National Science Foundation-Supported Project will Give Researchers New Equipment 
for Vital Antenna Experiments in the Millimeter Wave Radio Spectrum

The NYU WIRELESS research center announced it will build an advanced programmable platform to rapidly design, prototype, and validate technologies vital for the millimeter wave (mmWave) radio spectrum, which is potentially key to launching the next ultra-high-data-rate generation of wireless communication, or 5G.

Funded by a National Science Foundation (NSF) program that supports exploratory work on potentially transformative research, the platform will be one of the first of its kind available to researchers from academia, government, and industry who are driving the early stages of mmWave technology.

Millimeter wave communication relies on highly directional transmissions in which energy is concentrated in narrow beams. Current mmWave prototyping systems use directional horn antennas mounted on mechanically rotatable gimbals. These mechanical systems are too large and slow for mobile applications. The new software-defined radio (SDR) platform will integrate an electrically steerable phased array with no physically moving parts and near-instantaneous steering. Equipment from NYU WIRELESS affiliate sponsor SiBEAM, a Lattice Semiconductor company, will provide the RF (radio frequency) front end for this testbed.