A medical device perspective on sensor security in safety-critical systems
Denis Foo Kune, Kevin Fu

Citation
Denis Foo Kune, Kevin Fu. "A medical device perspective on sensor security in safety-critical systems". Talk or presentation, 30, May, 2013; Invited talk at escar Embedded Security in Cars Workshop, USA 2013.

Abstract
Electromagnetic interference (EMI) affects circuits by inducing voltages on conductors. Analog sensing of signals on the order of a few millivolts is particularly sensitive to interference. This presentation outlines our work that (1) measures the susceptibility of analog sensor systems to signal injection attacks by intentional, low-power emission of chosen electromagnetic waveforms, and (2) proposes defense mechanisms to reduce the risks.

Electronic downloads


Internal. This publication has been marked by the author for TerraSwarm-only distribution, so electronic downloads are not available without logging in.
Citation formats  
  • HTML
    Denis Foo Kune, Kevin Fu. <a
    href="http://www.terraswarm.org/pubs/75.html"
    ><i>A medical device perspective on sensor security
    in safety-critical systems</i></a>, Talk or
    presentation,  30, May, 2013; Invited talk at escar Embedded
    Security in Cars Workshop, USA 2013.
  • Plain text
    Denis Foo Kune, Kevin Fu. "A medical device perspective
    on sensor security in safety-critical systems". Talk or
    presentation,  30, May, 2013; Invited talk at escar Embedded
    Security in Cars Workshop, USA 2013.
  • BibTeX
    @presentation{FooKuneFu13_MedicalDevicePerspectiveOnSensorSecurityInSafetycritical,
        author = {Denis Foo Kune and Kevin Fu},
        title = {A medical device perspective on sensor security in
                  safety-critical systems},
        day = {30},
        month = {May},
        year = {2013},
        note = {Invited talk at escar Embedded Security in Cars
                  Workshop, USA 2013},
        abstract = {Electromagnetic interference (EMI) affects
                  circuits by inducing voltages on conductors.
                  Analog sensing of signals on the order of a few
                  millivolts is particularly sensitive to
                  interference. This presentation outlines our work
                  that (1) measures the susceptibility of analog
                  sensor systems to signal injection attacks by
                  intentional, low-power emission of chosen
                  electromagnetic waveforms, and (2) proposes
                  defense mechanisms to reduce the risks. },
        URL = {http://terraswarm.org/pubs/75.html}
    }
    

Posted by Denis Foo Kune, Ph.D. on 14 Jun 2013.
Groups: services

Notice: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright.