MIT Technology Review has named ÌìÃÀÓ°ÊÓ´«Ã½ professor one of . Roesner is a faculty member in the and co-director of the school’s .
Roesner’s research spans a number of projects related to privacy and security in emerging technologies. Though these endeavors include diverse platforms such as augmented reality and encrypted communication, her focus is often on the user experience — specifically, identifying the that may arise, and mitigating those issues to ensure that new technologies can fulfill their potential for end users.
“Some of these technologies have been envisioned for decades, but have only recently been within our grasp,” said Roesner. “So we’re now at a point where we must ask questions such as, ‘How will security or privacy issues be different with these new technological platforms? And how can we design these systems to mitigate those issues?'”
Much of Roesner’s current research focuses on computer security and privacy in augmented reality technologies. Augmented reality, or AR, is aptly named. These are technology platforms in which digital content — such as labels or virtual, 3-D objects — is overlaid on a display of the real world. One contemporary example is Pokemon Go, the popular game that displays artificial characters over real scenes through a smartphone or tablet camera.
But the potential for augmented-reality technologies is not just in games. They could soon include devices and apps that are as indispensable as email access is today on a smartphone. Roesner’s research considers security concerns in AR technologies — such as the potential risk of having cameras and sensors constantly drinking up information about a user’s environment — as well as the potential risks of expressly malicious, or simply low-quality or “buggy,” apps that could place an AR user at risk. For example, consider an AR application for a car windshield that intentionally or accidentally blocks the driver’s view of oncoming cars. In these endeavors, she has also engaged directly with companies developing AR platforms, including , a Silicon Valley AR company, and Microsoft Research.
Roesner also conducts research on how well users adopt and interact with security tools for a variety of technologies.
“Ideally, we’d like to design and build security and privacy tools that actually work for end users,” said Roesner. “But to do that, we need to engage with those users, to understand what they need, and not build technology in isolation.”
For example, in recent efforts she on tools to protect anonymous or other sensitive sources. Much of this initial research involved looking thoroughly at the different approaches that journalists currently take to communicate with their sources and conduct research for a story. Understanding how journalists work, and how existing security tools may fail to serve their needs, can help build a more effective security tools like improved email encryption, Roesner said. To that end, her team has created , a new email encryption tool that emphasizes usability.
Roesner’s research has also uncovered current privacy risks in technologies, such as and . In these and other endeavors, she sees no shortage of pressing questions.
“As our technologies progress and become even more integral to our lives, the push to consider privacy and security issues will only increase,” said Roesner.
MIT Technology Review has released its list of top innovators under 35 each year since 1999. Past UW honorees include , associate professor of human centered design and engineering; , assistant professor of global health at the ; , a professor in both the Allen School and the Department of Electrical Engineering; Allen School professor , who is co-director of both the Security and Privacy Laboratory and the ; and , associate professor in the Allen School.
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For more information, contact Roesner at franzi@cs.washington.edu.