Double Branch Image Dehazing Algorithm Based on Probabilistic Uncertainty Modeling

Addressing the problem that deep learning methods fail to consider the uncertainty inherent in image dehazing results in real-world scenarios, this paper proposes PP-VAENet, a single-modal image dehazing method based on probabilistic uncertainty modeling. The PP-VAENet method innovatively decouples...

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Veröffentlicht in:2025 8th International Conference on Computer Information Science and Application Technology (CISAT) S. 574 - 578
Hauptverfasser: Zhou, Yuchao, Sun, Hongyu, Dong, Jingwei, Yan, Yinuo, Shao, Luyang
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: IEEE 11.07.2025
Schlagworte:
Decision making
Deep learning
Feature extraction
Image dehazing
Maximum likelihood estimation
Probabilistic logic
Robustness
Synthetic data
Uncertainty
Uncertainty modeling
Visual effects
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Zusammenfassung:Addressing the problem that deep learning methods fail to consider the uncertainty inherent in image dehazing results in real-world scenarios, this paper proposes PP-VAENet, a single-modal image dehazing method based on probabilistic uncertainty modeling. The PP-VAENet method innovatively decouples the dehazing process into two stages: distribution estimation and consensus decision-making: (1) constructing latent space distributions through Conditional Variational Autoencoder (CVAE), then combining with Probabilistic Adaptive Instance Normalization module (PAdaIN) to generate multiple reasonable candidate dehazed images; (2) finally selecting the optimal dehazed image from candidate results through Maximum Likelihood Estimation. To enhance the network's feature representation capability when constructing distribution estimation, this paper designs the NIN-Mamba module to fuse local feature extraction with global dependency modeling. Comparative experimental results on public datasets demonstrate that PP-VAENet surpasses existing advanced single-modal image dehazing algorithms in both quantitative and qualitative results.
DOI:10.1109/CISAT66811.2025.11181867