OTST: A Two-Phase Framework for Joint Denoising and Remosaicing in RGBW CFA

2023 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW) Pub Date : 2023-06-01 DOI:10.1109/CVPRW59228.2023.00284

Zhihao Fan, Xun Wu, Fanqing Meng, Yaqi Wu, Feng Zhang

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Abstract

RGBW, a newly emerged type of Color Filter Array (CFA), possesses strong low-light photography capabilities. RGBW CFA shows significant application value when low-light sensitivity is critical, such as in security cameras and smartphones. However, the majority of commercial image signal processors (ISP) are primarily designed for Bayer CFA, research pertaining to RGBW CFA is very rare. To address above limitations, in this study, we propose a two-phase framework named OTST for the RGBW Joint Denoising and Remosaicing (RGBW-JRD) task. For the denoising stage, we propose Omni-dimensional Dynamic Convolution based Half-Shuffle Transformer (ODC-HST) which can fully utilize image’s long-range dependencies to dynamically remove the noise. For the remosaicing stage, we propose a Spatial Compressive Transformer (SCT) to efficiently capture both local and global dependencies across spatial and channel dimensions. Experimental results demonstrate that our two-phase RGBW-JRD framework outperforms existing RGBW denoising and remosaicing solutions across a wide range of noise levels. In addition, the proposed approach ranks the 2nd place in MIPI 2023 RGBW Joint Remosaic and Denoise competition.

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OTST: RGBW CFA联合去噪和再填充的两阶段框架

RGBW是一种新型的彩色滤光阵列(CFA)，具有较强的弱光摄影能力。RGBW CFA在安全摄像头和智能手机等低光灵敏度至关重要的情况下显示出重要的应用价值。然而，大多数商用图像信号处理器(ISP)主要是为Bayer CFA设计的，关于RGBW CFA的研究非常少。为了解决上述局限性，在本研究中，我们提出了一种名为OTST的两阶段框架，用于RGBW联合去噪和重噪(RGBW- jrd)任务。在去噪阶段，我们提出了基于全维动态卷积的半shuffle变压器(ODC-HST)，它可以充分利用图像的远程依赖关系来动态去除噪声。对于重新拼接阶段，我们提出了一个空间压缩变压器(SCT)，以有效地捕获跨空间和通道维度的本地和全局依赖关系。实验结果表明，我们的两相RGBW- jrd框架在广泛的噪声水平范围内优于现有的RGBW去噪和重马赛克解决方案。此外，该方法在MIPI 2023 RGBW联合去除和去噪竞赛中排名第二。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW)

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