Related papers: Perception-based Image Denoising via Generative Compression

Perception-based Image Denoising via Generative Compression

URL: http://arxiv.org/abs/2602.11553v1
Date: Thu, 12 Feb 2026 04:21:26 GMT
Title: Perception-based Image Denoising via Generative Compression
Authors: Nam Nguyen, Thinh Nguyen, Bella Bose,
Abstract summary: Image denoising aims to remove noise while preserving structural details and perceptual realism.<n> distortion-driven methods often produce over-smoothed reconstructions, especially under strong noise and distribution shift.<n>This paper proposes a generative compression framework for perception-based denoising.
Score: 5.85669274676101
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Image denoising aims to remove noise while preserving structural details and perceptual realism, yet distortion-driven methods often produce over-smoothed reconstructions, especially under strong noise and distribution shift. This paper proposes a generative compression framework for perception-based denoising, where restoration is achieved by reconstructing from entropy-coded latent representations that enforce low-complexity structure, while generative decoders recover realistic textures via perceptual measures such as learned perceptual image patch similarity (LPIPS) loss and Wasserstein distance. Two complementary instantiations are introduced: (i) a conditional Wasserstein GAN (WGAN)-based compression denoiser that explicitly controls the rate-distortion-perception (RDP) trade-off, and (ii) a conditional diffusion-based reconstruction strategy that performs iterative denoising guided by compressed latents. We further establish non-asymptotic guarantees for the compression-based maximum-likelihood denoiser under additive Gaussian noise, including bounds on reconstruction error and decoding error probability. Experiments on synthetic and real-noise benchmarks demonstrate consistent perceptual improvements while maintaining competitive distortion performance.

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