Achieving Complex Image Edits via Function Aggregation with Diffusion Models
- URL: http://arxiv.org/abs/2408.08495v1
- Date: Fri, 16 Aug 2024 02:33:55 GMT
- Title: Achieving Complex Image Edits via Function Aggregation with Diffusion Models
- Authors: Mohammadreza Samadi, Fred X. Han, Mohammad Salameh, Hao Wu, Fengyu Sun, Chunhua Zhou, Di Niu,
- Abstract summary: Diffusion models have demonstrated strong performance in generative tasks, making them ideal candidates for image editing.
We introduce FunEditor, an efficient diffusion model designed to learn atomic editing functions and perform complex edits by aggregating simpler functions.
FunEditor is 5 to 24 times faster inference than existing methods on complex tasks like object movement.
- Score: 15.509233098264513
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Diffusion models have demonstrated strong performance in generative tasks, making them ideal candidates for image editing. Recent studies highlight their ability to apply desired edits effectively by following textual instructions, yet two key challenges persist. First, these models struggle to apply multiple edits simultaneously, resulting in computational inefficiencies due to their reliance on sequential processing. Second, relying on textual prompts to determine the editing region can lead to unintended alterations in other parts of the image. In this work, we introduce FunEditor, an efficient diffusion model designed to learn atomic editing functions and perform complex edits by aggregating simpler functions. This approach enables complex editing tasks, such as object movement, by aggregating multiple functions and applying them simultaneously to specific areas. FunEditor is 5 to 24 times faster inference than existing methods on complex tasks like object movement. Our experiments demonstrate that FunEditor significantly outperforms recent baselines, including both inference-time optimization methods and fine-tuned models, across various metrics, such as image quality assessment (IQA) and object-background consistency.
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