In the "InstructGIE" paper, the authors propose a novel image editing framework that focuses on enhancing generalizability through in-context learning and language unification. They introduce innovative techniques such as VMamba-based modules, editing-shift matching, selective area matching, and language instruction unification to elevate the quality of image editing outputs. By compiling a new dataset for image editing with visual prompts and instructions, they demonstrate superior synthesis quality and robust generalization capabilities across unseen vision tasks.
The paper discusses recent advances in image editing driven by denoising diffusion models but highlights the limitations of current approaches in terms of generalization. The proposed InstructGIE framework addresses these challenges by boosting in-context learning capability and aligning language embeddings with editing semantics. Through experiments on a synthetic dataset, the authors show significant improvements in both quantitative metrics like FID scores and qualitative evaluations compared to baseline methods.
Key innovations include a reformed conditioned latent diffusion model for capturing visual contexts effectively, an editing-shift matching technique for accurate detailed outputs, language instruction unification for better understanding of text prompts, and selective area matching to address distorted details in images. Ablation studies confirm the importance of each component in enhancing image quality and following editing instructions accurately.
Overall, InstructGIE presents a comprehensive solution for improving image editing performance with a focus on generalizability across diverse tasks.
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arxiv.org
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by Zichong Meng... : arxiv.org 03-11-2024
https://arxiv.org/pdf/2403.05018.pdfDaha Derin Sorular