Wireless Communications & Sensing
Wireless communications
Research Overview
NYU Wireless researchers pioneered research in the area of millimeter wave communications that were central to development of the recently-deployed 5G wireless systems. Today, our researchers are conducting fundamental propagation measurements, channel modeling, and system design for new spectrum above 100 GHz as well as the upper mid-band (from 7 to 24 GHz). Our research includes beamforming, MIMO processing, energy efficient architectures, and new forms of spectrum sharing that can enable future networks with greater robustness, coverage, capacity, and lower energy consumption and cost. High frequency, multi-antenna wireless signals also provide new sensing capabilities and our research is developing integrated sensing and communication.
Research Topics
NYUSIM: Sub-Terahertz and Millimeter-Wave Channel Simulator in MATLAB and ns-3
Research Overview NYUSIM is a cutting-edge open-source sub-THz and mmWave wireless channel simulator developed in MATLAB and ns-3, for free use by academic and industrial instituti
Energy Efficient mmWave and THz Communications
Research Overview A key challenge for communication in the mmWave and THz bands is power consumption. Systems in these frequencies require large numbers of antenna elements running
Cellular Wireless Networks in the Upper Mid-Band
Research Overview The upper mid-band — roughly from 7 to 24 GHz — has attracted considerable recent interest for new cellular services. This frequency range has vastly more spe