High-Perceptual Quality JPEG Decoding via Posterior Sampling
- URL: http://arxiv.org/abs/2211.11827v2
- Date: Wed, 30 Aug 2023 18:39:25 GMT
- Title: High-Perceptual Quality JPEG Decoding via Posterior Sampling
- Authors: Sean Man, Guy Ohayon, Theo Adrai and Michael Elad
- Abstract summary: We propose a different paradigm for JPEG artifact correction.
We aim to obtain sharp, detailed and visually reconstructed images, while being consistent with the compressed input.
Our solution offers a diverse set of plausible and fast reconstructions for a given input with perfect consistency.
- Score: 13.238373528922194
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: JPEG is arguably the most popular image coding format, achieving high
compression ratios via lossy quantization that may create visual artifacts
degradation. Numerous attempts to remove these artifacts were conceived over
the years, and common to most of these is the use of deterministic
post-processing algorithms that optimize some distortion measure (e.g., PSNR,
SSIM). In this paper we propose a different paradigm for JPEG artifact
correction: Our method is stochastic, and the objective we target is high
perceptual quality -- striving to obtain sharp, detailed and visually pleasing
reconstructed images, while being consistent with the compressed input. These
goals are achieved by training a stochastic conditional generator (conditioned
on the compressed input), accompanied by a theoretically well-founded loss
term, resulting in a sampler from the posterior distribution. Our solution
offers a diverse set of plausible and fast reconstructions for a given input
with perfect consistency. We demonstrate our scheme's unique properties and its
superiority to a variety of alternative methods on the FFHQ and ImageNet
datasets.
Related papers
- Once-for-All: Controllable Generative Image Compression with Dynamic Granularity Adaption [57.056311855630916]
We propose a Controllable Generative Image Compression framework, Control-GIC.
It is capable of fine-grained adaption across a broad spectrum while ensuring high-fidelity and generality compression.
We develop a conditional conditionalization that can trace back to historic encoded multi-granularity representations.
arXiv Detail & Related papers (2024-06-02T14:22:09Z) - JDEC: JPEG Decoding via Enhanced Continuous Cosine Coefficients [17.437568540883106]
We propose a practical approach to JPEG image decoding, utilizing a local implicit neural representation with continuous cosine formulation.
Our proposed network achieves state-of-the-art performance in flexible color image JPEG artifact removal tasks.
arXiv Detail & Related papers (2024-04-03T03:28:04Z) - Semantic Ensemble Loss and Latent Refinement for High-Fidelity Neural Image Compression [58.618625678054826]
This study presents an enhanced neural compression method designed for optimal visual fidelity.
We have trained our model with a sophisticated semantic ensemble loss, integrating Charbonnier loss, perceptual loss, style loss, and a non-binary adversarial loss.
Our empirical findings demonstrate that this approach significantly improves the statistical fidelity of neural image compression.
arXiv Detail & Related papers (2024-01-25T08:11:27Z) - JND-Based Perceptual Optimization For Learned Image Compression [42.822121565430926]
We propose a JND-based perceptual quality loss for learned image compression schemes.
We show that the proposed method has led to better perceptual quality than the baseline model under the same bit rate.
arXiv Detail & Related papers (2023-02-25T14:49:09Z) - Neural JPEG: End-to-End Image Compression Leveraging a Standard JPEG
Encoder-Decoder [73.48927855855219]
We propose a system that learns to improve the encoding performance by enhancing its internal neural representations on both the encoder and decoder ends.
Experiments demonstrate that our approach successfully improves the rate-distortion performance over JPEG across various quality metrics.
arXiv Detail & Related papers (2022-01-27T20:20:03Z) - Towards Flexible Blind JPEG Artifacts Removal [73.46374658847675]
We propose a flexible blind convolutional neural network, namely FBCNN, that can predict the adjustable quality factor to control the trade-off between artifacts removal and details preservation.
Our proposed FBCNN achieves favorable performance against state-of-the-art methods in terms of both quantitative metrics and visual quality.
arXiv Detail & Related papers (2021-09-29T17:12:10Z) - Perceptual Image Restoration with High-Quality Priori and Degradation
Learning [28.93489249639681]
We show that our model performs well in measuring the similarity between restored and degraded images.
Our simultaneous restoration and enhancement framework generalizes well to real-world complicated degradation types.
arXiv Detail & Related papers (2021-03-04T13:19:50Z) - The Rate-Distortion-Accuracy Tradeoff: JPEG Case Study [30.84385779593074]
We focus on the design of the quantization tables in the JPEG compression standard.
We offer a novel optimal tuning of these tables via continuous optimization.
We report a substantial boost in performance by a simple and easily implemented modification of these tables.
arXiv Detail & Related papers (2020-08-03T01:39:01Z) - Early Exit or Not: Resource-Efficient Blind Quality Enhancement for
Compressed Images [54.40852143927333]
Lossy image compression is pervasively conducted to save communication bandwidth, resulting in undesirable compression artifacts.
We propose a resource-efficient blind quality enhancement (RBQE) approach for compressed images.
Our approach can automatically decide to terminate or continue enhancement according to the assessed quality of enhanced images.
arXiv Detail & Related papers (2020-06-30T07:38:47Z) - Quantization Guided JPEG Artifact Correction [69.04777875711646]
We develop a novel architecture for artifact correction using the JPEG files quantization matrix.
This allows our single model to achieve state-of-the-art performance over models trained for specific quality settings.
arXiv Detail & Related papers (2020-04-17T00:10:08Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.