用于图像去噪的深度正则化压缩学习的无批次随机梯度下降技术

IF 1.3 4区数学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Journal of Mathematical Imaging and Vision Pub Date : 2024-03-13 DOI:10.1007/s10851-024-01178-x

Hui Shi, Yann Traonmilin, Jean-François Aujol

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引用次数: 0

摘要

我们考虑的问题是利用从干净信号或图像数据库中获取的先验信息进行去噪。如果有一个非常适合数据性质的正则化器，使用变分法去噪就会非常有效。得益于最大后验贝叶斯框架，这种正则器可以与数据分布系统地联系起来。利用深度神经网络（DNN），可以从大型训练数据库中恢复复杂的分布。为了减轻这项任务的计算负担，我们将压缩学习框架调整为以 DNN 为参数的正则学习。我们提出了两种随机梯度下降（SGD）变体，用于从严重压缩的数据库中恢复深度正则化参数。这些算法优于最初提出的方法，后者仅限于低维信号，每次迭代都使用来自整个数据库的信息。它们还受益于经典的 SGD 收敛保证。得益于这些改进，我们证明这种方法可用于基于补丁的图像去噪。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Batch-Less Stochastic Gradient Descent for Compressive Learning of Deep Regularization for Image Denoising

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Batch-Less Stochastic Gradient Descent for Compressive Learning of Deep Regularization for Image Denoising

We consider the problem of denoising with the help of prior information taken from a database of clean signals or images. Denoising with variational methods is very efficient if a regularizer well-adapted to the nature of the data is available. Thanks to the maximum a posteriori Bayesian framework, such regularizer can be systematically linked with the distribution of the data. With deep neural networks (DNN), complex distributions can be recovered from a large training database. To reduce the computational burden of this task, we adapt the compressive learning framework to the learning of regularizers parametrized by DNN. We propose two variants of stochastic gradient descent (SGD) for the recovery of deep regularization parameters from a heavily compressed database. These algorithms outperform the initially proposed method that was limited to low-dimensional signals, each iteration using information from the whole database. They also benefit from classical SGD convergence guarantees. Thanks to these improvements we show that this method can be applied for patch-based image denoising.

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来源期刊

Journal of Mathematical Imaging and Vision 工程技术-计算机：人工智能

CiteScore

4.30

自引率

5.00%

发文量

审稿时长

3.3 months

期刊介绍： The Journal of Mathematical Imaging and Vision is a technical journal publishing important new developments in mathematical imaging. The journal publishes research articles, invited papers, and expository articles. Current developments in new image processing hardware, the advent of multisensor data fusion, and rapid advances in vision research have led to an explosive growth in the interdisciplinary field of imaging science. This growth has resulted in the development of highly sophisticated mathematical models and theories. The journal emphasizes the role of mathematics as a rigorous basis for imaging science. This provides a sound alternative to present journals in this area. Contributions are judged on the basis of mathematical content. Articles may be physically speculative but need to be mathematically sound. Emphasis is placed on innovative or established mathematical techniques applied to vision and imaging problems in a novel way, as well as new developments and problems in mathematics arising from these applications. The scope of the journal includes: computational models of vision; imaging algebra and mathematical morphology mathematical methods in reconstruction, compactification, and coding filter theory probabilistic, statistical, geometric, topological, and fractal techniques and models in imaging science inverse optics wave theory. Specific application areas of interest include, but are not limited to: all aspects of image formation and representation medical, biological, industrial, geophysical, astronomical and military imaging image analysis and image understanding parallel and distributed computing computer vision architecture design.