Related papers: InterLCM: Low-Quality Images as Intermediate States of Latent Consistency Models for Effective Blind Face Restoration

InterLCM: Low-Quality Images as Intermediate States of Latent Consistency Models for Effective Blind Face Restoration

URL: http://arxiv.org/abs/2502.02215v1
Date: Tue, 04 Feb 2025 10:51:20 GMT
Title: InterLCM: Low-Quality Images as Intermediate States of Latent Consistency Models for Effective Blind Face Restoration
Authors: Senmao Li, Kai Wang, Joost van de Weijer, Fahad Shahbaz Khan, Chun-Le Guo, Shiqi Yang, Yaxing Wang, Jian Yang, Ming-Ming Cheng,
Abstract summary: Diffusion priors have been used for blind face restoration (BFR) by fine-tuning diffusion models (DMs) on restoration datasets to recover low-quality images. We propose InterLCM to leverage the latent consistency model (LCM) for its superior semantic consistency and efficiency. InterLCM outperforms existing approaches in both synthetic and real-world datasets while also achieving faster inference speed.
Score: 106.70903819362402
License:
Abstract: Diffusion priors have been used for blind face restoration (BFR) by fine-tuning diffusion models (DMs) on restoration datasets to recover low-quality images. However, the naive application of DMs presents several key limitations. (i) The diffusion prior has inferior semantic consistency (e.g., ID, structure and color.), increasing the difficulty of optimizing the BFR model; (ii) reliance on hundreds of denoising iterations, preventing the effective cooperation with perceptual losses, which is crucial for faithful restoration. Observing that the latent consistency model (LCM) learns consistency noise-to-data mappings on the ODE-trajectory and therefore shows more semantic consistency in the subject identity, structural information and color preservation, we propose InterLCM to leverage the LCM for its superior semantic consistency and efficiency to counter the above issues. Treating low-quality images as the intermediate state of LCM, InterLCM achieves a balance between fidelity and quality by starting from earlier LCM steps. LCM also allows the integration of perceptual loss during training, leading to improved restoration quality, particularly in real-world scenarios. To mitigate structural and semantic uncertainties, InterLCM incorporates a Visual Module to extract visual features and a Spatial Encoder to capture spatial details, enhancing the fidelity of restored images. Extensive experiments demonstrate that InterLCM outperforms existing approaches in both synthetic and real-world datasets while also achieving faster inference speed.

Related papers

MMAR: Towards Lossless Multi-Modal Auto-Regressive Probabilistic Modeling [64.09238330331195]
We propose a novel Multi-Modal Auto-Regressive (MMAR) probabilistic modeling framework. Unlike discretization line of method, MMAR takes in continuous-valued image tokens to avoid information loss. We show that MMAR demonstrates much more superior performance than other joint multi-modal models.
arXiv Detail & Related papers (2024-10-14T17:57:18Z)
DenoMamba: A fused state-space model for low-dose CT denoising [6.468495781611433]
Low-dose computed tomography (LDCT) lower potential risks linked to radiation exposure. LDCT denoising is based on neural network models that learn data-driven image priors to separate noise evoked by dose reduction from underlying tissue signals. DenoMamba is a novel denoising method based on state-space modeling (SSM) that efficiently captures short- and long-range context in medical images.
arXiv Detail & Related papers (2024-09-19T21:32:07Z)
TC-KANRecon: High-Quality and Accelerated MRI Reconstruction via Adaptive KAN Mechanisms and Intelligent Feature Scaling [8.301957310590712]
This study presents an innovative conditional guided diffusion model, named as TC-KANRecon. It incorporates the Multi-Free U-KAN (MF-UKAN) module and a dynamic clipping strategy. Experimental results demonstrate that the proposed method outperforms other MRI reconstruction methods in both qualitative and quantitative evaluations.
arXiv Detail & Related papers (2024-08-11T06:31:56Z)
Continual Panoptic Perception: Towards Multi-modal Incremental Interpretation of Remote Sensing Images [16.0258685984844]
Continual learning (CL) breaks off the one-way training manner and enables a model to adapt to new data, semantics and tasks continuously. We propose a unified continual learning model that leverages multi-task joint learning covering pixel-level classification, instance-level segmentation and image-level perception.
arXiv Detail & Related papers (2024-07-19T12:22:32Z)
SSP-IR: Semantic and Structure Priors for Diffusion-based Realistic Image Restoration [20.873676111265656]
SSP-IR aims to fully exploit semantic and structure priors from low-quality images. Our method outperforms other state-of-the-art methods overall on both synthetic and real-world datasets.
arXiv Detail & Related papers (2024-07-04T04:55:14Z)
Binarized Diffusion Model for Image Super-Resolution [61.963833405167875]
Binarization, an ultra-compression algorithm, offers the potential for effectively accelerating advanced diffusion models (DMs) Existing binarization methods result in significant performance degradation. We introduce a novel binarized diffusion model, BI-DiffSR, for image SR.
arXiv Detail & Related papers (2024-06-09T10:30:25Z)
DeeDSR: Towards Real-World Image Super-Resolution via Degradation-Aware Stable Diffusion [27.52552274944687]
We introduce a novel two-stage, degradation-aware framework that enhances the diffusion model's ability to recognize content and degradation in low-resolution images. In the first stage, we employ unsupervised contrastive learning to obtain representations of image degradations. In the second stage, we integrate a degradation-aware module into a simplified ControlNet, enabling flexible adaptation to various degradations.
arXiv Detail & Related papers (2024-03-31T12:07:04Z)
Reti-Diff: Illumination Degradation Image Restoration with Retinex-based Latent Diffusion Model [59.08821399652483]
Illumination degradation image restoration (IDIR) techniques aim to improve the visibility of degraded images and mitigate the adverse effects of deteriorated illumination. Among these algorithms, diffusion model (DM)-based methods have shown promising performance but are often burdened by heavy computational demands and pixel misalignment issues when predicting the image-level distribution. We propose to leverage DM within a compact latent space to generate concise guidance priors and introduce a novel solution called Reti-Diff for the IDIR task. Reti-Diff comprises two key components: the Retinex-based latent DM (RLDM) and the Retinex-guided transformer (RG
arXiv Detail & Related papers (2023-11-20T09:55:06Z)
Enhancing Low-light Light Field Images with A Deep Compensation Unfolding Network [52.77569396659629]
This paper presents the deep compensation network unfolding (DCUNet) for restoring light field (LF) images captured under low-light conditions. The framework uses the intermediate enhanced result to estimate the illumination map, which is then employed in the unfolding process to produce a new enhanced result. To properly leverage the unique characteristics of LF images, this paper proposes a pseudo-explicit feature interaction module.
arXiv Detail & Related papers (2023-08-10T07:53:06Z)
Bridging Synthetic and Real Images: a Transferable and Multiple Consistency aided Fundus Image Enhancement Framework [61.74188977009786]
We propose an end-to-end optimized teacher-student framework to simultaneously conduct image enhancement and domain adaptation. We also propose a novel multi-stage multi-attention guided enhancement network (MAGE-Net) as the backbones of our teacher and student network.
arXiv Detail & Related papers (2023-02-23T06:16:15Z)

This list is automatically generated from the titles and abstracts of the papers in this site.