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Main Authors: Hashmi, Sarim, Elsayed, Abdelrahman, Alam, Mohammed Talha, Poppi, Samuele, Lukas, Nils
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.15182
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author Hashmi, Sarim
Elsayed, Abdelrahman
Alam, Mohammed Talha
Poppi, Samuele
Lukas, Nils
author_facet Hashmi, Sarim
Elsayed, Abdelrahman
Alam, Mohammed Talha
Poppi, Samuele
Lukas, Nils
contents Generative models can synthesize highly realistic content, so-called deepfakes, that are already being misused at scale to undermine digital media authenticity. Current deepfake detection methods are unreliable for two reasons: (i) distinguishing inauthentic content post-hoc is often impossible (e.g., with memorized samples), leading to an unbounded false positive rate (FPR); and (ii) detection lacks robustness, as adversaries can adapt to known detectors with near-perfect accuracy using minimal computational resources. To address these limitations, we propose a resynthesis framework to determine if a sample is authentic or if its authenticity can be plausibly denied. We make two key contributions focusing on the high-precision, low-recall setting against efficient (i.e., compute-restricted) adversaries. First, we demonstrate that our calibrated resynthesis method is the most reliable approach for verifying authentic samples while maintaining controllable, low FPRs. Second, we show that our method achieves adversarial robustness against efficient adversaries, whereas prior methods are easily evaded under identical compute budgets. Our approach supports multiple modalities and leverages state-of-the-art inversion techniques.
format Preprint
id arxiv_https___arxiv_org_abs_2512_15182
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Robust and Calibrated Detection of Authentic Multimedia Content
Hashmi, Sarim
Elsayed, Abdelrahman
Alam, Mohammed Talha
Poppi, Samuele
Lukas, Nils
Computer Vision and Pattern Recognition
Generative models can synthesize highly realistic content, so-called deepfakes, that are already being misused at scale to undermine digital media authenticity. Current deepfake detection methods are unreliable for two reasons: (i) distinguishing inauthentic content post-hoc is often impossible (e.g., with memorized samples), leading to an unbounded false positive rate (FPR); and (ii) detection lacks robustness, as adversaries can adapt to known detectors with near-perfect accuracy using minimal computational resources. To address these limitations, we propose a resynthesis framework to determine if a sample is authentic or if its authenticity can be plausibly denied. We make two key contributions focusing on the high-precision, low-recall setting against efficient (i.e., compute-restricted) adversaries. First, we demonstrate that our calibrated resynthesis method is the most reliable approach for verifying authentic samples while maintaining controllable, low FPRs. Second, we show that our method achieves adversarial robustness against efficient adversaries, whereas prior methods are easily evaded under identical compute budgets. Our approach supports multiple modalities and leverages state-of-the-art inversion techniques.
title Robust and Calibrated Detection of Authentic Multimedia Content
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2512.15182