Research | Mark Cathey's Tech Site

The U.S. National Science Foundation will spend more than US$400 million over the next seven years to fund next-generation wireless research in an effort to bring super-fast mobile service to the country.

U.S. officials hope the investments, announced Friday, will speed up the county’s move to next-generation 5G mobile service, potentially offering speeds of 10Gbps, and allow for a rapid expansion of the internet of things.

The next-generation mobile services will enable self-driving cars, an “always on” IoT, smart cities, new virtual reality offerings, and video to aid police, firefighters, and emergency medical responders, said John Holdren assistant to President Barack Obama for science and technology.

“Time and again, history has shown us that when we make sustained federal investments in fundamental academic research and in public-private partnerships … we as a nation reap the benefits,” Holdren said at an NSF event in Washinton, D.C., Friday.

The NSF funding, part of a new White House Advanced Wireless Research Initiative, includes $50 million as part of a partnership with more than 20 mobile companies and trade groups to roll out advanced wireless testing sites in four U.S. cities. The testing will include deployment of small cells to boost signals of high-band, millimeter wave spectrum.

Friday’s announcement piggybacks on a Federal Communications Commission vote Thursday to open up nearly 11 gigahertz of high-band spectrum to 5G and IoT services.

The NSF expects to spend $350 million over the next seven years on fundamental research and testing of next-generation wireless technologies, the agency said.

The FCC and other agencies want to focus on making spectrum available so that wireless companies can experiment with the best ways to deliver new services, said FCC Chairman Tom Wheeler. Some countries have pushed to set 5G standards before moving forward, but not the U.S., he said.

To read more and the original story follow this link to Network World.

It’s a remarkable technology capable of looking inside a human being, but magnetic resonance imaging—or MRI—machines are finicky and require a patient to remain absolutely still while it does its thing. But researchers at the University of Illinois have found a way to capture up to 100 frames per second on an MRI machine allowing them to record patients in motion.

The need for a faster MRI technique arose when a faculty member at the University of Illinois’ Beckman Institute for Advanced Science and Technology wanted to study how the muscles of the larynx worked in elderly patients while singing, in an attempt to help give them more powerful and pronounced voices. The problem with using MRI machines was that they could only capture images at around ten frames per second which was far too slow to study what was going on with the 100 or so muscles required to sing.

So Zhi-Pei Liang, an electrical and computer engineering professor at the institute, worked with his team to develop a new methodology to extract more frames from an MRI machine—which is a far cheaper solution than trying to rebuild and redesign one of the incredibly expensive devices from the ground up. Here’s how the new technique they came up with is described in an issue of Magnetic Resonance in Medicine:

An imaging method is developed to enable high-speed dynamic speech imaging exploiting low-rank and sparsity of the dynamic images of articulatory motion during speech. The proposed method includes: (a) a novel data acquisition strategy that collects spiral navigators with high temporal frame rate and (b) an image reconstruction method that derives temporal subspaces from navigators and reconstructs high-resolution images from sparsely sampled data with joint low-rank and sparsity constraints.

To read the full story and for more information please follow this link to Gizmodo.