020,4(1):3-11. 被引量：56
8Peize ZHANG,Cheng YI,Bensheng YANG,Cheng-Xiang WANG,Haiming WANG,Xiaohu YOU.In-building coverage of millimeter-wave wireless networks from channel measurement and modeling perspectives[J].Science China(Information Sciences),2020,63(8):1-16. 被引量：2
9Dekang LIU,Zhongshan ZHANG,Sheng KE,Xue YIN,Xiangyuan BU,Jianping AN.Joint angle delay estimation in terahertz large-scale array system[J].Science China(Information Sciences),2020,63(8):46-48. 被引量：1
10Yu ZHANG,Dongming WANG,Yiming HUO,Xiaodai DONG,Xiaohu YOU.Hybrid beamforming design for mmWave OFDM distributed antenna systems[J].Science China(Information Sciences),2020,63(9):221-232. 被引量：1

1Fangfang Liu,Jiaxi Pan,Xiangwei Zhou,Geoffrey Ye Li.Atmospheric Ducting Effect in Wireless Communications:Challenges and Opportunities[J].Journal of Communications and Information Networks,2021,6(2):101-109. 被引量：2
2Alessandro Bosisio,Alberto Berizzi,Edoardo Amaldi,Cristian Bovo,Xu Andy Sun.Optimal Feeder Routing in Urban Distribution Networks Planning with Layout Constraints and Losses[J].Journal of Modern Power Systems and Clean Energy,2020,8(5):1005-1014. 被引量：1
3ZENG Hong-Jin,LIU Ge,LU Yuan-Rong,CHEN Wei,ZHOU Quan-Feng,ZHU Kun,XIA Wen-Long,SHI Ben-Liang,GAO Shu-Li,YAN Xue-Qing,GUO Zhi-Yu,CHEN Jia-Er.Radio-Frequency Power Test of a Four-Rod RFQ Accelerator for PKUNIFTY[J].Chinese Physics Letters,2012,29(6):106-109.
4Zehong ZHAO,Jian TANG,Junyu ZHAO,Zuoyu QIN,Huili WANG,Yuanyuan SHI.Progress of Mid Infrared Spectroscopy in Soil Environment Research[J].Meteorological and Environmental Research,2021,12(3):1-5.
5HUANG Xiaolong,LI Ning,WENG Chunsheng.Physical characteristics of detonation noise from multi-tube pulse detonation engine[J].Chinese Journal of Acoustics,2021,40(3):378-388. 被引量：1
6Peter S.Amenta,Edison Valle,Aaron S.Dumont,Ricky Medel.Inflammation and intracranial aneurysms:mechanisms of initiation,growth,and rupture[J].Neuroimmunology and Neuroinflammation,2015,2(1):68-76.
7Guangshan Xiea,Lin Zhu,Yuanyuan Song,Wei Huang,Di Hu,Zongwei Cai.An integrated quantitative proteomics strategy reveals the dual mechanisms of celastrol against acute inflammation[J].Chinese Chemical Letters,2021,32(7):2164-2168. 被引量：2
8Liu Qihang,Xin Zhe,Zhou Qiang.Visual reaction effects induced and stimulated by different lights on phototactic bio-behaviors in Locusta migratoria manilensis[J].International Journal of Agricultural and Biological Engineering,2017,10(4):173-181. 被引量：5

Journal of Communications and Information Networks

2016年第2期

浏览历史

内容加载中请稍等...