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Disambiguation of "MacCartney, George R."

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Rapid Fading Due to Human Blockage in Pedestrian Crowds at 5G Millimeter-Wave Frequencies.

, , and . GLOBECOM, page 1-7. IEEE, (2017)

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George Mertzios

Combinatorial optimization and recognition of graph classes with applications to related models. TU Aachen, (2009)

George Marinescu

George Biros

George Bandlamudi

Andrew George

 

Other publications of authors with the same name

73 GHz millimeter wave propagation measurements for outdoor urban mobile and backhaul communications in New York City., and . ICC, page 4862-4867. IEEE, (2014)Synthesizing Omnidirectional Antenna Patterns, Received Power and Path Loss from Directional Antennas for 5G Millimeter-Wave Communications., , , and . GLOBECOM, page 1-7. IEEE, (2015)Millimeter wave small-scale spatial statistics in an urban microcell scenario., , , and . ICC, page 1-7. IEEE, (2017)Millimeter wave multi-beam antenna combining for 5G cellular link improvement in New York City., , , , and . ICC, page 5468-5473. IEEE, (2014)Indoor Office Plan Environment and Layout-Based mmWave Path Loss Models for 28 GHz and 73 GHz., , and . VTC Spring, page 1-6. IEEE, (2016)A flexible wideband millimeter-wave channel sounder with local area and NLOS to LOS transition measurements., , , and . ICC, page 1-7. IEEE, (2017)A novel millimeter-wave channel simulator and applications for 5G wireless communications., , and . ICC, page 1-7. IEEE, (2017)3D mmWave Channel Model Proposal., , , and . VTC Fall, page 1-6. IEEE, (2014)Omnidirectional path loss models in New York City at 28 GHz and 73 GHz., , and . PIMRC, page 227-231. IEEE, (2014)Radio propagation path loss models for 5G cellular networks in the 28 GHZ and 38 GHZ millimeter-wave bands., , , , , and . IEEE Communications Magazine, 52 (9): 78-86 (2014)