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Bridging the Synthetic-to-Authentic Gap: Distortion-Guided Unsupervised Domain Adaptation for Blind Image Quality Assessment

Aobo Li, Jinjian Wu, Yongxu Liu, Leida Li

202415 citationsDOI

Abstract

The annotation of blind image quality assessment (BIQA) is labor-intensive and time-consuming, especially for authentic images. Training on synthetic data is expected to be beneficial, but synthetically trained models often suf-fer from poor generalization in real domains due to domain gaps. In this work, we make a key observation that introducing more distortion types in the synthetic dataset may not improve or even be harmful to generalizing au-thentic image quality assessment. To solve this challenge, we propose distortion-guided unsupervised domain adaptationfor BIQA (DGQA), a novel framework that leverages adaptive multi-domain selection via prior knowledge from distortion to match the data distribution between the source domains and the target domain, thereby reducing negative transfer from the outlier source domains. Extensive experiments on two cross-domain settings (synthetic distortion to authentic distortion and synthetic distortion to algorith-mic distortion) have demonstrated the effectiveness of our proposed DGQA. Besides, DGQA is orthogonal to existing model-based BIQA methods, and can be used in combi-nation with such models to improve performance with less training data.

Topics & Concepts

Bridging (networking)Distortion (music)Computer scienceImage qualityDomain adaptationArtificial intelligenceAdaptation (eye)Quality (philosophy)Computer visionImage (mathematics)Pattern recognition (psychology)PsychologyTelecommunicationsNeuroscienceComputer networkPhilosophyAmplifierBandwidth (computing)EpistemologyClassifier (UML)Image and Video Quality AssessmentAdvanced Image Processing TechniquesImage and Signal Denoising Methods
Bridging the Synthetic-to-Authentic Gap: Distortion-Guided Unsupervised Domain Adaptation for Blind Image Quality Assessment | Litcius