AdaptIR: Parameter Efficient Multi-task Adaptation for Pre-trained Image Restoration Models
Pre-training has shown promising results on various image restoration tasks, which is usually followed by full fine-tuning for each specific downstream task (e.g., image denoising). However, such full fine-tuning usually suffers from the problems of heavy computational cost in practice, due to the massive parameters of pre-trained restoration models, thus limiting its real-world applications. Recently, Parameter Efficient Transfer Learning (PETL) offers an efficient alternative solution to full fine-tuning, yet still faces great challenges for pre-trained image restoration models, due to the diversity of different degradations. To address these issues, we propose AdaptIR, a novel parameter efficient transfer learning method for adapting pre-trained restoration models. Specifically, the proposed method consists of a multi-branch inception structure to orthogonally capture local spatial, global spatial, and channel interactions. In this way, it allows powerful representations under a very low parameter budget. Extensive experiments demonstrate that the proposed method can achieve comparable or even better performance than full fine-tuning, while only using 0.6% parameters. Code is available at https://github.com/csguoh/AdaptIR.
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