toplogo
התחברות
תובנה - Computer Science - # Image Inpainting

Towards Context-Stable and Visual-Consistent Image Inpainting: ASUKA Framework


מושגי ליבה
ASUKA framework enhances image inpainting by achieving context-stability and visual-consistency through alignment with a frozen SD model.
תקציר

The ASUKA framework proposes a balanced solution to address context-instability and visual inconsistency in image inpainting. By utilizing a Masked Auto-Encoder (MAE) as a prior, ASUKA aligns the MAE with the Stable Diffusion (SD) model to improve context stability. Additionally, an inpainting-specialized decoder is used to enhance visual consistency by mitigating color inconsistencies between masked and unmasked regions. The effectiveness of ASUKA is validated on benchmark datasets Places 2 and MISATO, showcasing superior results compared to state-of-the-art methods.

edit_icon

התאם אישית סיכום

edit_icon

כתוב מחדש עם AI

edit_icon

צור ציטוטים

translate_icon

תרגם מקור

visual_icon

צור מפת חשיבה

visit_icon

עבור למקור

סטטיסטיקה
Comparison on 10242 image between ASUKA and other inpainting models. MISATO dataset contains images from Matterport3D, Flickr-Landscape, MegaDepth, COCO 2014. SD achieves impressive results but suffers from context-instability and visual inconsistency issues.
ציטוטים
"ASUKA achieves context-stable and visual-consistent inpainting." "Recent progress in inpainting relies on generative models but introduces context-instability." "ASUKA significantly improves context stability compared to existing algorithms."

תובנות מפתח מזוקקות מ:

by Yikai Wang,C... ב- arxiv.org 03-19-2024

https://arxiv.org/pdf/2312.04831.pdf
Towards Context-Stable and Visual-Consistent Image Inpainting

שאלות מעמיקות

How can the curse of self-attention impact the effectiveness of advanced text-guided diffusion models

The curse of self-attention can significantly impact the effectiveness of advanced text-guided diffusion models by causing issues with accurately predicting masked regions. In the context of ASUKA, this curse arises from the inefficacy of the Masked Auto-Encoder (MAE) prior due to problems within the self-attention module. Specifically, when there are multiple similar objects in an image, the MAE may incorrectly predict a similar object in the masked region, leading to conflicts with objectives such as object removal. This issue is not unique to SD but is also prevalent in other advanced text-guided diffusion models like OpenAI’s DALL-E 2 and Adobe’s FireFly.

What are the implications of using a blank paper image as input for MAE prior in circumventing self-attention issues

Using a blank paper image as input for MAE prior can help circumvent self-attention issues by providing correct guidance for inpainting tasks. By utilizing a blank paper image instead of relying solely on textual prompts or existing images with complex content, ASUKA has the potential to overcome inaccuracies caused by self-attention modules. The use of a blank paper image ensures that MAE provides accurate priors for generating context-stable and visually consistent inpainting results without being influenced by potentially misleading visual cues present in real-world images.

How might ASUKA's approach be adapted for real-world industrial applications beyond benchmark datasets

ASUKA's approach could be adapted for real-world industrial applications beyond benchmark datasets by incorporating additional customization and fine-tuning based on specific requirements. For instance: Customized Prior Training: Tailoring MAE training to suit specific masking scenarios commonly encountered in industrial applications. Domain-Specific Alignment Modules: Developing alignment modules that are optimized for particular industries or use cases. Integration with Existing Systems: Integrating ASUKA into existing workflows and systems used in industries like graphic design, advertising, or e-commerce. Real-Time Inpainting Solutions: Optimizing ASUKA's algorithms for real-time performance to meet industry demands. Scalability and Efficiency Improvements: Enhancing scalability and efficiency through parallel processing or cloud-based solutions tailored for large-scale industrial applications. By adapting these strategies, ASUKA's approach can be effectively utilized across various industries where high-quality inpainting is crucial for enhancing visual content creation processes and ensuring consistency in digital assets production.
0
star