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International Journal of Advanced Artificial Intelligence Research

Open Access Peer Review International
Open Access

Generating Dual-Identity Face Impersonations with Generative Adversarial Networks: An Adversarial Attack Methodology

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Dr. Aris Thorne 1 ,
4 Department of Computer Vision and Machine Learning, Cygnus Labs AI, Cambridge, USA

Abstract

Background: Face recognition systems, powered by deep neural networks, are increasingly integral to security and user authentication applications. However, these systems are vulnerable to adversarial attacks, where carefully crafted inputs deceive the model. While existing research has explored attacks that cause misclassification (dodging) or impersonate a single target, a more complex threat involves generating a single face that can be successfully verified as two separate identities—a "dual-identity" attack.

Objective: This paper introduces and evaluates a novel methodology for crafting dual-identity face impersonations using Generative Adversarial Networks (GANs). Our objective is to develop an end-to-end framework capable of generating a single, visually plausible facial image that can successfully deceive a state-of-the-art face recognition system into matching it with two distinct, pre-selected target identities.

Methods: We propose a GAN-based architecture specifically designed for this attack. The core of our contribution is a novel dual-identity loss function that simultaneously maximizes the similarity score with two different target identities while minimizing the visual perturbation to a source image. The methodology leverages a momentum-iterative algorithm to enhance attack strength and ensure high transferability to black-box models. We trained and evaluated our system using the Labeled Faces in the Wild (LFW) dataset against several state-of-the-art face recognition models, including ArcFace and GhostFaceNets.

Results: Our proposed method achieved a high Attack Success Rate (ASR), successfully fooling target models into verifying the generated image as both identities in a significant percentage of test cases. The attack also demonstrated strong transferability to black-box systems. Qualitative results show that the generated adversarial faces remain visually coherent and inconspicuous, making them practical for stealthy attacks.

Conclusion: The ability to generate dual-identity impersonations represents a significant evolution in adversarial threats against biometric security. Our findings underscore a critical vulnerability in current face recognition systems and highlight the urgent need for developing more robust defense mechanisms against sophisticated, GAN-driven adversarial attacks.

Keywords

Generative Adversarial Networks (GANs), Adversarial Attacks, Face Recognition

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