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3D-Auth: Two-Factor Authentication with Personalized 3D-Printed Items

Karola Marky, Martin Schmitz, Verena Zimmermann, Martin Herbers, Kai Kunze, Max Mühlhäuser

202029 citationsDOI

Abstract

Two-factor authentication is a widely recommended security mechanism and already offered for different services. However, known methods and physical realizations exhibit considerable usability and customization issues. In this paper, we propose 3D-Auth, a new concept of two-factor authentication. 3D-Auth is based on customizable 3D-printed items that combine two authentication factors in one object. The object bottom contains a uniform grid of conductive dots that are connected to a unique embedded structure inside the item. Based on the interaction with the item, different dots turn into touch-points and form an authentication pattern. This pattern can be recognized by a capacitive touchscreen. Based on an expert design study, we present an interaction space with six categories of possible authentication interactions. In a user study, we demonstrate the feasibility of 3D-Auth items and show that the items are easy to use and the interactions are easy to remember.

Topics & Concepts

Computer scienceAuthentication (law)UsabilityFactor (programming language)Human–computer interactionObject (grammar)TouchscreenMulti-factor authenticationPersonalizationAuthentication protocolArtificial intelligenceComputer securityWorld Wide WebProgramming languageUser Authentication and Security SystemsInteractive and Immersive DisplaysInnovative Human-Technology Interaction
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