了解图像质量如何影响深度神经网络

Samuel F. Dodge, Lina Karam
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引用次数: 619

摘要

图像质量是机器视觉系统设计中经常被忽视的一个重要的实际问题。通常,机器视觉系统是在高质量的图像数据集上训练和测试的,但在实际应用中,不能假设输入的图像是高质量的。近年来,深度神经网络在许多机器视觉任务上取得了最先进的性能。在本文中,我们提供了4个最先进的深度神经网络模型在质量失真图像分类的评估。我们考虑了五种类型的质量失真:模糊、噪声、对比度、JPEG和JPEG2000压缩。我们表明,现有的网络容易受到这些质量失真的影响,特别是模糊和噪声。这些结果使未来的工作能够开发对质量失真更不变性的深度神经网络。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Understanding how image quality affects deep neural networks
Image quality is an important practical challenge that is often overlooked in the design of machine vision systems. Commonly, machine vision systems are trained and tested on high quality image datasets, yet in practical applications the input images can not be assumed to be of high quality. Recently, deep neural networks have obtained state-of-the-art performance on many machine vision tasks. In this paper we provide an evaluation of 4 state-of-the-art deep neural network models for image classification under quality distortions. We consider five types of quality distortions: blur, noise, contrast, JPEG, and JPEG2000 compression. We show that the existing networks are susceptible to these quality distortions, particularly to blur and noise. These results enable future work in developing deep neural networks that are more invariant to quality distortions.
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