Unterscheidung zwischen realen und KI-generierten Bildern, commonly referred to as
‘image detection’, stellt eine zeitgemäße und bedeutende Herausforderung dar. Despite
extensive research in the (halb-)überwachtes Regime, zero-shot and few-shot
solutions have only recently emerged as promising alternatives. Their main
advantage is in alleviating the ongoing data maintenance, which quickly becomes
outdated due to advances in generative technologies. We identify two main gaps:
(1) a lack of theoretical grounding for the methods, Und (2) significant room
for performance improvements in zero-shot and few-shot regimes. Our approach is
founded on understanding and quantifying the biases inherent in generated
content, where we use these quantities as criteria for characterizing generated
images. Speziell, we explore the biases of the implicit probability
manifold, captured by a pre-trained diffusion model. Through score-function
Analyse, we approximate the curvature, gradient, and bias towards points on
the probability manifold, establishing criteria for detection in the zero-shot
regime. We further extend our contribution to the few-shot setting by employing
a mixture-of-experts methodology. Empirical results across 20 generative models
demonstrate that our method outperforms current approaches in both zero-shot
and few-shot settings. This work advances the theoretical understanding and
practical usage of generated content biases through the lens of manifold
Analyse.

Dieser Artikel untersucht Zeitreisen und deren Auswirkungen.

PDF herunterladen: