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Gait-Based Implicit Authentication Using Edge Computing and Deep Learning for Mobile Devices

Xin Zeng, Xiaomei Zhang, Shuqun Yang, Zhicai Shi, Chi‐Hung Chi

2021Sensors43 citationsDOIOpen Access PDF

Abstract

Implicit authentication mechanisms are expected to prevent security and privacy threats for mobile devices using behavior modeling. However, recently, researchers have demonstrated that the performance of behavioral biometrics is insufficiently accurate. Furthermore, the unique characteristics of mobile devices, such as limited storage and energy, make it subject to constrained capacity of data collection and processing. In this paper, we propose an implicit authentication architecture based on edge computing, coined Edge computing-based mobile Device Implicit Authentication (EDIA), which exploits edge-based gait biometric identification using a deep learning model to authenticate users. The gait data captured by a device's accelerometer and gyroscope sensors is utilized as the input of our optimized model, which consists of a CNN and a LSTM in tandem. Especially, we deal with extracting the features of gait signal in a two-dimensional domain through converting the original signal into an image, and then input it into our network. In addition, to reduce computation overhead of mobile devices, the model for implicit authentication is generated on the cloud server, and the user authentication process also takes place on the edge devices. We evaluate the performance of EDIA under different scenarios where the results show that i) we achieve a true positive rate of 97.77% and also a 2% false positive rate; and ii) EDIA still reaches high accuracy with limited dataset size.

Topics & Concepts

Computer scienceMobile deviceAuthentication (law)BiometricsCloud computingEnhanced Data Rates for GSM EvolutionEdge computingExploitOverhead (engineering)Deep learningAccelerometerGaitMobile edge computingArtificial intelligenceReal-time computingComputer securityPhysiologyOperating systemBiologyGait Recognition and AnalysisUser Authentication and Security SystemsVideo Surveillance and Tracking Methods
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