Computing Community Consortium Blog

The goal of the Computing Community Consortium (CCC) is to catalyze the computing research community to debate longer range, more audacious research challenges; to build consensus around research visions; to evolve the most promising visions toward clearly defined initiatives; and to work with the funding organizations to move challenges and visions toward funding initiatives. The purpose of this blog is to provide a more immediate, online mechanism for dissemination of visioning concepts and community discussion/debate about them.

NSF Distinguished Lecture: Modern Automotive Vulnerabilities: Problems, Causes and Outcomes

January 31st, 2018 / in Announcements, NSF, research horizons, Research News / by Helen Wright

NSF logoProfessor Stefan Savage of the University of California, San Diego will present “Modern Automotive Vulnerabilities: Problems, Causes, and Outcomes,” part of the National Science Foundation (NSF) Computer & Information Science & Engineering (CISE) Distinguished Lecture series on February 8, 2018, from 2:00PM to 3:00PM ET.

Stefan Savage is a professor of Computer Science and Engineering at the University of California, San Diego. He received his Ph.D. in Computer Science and Engineering from the University of Washington and a B.S. in Applied History from Carnegie Mellon University. Savage is a full-time empiricist, whose research interests lie at the intersection of computer security, distributed systems and networking.  He currently serves as co-director of UCSD’s Center for Network Systems (CNS) and for the Center for Evidence based Security Research (CESR). Savage is a MacArthur Fellow, a Sloan Fellow, an ACM Fellow, and is a recipient of the ACM Prize in Computing and the ACM SIGOPS Weiser Award.  He currently holds the Irwin and Joan Jacobs Chair in Information and Computer Science, but is a fairly down-to-earth guy and only writes about himself in the third person when asked.

Abstract

Over the last six years, a range of research has transformed our understanding of automobiles.  What we traditionally envisioned as mere mechanical conveyances are now more widely appreciated as complex distributed systems “with wheels”.  A car purchased today has virtually all aspects of its physical behavior mediated through dozens of microprocessors, themselves networked internally, and connected to a range of external digital channels.  As a result, software vulnerabilities in automotive firmware potentially allow an adversary to obtain arbitrary control over the vehicle. Indeed, multiple research groups have been able to demonstrate such remote control of unmodified automobiles from a variety of manufacturers.  In this talk, I’ll highlight how our understanding of automotive security vulnerabilities has changed over time, how unique challenges in the automotive sector give rise to these problems and create non-intuitive constraints on their solutions and the key role played by the research community driving industry and government response.

To attend in person, NSF visitors must contact Shanelle Cash (scash@nsf.gov), so that a visitor pass can be arranged. To attend virtually, join via WebEx.

Disclaimer: Posts on this blog report on happenings, opportunities, and issues that arise in the broad computing research community, and do not necessarily reflect the opinion of the CCC or the National Science Foundation.


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NSF Distinguished Lecture: Modern Automotive Vulnerabilities: Problems, Causes and Outcomes

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