Thomas Marzetta Elected to the National Academy of Engineering
Thomas L. Marzetta, a distinguished industry professor of electrical and computer engineering at the NYU Tandon School of Engineering and the director of the research center NYU WIRELESS, was elected to the National Academy of Engineering (NAE).
Election to the NAE — part of the 157-year-old National Academies of Science, Engineering, and Medicine — is among the highest professional distinctions accorded to an engineer. Academy membership honors those who have made outstanding contributions to “engineering research, practice, or education, including, where appropriate, significant contributions to the engineering literature" and to "the pioneering of new and developing fields of technology, making major advancements in traditional fields of engineering, or developing/implementing innovative approaches to engineering education."
The NAE specifically cited Marzetta’s contributions to massive multiple-input multiple-output (MIMO) antenna arrays in wireless communications. Massive MIMO — considered a key enabler for the fifth generation of wireless technology, or 5G — utilizes numerous small, individually controlled, low-power antennas to direct streams of information, selectively and simultaneously, to many users. This confers spectral efficiency orders of magnitude greater than that experienced in 4G service, along with high-quality service throughout the cell, simplicity and scalability, and outstanding energy efficiency.
Marzetta developed the concept of Massive MIMO during his 22 years at Bell Labs, where he directed the Communications and Statistical Sciences Department within the former Mathematical Sciences Research Center. His seminal paper, "Noncooperative cellular wireless with unlimited numbers of base station antennas," published in 2010 in IEEE Transactions on Wireless Communications, has been cited well over 4,000 times. He is the author or co-author of more than 220 published papers and is the lead author of the book Fundamentals of Massive MIMO, published in 2016.
Under his leadership, NYU WIRELESS researchers are exploring the next frontiers of communications where users will demand factor-of-ten or greater throughputs, and corresponding reductions in latency, compared with 5G. Lines of research include experiments in terahertz propagation, with promise of vast amounts of new spectrum, novel forms of relaying, and new types of Massive MIMO. Examples of the latter are Large Intelligent Surfaces, which would surround the user with ultra-low power antenna arrays, and Holographic MIMO, which ultimately could replace arrays of discrete antennas with continuous transmitting/receiving surfaces.
“I am deeply honored to be in the company of such a transformative and talented group of engineers,” Marzetta said. “While it is gratifying to receive this award for Massive MIMO, one of the foundations of 5G, we must now look to the future, where even 5G won’t be able to meet the communication requirements of augmented reality and holographic video. Our utmost research efforts are needed to create the technology that, eight or ten years from now, will enable 6G.”
In addition to his election to the NAE, recognition for Marzetta’s contributions to wireless communications include the 2019 Armstrong Medal from Radio Club of America, the 2017 IEEE Communications Society Industrial Innovation Award, the 2015 IEEE Stephen O. Rice Prize, and the 2015 IEEE W. R. G. Baker Award. He was elected a Fellow of the IEEE in 2003 and a Bell Labs Fellow in 2014.
“Tom Marzetta’s groundbreaking research on Massive MIMO has enabled the spread of 5G; Tom's election to the National Academies of Engineering is a well-deserved honor,” said NYU Tandon Dean Jelena Kovačević. “I am exceptionally proud to be able to call him my colleague at NYU Tandon and look forward to NYU WIRELESS contributions to 6G under Tom’s leadership.”
Marzetta, along with 86 other new members and 18 international members, will be inducted during a ceremony at the NAE's annual meeting in Washington, D.C., on October 4, 2020.