Abstract
Through wireless localization, the position of a device (user) can be computed in a world coordinate system using wireless signals. Wireless localization systems for estimating device/user location typically involve fusing measurement data obtained from multiple access points (APs) by compute end-point, such as a cloud/edge-node. Such systems, however, are prone to attacks that can be launched against a compute end-point. To address such issues, techniques herein involve running wireless localization algorithms on a new paradigm of computing involving secure enclave technology through which localization algorithms can be protected from tampering. As a result, applications that may be vulnerable to location manipulation can be more trusted to take action based on their own interpretations of sensor data.
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Kalyanaraman, Avinash and Voit, Eric, "SECURE WIRELESS LOCALIZATION USING TRUSTED EXECUTION ENVIRONMENTS", Technical Disclosure Commons, (October 26, 2021)
https://www.tdcommons.org/dpubs_series/4674