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

@InProceedings{hardin:mobisys17,
  author =        {Taylor Hardin and Josiah Hester and Patrick Proctor and Jacob Sorber and David Kotz},
  title =         {{Poster: Memory Protection in Ultra-Low-Power Multi-Application Wearables}},
  booktitle =     {{Proceedings of the ACM International Conference on Mobile Systems, Applications, and Services (MobiSys)}},
  year =          2017,
  month =         {June},
  pages =         170,
  publisher =     {ACM},
  copyright =     {ACM},
  DOI =           {10.1145/3081333.3089314},
  URL =           {https://www.cs.dartmouth.edu/~kotz/research/hardin-mobisys17/index.html},
  abstract =      {Ultra-low-power microcontrollers have historically not offered MPUs; only recently have MPUs become more prevalent, but many lack the functionality for sufficient memory management and protection. Thus, those who develop multi-application, multi-tenant platforms isolate applications using compile-time or run-time software sandboxing (e.g., AmuletOS), imposing limits on application developers and adding time/space overhead to running applications. We have developed methods, however, to leverage the limited MPUs and thereby reduce overhead cost by narrowing the use of software-based approaches.},
}