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Main Authors: Lv, Xudong, Sun, Yuxiang, Wang, Shuo, Chen, Nanxing, Guan, Jun, Hu, Jingtian
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.07810
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author Lv, Xudong
Sun, Yuxiang
Wang, Shuo
Chen, Nanxing
Guan, Jun
Hu, Jingtian
author_facet Lv, Xudong
Sun, Yuxiang
Wang, Shuo
Chen, Nanxing
Guan, Jun
Hu, Jingtian
contents Optical neural networks are emerging as powerful machine learning and information processing tools because of their potential advantages in speed and energy efficiency. The training methods of these physical models, however, remain underexplored compared to their digital counterparts and are leading to suboptimal performance. This paper reports a pre-training-driven approach that leads to snapshot image denoising with substantially improved quality. We demonstrated effective free-space optical denoising by a diffractive network optimized by a two-step process including (1) pre-training using a massive dataset of 3.45 million diverse but simple images and (2) fine-tuning with the corresponding task-specific datasets. Compared to conventional Fourier-domain filtering and directly trained diffractive networks, such a transfer learning process exhibited prominent advantages for denoising images degraded by severe noise, peak signal-to-noise ratio (PSNR) below 8 dB, while preserving fine image features and improving the PSNR to above 18 dB. Importantly, the same pre-trained optical network could be consistently fine-tuned to process degraded images from highly diverse styles ranging from handwritten digits (MNIST) and chest X-rays (ChestMNIST) to CIFAR-10 images and human faces (CelebA). We further demonstrated the critical role of our optical denoisers in vision-based applications, including face detection, plate recognition, and localization of UAVs in noisy conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2605_07810
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Pre-training Enables Extraordinary All-optical Image Denoising
Lv, Xudong
Sun, Yuxiang
Wang, Shuo
Chen, Nanxing
Guan, Jun
Hu, Jingtian
Optics
Computer Vision and Pattern Recognition
Optical neural networks are emerging as powerful machine learning and information processing tools because of their potential advantages in speed and energy efficiency. The training methods of these physical models, however, remain underexplored compared to their digital counterparts and are leading to suboptimal performance. This paper reports a pre-training-driven approach that leads to snapshot image denoising with substantially improved quality. We demonstrated effective free-space optical denoising by a diffractive network optimized by a two-step process including (1) pre-training using a massive dataset of 3.45 million diverse but simple images and (2) fine-tuning with the corresponding task-specific datasets. Compared to conventional Fourier-domain filtering and directly trained diffractive networks, such a transfer learning process exhibited prominent advantages for denoising images degraded by severe noise, peak signal-to-noise ratio (PSNR) below 8 dB, while preserving fine image features and improving the PSNR to above 18 dB. Importantly, the same pre-trained optical network could be consistently fine-tuned to process degraded images from highly diverse styles ranging from handwritten digits (MNIST) and chest X-rays (ChestMNIST) to CIFAR-10 images and human faces (CelebA). We further demonstrated the critical role of our optical denoisers in vision-based applications, including face detection, plate recognition, and localization of UAVs in noisy conditions.
title Pre-training Enables Extraordinary All-optical Image Denoising
topic Optics
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2605.07810