Contact

University of Oldenburg Faculty II - Department of Computer Science Department Safety-Security-Interaction 26111 Oldenburg

Secretariat

Ingrid Ahlhorn

A03 2-208

+49 (0) 441 - 798 2426

Safety-Security-Interaction

Welcome to the Safety-Security-Interaction Group!

The Safety-Security-Interaction group is concerned with the development of theoretically sound technologies for maintaining the security of IT systems in the context of safety-critical systems and the Internet of Things. The focus is on the development of security solutions that are tailored to the context-specific conditions and that take into account various types of user-interaction as well as the functional safety of the to-be-protected systems.

News

Article at top conference IEEE IJCB 2023

Our paper „Template Recovery Attack on Homomorphically Encrypted Biometric Recognition Systems with Unprotected Threshold Comparison” got accepted at the top conference IEEE IJCB 2023!

Our paper „Template Recovery Attack on Homomorphically Encrypted Biometric Recognition Systems with Unprotected Threshold Comparison” got accepted at the top conference IEEE IJCB 2023!

Short summary:

Privacy-preserving biometric template protection schemes (BTPs) preserve biometric data by hiding biometric representations via a privacy-preserving mechanism (such as homomorphic encryption) and comparing the protected templates while conserving the recognition scores as in an embedding space. However, it is often tolerated to reveal these scores after performing a biometric comparison to gain efficiency and perform the score comparison directly on cleartext data. Through this work, we demonstrate that this cleartext score tolerance can lead to privacy breaches and bypass recognition systems, threatening those BTPs in the case of inner product-based facial template comparisons. We propose a template recovery attack that requires no training and a few random fake templates with their corresponding scores, from which we are able to recover the unprotected target template using the Lagrange multiplier optimization method. We evaluate our attack by verifying whether the recovered template is deemed similar to the target template held by recognition systems set to accept 0.1%, 0.01%, and 0.001% FMR. We estimate that between 60 to 165 revealed scores and fake templates can lead to a template recovery with a 100% success rate. We analyzed the impact of recovered templates by measuring the amount of gender information they contain, as well as their resemblance to the reconstructed images of their target templates.

» Publications

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