Enhancing Part Features Via Contrastive Attention Module For Vehicle Re-Identification

Recently, multi-modal image processing has shown its great potential in boosting denoising performance in terms of both accuracy and visual quality. However, current studies generally face the challenge of achieving a good balance between noise removal and detail preservation. in this work, we introduce patch-wise frequency decomposition into convolutional neural networks and propose a novel multi-modal image denoising (MID) algorithm. integrating the frequency-domain information of images from different modalities, our network first predicts a frequency-relevant residual and then regresses the denoised result using a learnable reconstruction kernel. Benefiting from the distinctive properties of noise and true signals as well as the correlation between multi-modal images in the frequency domain, the proposed algorithm can effectively remove noise and simultaneously reconstruct fine details. Extensive experiments demonstrate the superiority and generalizability of our algorithm over state-of-the-art competing algorithms on various MID tasks, including near-infrared guided RGB image denoising, flash guided no-flash image denoising, and RGB guided depth image denoising. Code is available at https://github.com/liuxw11/FRL.