NYU (Rappaport), Texas (Heath), Stanford/Berkeley joined by TU Dresden and the University of Surrey. Monica Alleven at Fierce asked researchers where the outstanding work is being done and produced a report ranking the top universities. I can confirm that #1 NYU, #4 Stanford/Berkeley and their joint research and #5 University of Texas-Austin are among the most respected in the U.S. (I don't know academics outside the U.S. well enough to comment.)

Any American lead is fragile because research money is hard to find. Korea has committed $1.5B and the EU €700B for 5G research. Huawei, Samsung, Ericsson and Nokia are spending heavily. All the the big telecom companies in North America are gone. AT&T and Verizon are cutting capex and R&D. 

Rappaport of NYU and Heath of Texas recently published what instantly became the standard textbook, Millimeter Wave Wireless Communications. Ted has been running his graduate students around Manhattan and Brooklyn testing prototype gear. The results have been strong and convinced most of the industry that high frequencies are part of the 5G story. Heath built a testbed for MU-MIMO, which Paulraj tells me is the way to reach rural homes.

(Millimeter waves are short-range.) Paulraj invented MIMO at Stanford and continues active research. Andrea Goldsmith of Stanford is advancing WiFi, which will be a crucial part of the future if the telcos don't gobble all the spectrum.

Alleven combines Stanford and Berkeley at #4 because of their long term collaboration on Software Defined Networking. SDN arose out of the graduate work of Martin Casado at Stanford in collaboration with Nick McKeown, also at Stanford, and Scott Shenker at Berkeley,

There's outstanding work being done in China, India and Iran. I'd welcome pointers to key researchers.

Newsletter

Often interesting

Latest issue

 Gig LTE & Massive MIMO ushering in the Age of Wireless Abundance

Wireless Abundance is here: What the new tech means http://bit.ly/Wirelessabundance
Sprint & T-Mobile Charge to be 1st in U.S. to Gig LTE bit.ly/STMOgig  AT&T bit.ly/ATTGIG2016
Kitahara of Softbank “I am crazy about Massive MIMO” http://bit.ly/MMIMOCrazy
20 Gig mmWave, Massive MIMO & Gig LTE at the Huawei MBBF http://bit.ly/Huawei20
LTE gets to the gigabit explained for non-engineers http://bit.ly/GigLteexplained
Massive MIMO explained. http://bit.ly/WHMassiveMIMO
2017's Big Gigabit story: Qualcomm 835 is ready http://bit.ly/BigGigLTE
Doubling speed with 4x4 MIMO & 256 QAM at T-Mobile http://bit.ly/2k1gEOQ
Netgear Nighthawk M1, Telstra do "gigabit class" LTE http://bit.ly/2k1s5Gq
Spectrum price down by half http://bit.ly/Spectrumhalfoff
Dish and the telcos see big asset cut http://bit.ly/auctionlosers
Shorts on 3GPP,  NYU research, Ralph de la Vega, 5G new radio

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5GW News

dave right5G? 4G? Whatever the name, wireless is going to a gigabit, soon.  I've reported broadband since 1999 and now is the time for gigabit wireless. Catch a mistake or have news? Email me please. Dave Burstein

 

Stories worth writing

Starry may match Verizon 5G at half the cost
OFCOM in UK: Share all spectrum, even licensed
OFCOM's Boccardi: 26 GHz worldwide: U.S. goes 28 
Verizon 5G fixed tests will be only 100's of homes
Massive MIMO FD at China Uni, Tele, Huawei, ZTE

 

 

 

Datapoints

Verizon and AT&T burying price increases in fees. 

Huawei's Richard Yu intends to pass both Apple & Samsung in smartphones in five years. 

The 3,000,000,000 transistor Qualcomm 835 is a revolution. Gig LTE, incredible cameras, better VR & AR, & ... State of the art CPU, DSL, GPU, ISP tightly integrated

1,000 T-Mobile small cells 2016, 6,000 more coming. Tech Life

New $84 Reliance Lyf Wind 7S has a 5" screen, a quad-core Snapdragon, an 8 megapixel camera, and some extras. Not state of the art, perhaps, but completely usable at a modest price. 

Orange/FT 4G covers 97% of Poland, 96% of Moldova, but only 84% in France, Q3 2016. They have 113.5 mobile customers in Africa compared to 25.5M in Europe.

more

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