Multiple GHz of internationally available, unlicensed spectrum surrounding the 60 GHz carrier frequency has the ability to accommodate high-throughput wireless communications …
TS Rappaport, JN Murdock… - Proceedings of the …, 2011 - ieeexplore.ieee.org
This tutorial presents an overview of the technological advances in millimeter-wave (mm- wave) circuit components, antennas, and propagation that will soon allow 60-GHz …
This book addresses 60 GHz technology for Gbps WLAN and WPAN from theory to practice, covering key aspects for successful deployment. In this book, the authors focus specifically …
CH Doan, S Emami, DA Sobel… - IEEE …, 2004 - ieeexplore.ieee.org
With the availability of 7 GHz of unlicensed spectrum around 60 GHz, there is a growing interest in using this resource for new consumer applications requiring very high-data-rate …
For decades, microwave radios in the 6 to 50 GHz bands have been providing wireless communications. Recently, newer technologies at the 60 to 100 GHz mm-wave bands have …
SK Yong, CC Chong - EURASIP journal on wireless communications and …, 2006 - Springer
This paper presents an overview of 60 GHz technology and its potentials to provide next generation multigigabit wireless communications systems. We begin by reviewing the state …
D Liu, W Hong, TS Rappaport… - IEEE Transactions on …, 2017 - ieeexplore.ieee.org
Fifth-generation wireless technology, denoted as “5G” by the global wireless communications industry, seeks to accomplish multi-fold increases in key aspects of …
T Nitsche, G Bielsa, I Tejado, A Loch… - Proceedings of the 11th …, 2015 - dl.acm.org
The performance of current consumer-grade devices for 60 GHz wireless networks is limited. While such networks promise both high data rates and uncomplicated spatial reuse, we find …
Single-chip 60 GHz transmitter (TX) and receiver (RX) MMICs have been designed and characterized in a 0.15 mum (f T~ 120 GHz/f MAX> 200 GHz) GaAs mHEMT MMIC process …