2016 News Archive
CEE professor Julian Marshall will co-lead the Center for Air, Climate and Energy Solutions, a new collaboration between more than 25 U.S. researchers to explore which pollutants are most damaging to people’s health and to detect current levels and sources of pollution. The center will provide guidance to the EPA on how air pollution emissions and concentrations are anticipated to change in the future and will evaluate strategies for reducing air pollution.
The center is funded by a $10 million Air, Climate and Energy (ACE) grant from the U.S. Environmental Protection Agency to help address the nation’s pressing need for better air quality.
The new MSTI degree is the first U.S.-based program offered through the Global Innovation Exchange (GIX). Students will work on real-world challenges with faculty experts and industry professionals in a project-based, globally-focused learning environment.
GIX is a partnership between the UW — three engineering programs and the business, information and law schools — and Tsinghua University in China, with foundational support from Microsoft.
A research team led by Radha Poovendran has won a $7.5 million grant from the U.S. Department of Defense to better model and mount defenses against stealthy, continuous computer hacking attacks known as "advanced persistent threats."
"... these threats exploit vulnerabilities and persist over a very long time and they're very difficult to detect," said Poovendran, chair of UW Electrical Engineering and director of the Network Security Lab, which he founded in 2001. "Right now, there is no good understanding of the interactions in these complex cyberattacks or how to mitigate them."
The MURI team also includes UW co-investigator and electrical engineering associate professor Maryam Fazel.
Rajesh Rao is among 3 UW professors and 178 U.S. and Canadian scholars, artists, and scientists recognized this year by the Guggenheim Foundation.
Rao is the director of the Center for Sensorimotor Neural Engineering, a professor of computer science & engineering, and an adjunct professor in the electrical engineering and bioengineering departments. His research spans the areas of computational neuroscience, artificial intelligence, and brain-computer interfacing. With his collaborators, he has proposed theories of how the brain might work based on computational ideas such as predictive coding, Bayesian modeling and reinforcement learning. He has proposed new methods for robotic learning based on how children learn by watching and imitating others. Rao's group was the first to demonstrate direct brain control of a humanoid robot in 2006 and direct brain-to-brain communication between humans in 2013.
The UW has joined NextFlex, a consortium of 30 academic institutions and industrial partners to develop the next generation of flexible electronic devices. In addition to use of NextFlex’s Silicon Valley infrastructure and funding, the UW and its industry partners could combine funds, personnel, time, materials and facilities. Prof. J. Devin MacKenzie (ME, MSE, CEI) helped secure funding for NextFlex. As a founding member of this alliance, the UW will seek local and regional partners in the electronics and manufacturing industries to develop and produce flexible electronics for applications from medicine to transportation.
Mobile and wearable devices are shrinking to the size of a matchbook, making it tough for people to interact with screens. FingerIO tracks fine-grained finger movements by turning a smartphone or smartwatch into an active sonar system using the device’s own microphones and speakers.
In a paperto be presented in May at the Association for Computing Machinery’s CHI 2016 conference, the UW team demonstrates that FingerIO can accurately track two-dimensional finger movements to within 8mm, which is sufficiently accurate to interact with today’s mobile devices. The work was recognized with an honorable mention award by the conference. Rajalakshmi Nandakumar, a UW doctoral student in computer science and engineering, is the lead author.
Put your phone away when I’m talking to you. Don’t text while you’re driving — not even at red lights. Stop posting photos of me without my permission.
A new study from Human Centered Design Engineering Ph.D. student Alexis Hiniker, HCDE Professor Julie Kientz, and University of Michigan Professor Sarita Schoenebeck looks at the increasing prevalence of technology use in family life. In a survey of parent-child pairs across the United States, the team discovered what types of internet and smartphone rules families are establishing, and how easy or difficult the rules are for both parents and children to follow.
HCDE researchers found doctors lack the tools and capacity to interpret a deluge of fitness, food and lifestyle data that patients are self-tracking. In a study that won a best paper award and will be presented at the ACM conference on Computer-Supported Cooperative Work and Social Computing, the UW team surveyed 211 patients and interviewed 21 doctors, dietitians and other health care providers about their expectations for how patients' self-tracking data should be shared and used.
"We've heard doctors say more and more that people bring this data into the clinic and they’re just overwhelmed by it," said lead author Christina Chung, a UW doctoral student in Human Centered Design & Engineering. The team, which includes UW physicians, computer scientists and engineers, is exploring ways to make self-tracking data more clinically useful and to help health care providers and patients collaboratively engage with it.