Publications

Displaying 26 - 29 of 29

Unsupervised Clustering for Millimeter-Wave Channel Propagation Modeling

February 11, 2018

Author(s)

Jian Wang, Camillo Gentile, Jelena Senic, Roy Sun, Peter B. Papazian

We have designed and assembled millimeter-wave channel sounders at 28, 60, and 83 GHz. They can measure the three-dimensional (azimuth and elevation) double-directional angle (angle-of- departure and angle-of-arrival) of channel multipath components as

Quasi-deterministic Model for Doppler Spread in Millimeter-wave Commmunication Systems

May 18, 2017

Author(s)

Jian Wang, Camillo Gentile, Peter B. Papazian, Jae-Kark Choi, Jelena Senic

The most salient feature differentiating millimeter-wave communication systems from their predecessors will be the steerable pencilbeam antennas at the transceivers. As opposed to conventional widebeam antennas, only a few multipath components will be

Pathloss Models for Indoor Hotspot Deployment at 83.5 GHz

December 3, 2016

Author(s)

Camillo Gentile, Jelena Senic, Peter B. Papazian, Jae-Kark Choi, Kate Remley

Conventional pathloss models are based on the received power from an omnidirectional antenna. Millimeter-wave receivers, conversely, will feature highly directional antennas that can be steered towards the angle with maximum power, exploiting their high

Calibration of Millimeter-wave Channel Sounders for Super-resolution Multipath Component Extraction

April 9, 2015

Author(s)

Peter B. Papazian, Jae-Kark Choi, Jelena Senic, Peter J. Jeavons, Camillo Gentile, Nada T. Golmie, Roy Sun, David R. Novotny, Kate Remley

Millimeter-wave communication systems will rely on highly directional antennas to compensate for the greater pathloss expected in their frequency bands of operation. Electronic beamforming, hence, will form a cornerstone for the technology. For the

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