BibTeX for papers by David Kotz; for complete/updated list see
https://www.cs.dartmouth.edu/~kotz/research/papers.html

@InProceedings{peters:via,
  author =        {Travis Peters and Timothy J. Pierson and Sougata Sen and Jos{\'{e}} Camacho and David Kotz},
  title =         {{Recurring Verification of Interaction Authenticity Within Bluetooth Networks}},
  booktitle =     {{Proceedings of the ACM Conference on Security and Privacy in Wireless and Mobile Networks (WiSec 2021)}},
  year =          2021,
  month =         {June},
  pages =         {192--203},
  publisher =     {ACM},
  copyright =     {ACM},
  DOI =           {10.1145/3448300.3468287},
  URL =           {https://www.cs.dartmouth.edu/~kotz/research/peters-via/index.html},
  abstract =      {Although user authentication has been well explored, device-to-device authentication -- specifically in Bluetooth networks -- has not seen the same attention. We propose Verification of Interaction Authenticity (VIA) -- a recurring authentication scheme based on evaluating characteristics of the communications (interactions) between devices. We adapt techniques from wireless traffic analysis and intrusion detection systems to develop behavioral models that capture typical, authentic device interactions (behavior); these models enable recurring verification of device behavior. To evaluate our approach we produced a new dataset consisting of more than 300 Bluetooth network traces collected from 20 Bluetooth-enabled smart-health and smart-home devices. In our evaluation, we found that devices can be correctly verified at a variety of granularities, achieving an F1-score of 0.86 or better in most cases.},
}