Vol. 60, No. 8, 2017 Cover Contents

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
EDITORIAL Website SpringerLink Google Scholar Cited in SCI: 2

Special focus on millimeter wave communications techniques and devices for 5G-Editorial
Zheng, Fu-Chun; Wu, Gang
Sci China Inf Sci, 2017, 60(8): 080300
Cite as: Zheng F-C, Wu G. Special focus on millimeter wave communications techniques and devices for 5G-Editorial. Sci China Inf Sci, 2017, 60(8): 080300, doi: 10.1007/s11432-017-9156-8

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
REVIEW Website SpringerLink Google Scholar Cited in SCI: 31

6-100 GHz research progress and challenges from a channel perspective for fifth generation (5G) and future wireless communication
Zhang, Jianhua; Tang, Pan; Tian, Lei; Hu, Zhixue; Wang, Tan; Wang, Haiming
Sci China Inf Sci, 2017, 60(8): 080301
Keywords: 5G; high frequency band; millimeter wave; channel; measurement
Cite as: Zhang J H, Tang P, Tian L, et al. 6-100 GHz research progress and challenges from a channel perspective for fifth generation (5G) and future wireless communication. Sci China Inf Sci, 2017, 60(8): 080301, doi: 10.1007/s11432-016-9144-x

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
RESEARCH PAPER Website SpringerLink Google Scholar Cited in SCI: 0

Path loss model based on cluster at 28 GHz in the indoor and outdoor environments
Zhou, Lai; Xiao, Limin; Yang, Zhi; Li, Jiahui; Lian, Jin; Zhou, Shidong
Sci China Inf Sci, 2017, 60(8): 080302
Keywords: mmWave channel measurement; office and corridor; rotating platform; multipath components; path loss model based on cluster
Cite as: Zhou L, Xiao L M, Yang Z, et al. Path loss model based on cluster at 28 GHz in the indoor and outdoor environments. Sci China Inf Sci, 2017, 60(8): 080302, doi: 10.1007/s11432-017-9127-6

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
RESEARCH PAPER Website SpringerLink Google Scholar Cited in SCI: 0

45-GHz and 60-GHz 90 nm CMOS power amplifiers with a fully symmetrical 8-way transformer power combiner
Jiang, Zhengdong; Guo, Kaizhe; Huang, Peng; Fan, Yiming; Zhao, Chenxi; Ban, Yongling; Liu, Jun; Kang, Kai
Sci China Inf Sci, 2017, 60(8): 080303
Keywords: millimeter wave; power amplifier; CMOS; transformer power combiner; 45 GHz; 60 GHz
Cite as: Jiang Z D, Guo K Z, Huang P, et al. 45-GHz and 60-GHz 90 nm CMOS power amplifiers with a fully symmetrical 8-way transformer power combiner. Sci China Inf Sci, 2017, 60(8): 080303, doi: 10.1007/s11432-016-9102-0

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
RESEARCH PAPER Website SpringerLink Google Scholar Cited in SCI: 3

Energy-efficient Butler-matrix-based hybrid beamforming for multiuser mmWave MIMO system
Li, Jiahui; Xiao, Limin; Xu, Xibin; Su, Xin; Zhou, Shidong
Sci China Inf Sci, 2017, 60(8): 080304
Keywords: Butler matrix; energy efficient; hybrid beamforming; MIMO; mmWave; multiuser
Cite as: Li J H, Xiao L M, Xu X B, et al. Energy-efficient Butler-matrix-based hybrid beamforming for multiuser mmWave MIMO system. Sci China Inf Sci, 2017, 60(8): 080304, doi: 10.1007/s11432-016-0640-5

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
RESEARCH PAPER Website SpringerLink Google Scholar Cited in SCI: 6

A novel 3D frequency domain SAGE algorithm with applications to parameter estimation in mmWave massive MIMO indoor channels
Feng, Rui; Huang, Jie; Sun, Jian; Wang, Cheng-Xiang
Sci China Inf Sci, 2017, 60(8): 080305
Keywords: millimeter wave bands; massive MIMO; 3D FD-SAGE algorithm; planar array; statistical properties
Cite as: Feng R, Huang J, Sun J, et al. A novel 3D frequency domain SAGE algorithm with applications to parameter estimation in mmWave massive MIMO indoor channels. Sci China Inf Sci, 2017, 60(8): 080305, doi: 10.1007/s11432-017-9139-4

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
MOOP Website SpringerLink Google Scholar Homepage Cited in SCI: 3

Demonstration of 60 GHz millimeter-wave short-range wireless communication system at 3.5 Gbps over 5 m range
Yue, Guangrong; Wang, Zhiqiang; Chen, Lei; Cheng, Long; Tang, Junlin; Zou, Xianbing; Zeng, Yuan; Li, Lianming
Sci China Inf Sci, 2017, 60(8): 080306
Keywords: 60 GHz; millimeter-wave; IEEE 802.11ad; SC-FDE; 65-nm CMOS
Cite as: Yue G R, Wang Z Q, Chen L, et al. Demonstration of 60 GHz millimeter-wave short-range wireless communication system at 3.5 Gbps over 5 m range. Sci China Inf Sci, 2017, 60(8): 080306, doi: 10.1007/s11432-017-9059-y

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
INSIGHT Website SpringerLink Google Scholar Cited in SCI: 0

Blockage robust millimeter-wave networks
Yang, Guang; Xiao, Ming
Sci China Inf Sci, 2017, 60(8): 080307
Keywords: mmWave; connectivity; beamswitching; random blockage; protocol
Cite as: Yang G, Xiao M. Blockage robust millimeter-wave networks. Sci China Inf Sci, 2017, 60(8): 080307, doi: 10.1007/s11432-017-9147-0

Special Focus on Millimeter Wave Communications Techniques and Devices for 5G
LETTER Website SpringerLink Google Scholar Supplementary Cited in SCI: 0

An 80-83 GHz CMOS DCO based on DiCAD technique for size, linearity and noise optimization
Wang, Zhiping; Jia, Haikun; Kuang, Lixue; Chi, Baoyong
Sci China Inf Sci, 2017, 60(8): 080401
Keywords: millimeter-wave oscillator; Digitally-Controlled Oscillator; CMOS Integrated Circuits; Millimeter-Wave ICs; On-Chip Transmission Lines
Cite as: Wang Z P, Jia H K, Kuang L X, et al. An 80-83 GHz CMOS DCO based on DiCAD technique for size, linearity and noise optimization. Sci China Inf Sci, 2017, 60(8): 080401, doi: 10.1007/s11432-016-9051-8