Yawei Yu, Peter J. Smith , Pawel A. Dmochowski ,Jianhua Zhang , Mansoor Shafi
Communications (ICC), 2017 IEEE International Conference on
Publish Year: 2017
Conference Publications
Propagation Characteristics of Massive MIMO Measurements in a UMa Scenario at 3.5 & 6 GHz with 100 & 200 MHz Bandwidth
Zhe Zheng, Jianhua Zhang , Yawei Yu, Lei Tian, Ye Wu
2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communication
Publish Year:
Basestation 3-Dimensional Spatial Propagation Characteristics in Urban Microcell at 28 GHz
Tao Jiang, Lei Tian , Pan Tang, Zhixue Hu, Jianhua Zhang
Antennas and Propagation (EUCAP), 2017 11th European Conference on
Publish Year: 2017
A PCA-based Modeling Method for Wireless MIMO Channel
Xiaochuan Ma, Jianhua Zhang , Yuxiang Zhang, Zhanyu Ma, Yu Zhang
Computer Communications Workshops (INFOCOM WKSHPS), 2017 IEEE Conference on
Publish Year: 2017
The Effects of the Rotating Step on Analyzing the Virtual Multi-antenna Measurement Results at 28 GHz
Zhixue Hu, Lei Tian , Tao Jiang, Jianhua Zhang
2017 IEEE 85th Vehicular Technology Conference (VTC Fall)
Publish Year: 2017
The Variation of Clusters with Increasing Number of Antennas by Virtual Measurement
Chao Wang, Jianhua Zhang , Lei Tian, Mengmeng Liu and Ye Wu
Publish Year: 2017
The Spatial Evolution of Clusters in Massive MIMO Mobile Measurement at 3.5 GHz
Chao Wang, Jianhua Zhang, Lei Tian, Mengmeng Liu and Ye Wu
Publish Year: 2017
Propagation Characteristics in Indoor Scenario with Different Transmitter Locations at 3.5 and 6 GHz
Xinzhuang Zhang, Jianhua Zhang, Lei Tian, Yawei Yu ,Yu Han and Yu Zhang
Publish Year: 2017
Eigenvalue and Capacity Analysis Based on Measurement of Massive MIMO System at 3.5G HZ
Ruijie Xu, Jianhua Zhang ,Jie Xi
Publish Year: 2017
Spatial Characteristics of 3D MIMO Wideband Channel in Indoor Hotspot Scenario at 3.5 GHz
Lei Tian, Jianhua Zhang , Yuxiang Zhang and Yi Zheng
Abstract: Three dimension (3D) Multiple Input andMultiple Output (MIMO) with massive antenna elements,due to the advantage of using elevation domain than 2DMIMO, is regarded as a promising technique for the fifthgeneration (5G) mobile communication systems. This makes the channel characteristics of elevation domain as a basic requirement for the 5G channel model. In this paper, we conducted a 3D MIMO channel measurement at 3.5 GHz with 100 MHz bandwidth in indoor hotspot scenario which is one of the important scenario for 5G. Based on the channel measurement data, spatial characteristics of elevation domain are analyzed and discussed, including power angular spectrum, angular spread, and crosscorrelation, etc. The extracted channel parameters of elevation domain can be used in the 3D MIMO technology evaluation and simulation for indoor hotspot scenario.