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Users are Closer than They Appear

Roshan Ayyalasomayajula, Aditya Arun, Wei Sun, Dinesh Bharadia

202313 citationsDOI

Abstract

WiFi-based indoor localization has now matured for over a decade. Most of the current localization algorithms rely on the WiFi access points (APs) in the enterprise network to localize the WiFi user accurately. Thus, the WiFi user's location information could be easily snooped by an attacker listening through a compromised WiFi AP. With indoor localization and navigation being the next step towards automation, it is important to give users the capability to defend against such attacks. In this paper, we present MIRAGE, a system that can utilize the downlink physical layer information to create a defense against an attacker snooping on a WiFi user's location information. MIRAGE achieves this by utilizing the beam-forming capability of the transmitter that is already part of the WiFi standard protocols. With this initial idea, we have demonstrated that the user can obfuscate his/her location from the WiFi AP always with no compromise to the throughput of the existing WiFi communication system through the real-world prototype, and reduce the user location accuracy of the attacker from 2.3m to more than 10m through simulation.

Topics & Concepts

Computer scienceComputer networkTelecommunications linkThroughputPhysical layerComputer securityAutomationTransmitterWirelessTelecommunicationsEngineeringChannel (broadcasting)Mechanical engineeringIndoor and Outdoor Localization TechnologiesWireless Networks and ProtocolsUnderwater Vehicles and Communication Systems
Users are Closer than They Appear | Litcius