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Toward Multi-User Authentication Using WiFi Signals

Hao Kong, Li Lü, Jiadi Yu, Yingying Chen, Xiangyu Xu, Feng Lyu

2023IEEE/ACM Transactions on Networking12 citationsDOI

Abstract

User authentication nowadays has become an important support for not only security guarantees but also emerging novel applications. Although WiFi signal-based user authentication has achieved initial success, it works in single-user scenarios while multi-user authentication remains a challenging task. In this paper, we present MultiAuth, a multi-user authentication system that can authenticate multiple users with a single pair of commodity WiFi devices. The basic idea is to profile multipath components of WiFi signals, and leverage the multipath components to characterize each user individually for multi-user authentication. MultiAuth first profiles multipath components of WiFi signals through a proposed MUltipath Time-of-Arrival estimation algorithm (MUTA). Then, after matching corresponding multipath components to each user in complex multi-user scenarios, MultiAuth constructs individual CSI based on the multipath components to characterize each user individually. An AoA-based approach is exploited to further separate individual CSI constructed by the users with same ToA. To identify users through their activities, MultiAuth extracts user behavior profiles based on the individual CSI, and leverages a dual-task neural network for robust user authentication. Extensive experiments involving 3 simultaneously present users demonstrate that MultiAuth is effective in multi-user authentication with 86.2% average accuracy and 9.5% average false accept rate.

Topics & Concepts

Computer scienceMultipath propagationAuthentication (law)Leverage (statistics)Multi-userComputer networkReal-time computingComputer securityChannel (broadcasting)Artificial intelligenceIndoor and Outdoor Localization TechnologiesSpeech and Audio ProcessingWireless Networks and Protocols
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