International audienceA 32 GHz urban microcellular measurement campaign is presented in this paper. A path loss model in line-of-sight (LOS) for the fifth-generation (5G) candidate frequency band 31.8-33.4 GHz is provided, and different key channel metrics such as omni-directional path loss, angular and delay spreads and Rician K-factor are investigated. The investigation shows that no significant difference between the 28 GHz and 32 GHz frequency bands for the studied metrics. © 2017 Euraap
This paper presents key parameters including the line-of-sight (LOS) probability, large-scale path l...
Due to the great demand of throughput and reliability for multimedia applications in Fifth Generatio...
Millimetre wave (mm-wave) spectrum (30-300GHz) is a key enabling technology in the advent of 5G. How...
International audienceA 32 GHz urban microcellular measurement campaign is presented in this paper. ...
This paper presents empirically-based large-scale propagation path loss models for small cell fifth ...
In order to support the development of channel models for higher frequency bands, multiple urban mic...
In order to support the development of channel models for higher frequency bands, multiple urban mic...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
It is becoming clear that 5G wireless systems will encompass frequencies from around 500 MHz all the...
The current propagation models used for frequency bands less than 6 GHz are not appropriate and cann...
The past couple of years have seen an explosion in mobile data traffic as a result of the growth of ...
This paper presents millimeter wave (mmWave) measurements in an indoor environment. The high demands...
This paper presents millimeter wave (mmWave) measurements in an indoor environment. The high demands...
In this paper we analyze the statistics of widely-used channel parameters (like path loss, rms delay...
The current propagation models used for frequency bands less than 6 GHz are not appropriate and cann...
This paper presents key parameters including the line-of-sight (LOS) probability, large-scale path l...
Due to the great demand of throughput and reliability for multimedia applications in Fifth Generatio...
Millimetre wave (mm-wave) spectrum (30-300GHz) is a key enabling technology in the advent of 5G. How...
International audienceA 32 GHz urban microcellular measurement campaign is presented in this paper. ...
This paper presents empirically-based large-scale propagation path loss models for small cell fifth ...
In order to support the development of channel models for higher frequency bands, multiple urban mic...
In order to support the development of channel models for higher frequency bands, multiple urban mic...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
It is becoming clear that 5G wireless systems will encompass frequencies from around 500 MHz all the...
The current propagation models used for frequency bands less than 6 GHz are not appropriate and cann...
The past couple of years have seen an explosion in mobile data traffic as a result of the growth of ...
This paper presents millimeter wave (mmWave) measurements in an indoor environment. The high demands...
This paper presents millimeter wave (mmWave) measurements in an indoor environment. The high demands...
In this paper we analyze the statistics of widely-used channel parameters (like path loss, rms delay...
The current propagation models used for frequency bands less than 6 GHz are not appropriate and cann...
This paper presents key parameters including the line-of-sight (LOS) probability, large-scale path l...
Due to the great demand of throughput and reliability for multimedia applications in Fifth Generatio...
Millimetre wave (mm-wave) spectrum (30-300GHz) is a key enabling technology in the advent of 5G. How...