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George R. MacCartney
Researcher at New York University
Publications - 60
Citations - 8817
George R. MacCartney is an academic researcher from New York University. The author has contributed to research in topics: Path loss & Omnidirectional antenna. The author has an hindex of 36, co-authored 60 publications receiving 6936 citations. Previous affiliations of George R. MacCartney include King Saud University.
Papers
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Journal ArticleDOI
Wideband Millimeter-Wave Propagation Measurements and Channel Models for Future Wireless Communication System Design
TL;DR: Experimental measurements and empirically-based propagation channel models for the 28, 38, 60, and 73 GHz mmWave bands are presented, using a wideband sliding correlator channel sounder with steerable directional horn antennas at both the transmitter and receiver from 2011 to 2013.
Journal ArticleDOI
Overview of Millimeter Wave Communications for Fifth-Generation (5G) Wireless Networks—With a Focus on Propagation Models
Theodore S. Rappaport,Yunchou Xing,George R. MacCartney,Andreas F. Molisch,Evangelos Mellios,Jianhua Zhang +5 more
TL;DR: Propagation parameters and channel models for understanding mmWave propagation, such as line-of-sight (LOS) probabilities, large-scale path loss, and building penetration loss, as modeled by various standardization bodies are compared over the 0.5–100 GHz range.
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Millimeter-Wave Enhanced Local Area Systems: A High-Data-Rate Approach for Future Wireless Networks
Amitava Ghosh,Timothy A. Thomas,Mark C. Cudak,Rapeepat Ratasuk,Prakash Moorut,Frederick W. Vook,Theodore S. Rappaport,George R. MacCartney,Shu Sun,Shuai Nie +9 more
TL;DR: A case is made for using mmWave for a fifth generation (5G) wireless system for ultradense networks by presenting an overview of enhanced local area (eLA) technology at mmWave with emphasis on 5G requirements, spectrum considerations, propagation and channel modeling, air-interface and multiantenna design, and network architecture solutions.
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Indoor Office Wideband Millimeter-Wave Propagation Measurements and Channel Models at 28 and 73 GHz for Ultra-Dense 5G Wireless Networks
TL;DR: The results show that novel large-scale path loss models provided here are simpler and more physically based compared to previous 3GPP and ITU indoor propagation models that require more model parameters and offer very little additional accuracy and lack a physical basis.
Journal ArticleDOI
Radio propagation path loss models for 5G cellular networks in the 28 GHZ and 38 GHZ millimeter-wave bands
Ahmed Iyanda Sulyman,Almuthanna T. Nassar,Mathew K. Samimi,George R. MacCartney,Theodore S. Rappaport,Abdulhameed Alsanie +5 more
TL;DR: In this paper, the authors proposed empirically-based largescale propagation path loss models for 5G cellular network planning in the millimeter-wave spectrum, based on real-world measurements at 28 GHz and 38 GHz in New York City and Austin, Texas, respectively.