MT-Net：基于元学习、知识迁移和对比学习的单幅图像去毛刺技术

IF 2.6 4区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Visual Communication and Image Representation Pub Date : 2024-10-28 DOI:10.1016/j.jvcir.2024.104325

Jianlei Liu, Bingqing Yang, Shilong Wang, Maoli Wang

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引用次数: 0

摘要

单幅图像去毛刺变得越来越重要，因为其结果会影响后续计算机视觉任务的效率。虽然已经提出了许多方法来应对这一挑战，但现有的去毛刺方法往往对不同类型图像的适应性有限，而且缺乏未来可学习性。有鉴于此，我们提出了一种基于元学习、知识转移和对比学习的去毛刺网络，简称 MT-Net。在我们的方法中，我们将知识转移与元学习相结合来应对这些挑战，从而提高网络的泛化性能。我们完善了知识转移的结构，引入了两阶段方法，以促进在教师网络和学习委员会网络指导下的学习。我们还优化了对比学习的负面示例，以缩小对比空间。在合成数据集和真实数据集上进行的大量实验表明，我们的方法在定量和定性比较方面都表现出色。代码已发布在 https://github.com/71717171fan/MT-Net 上。

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MT-Net: Single image dehazing based on meta learning, knowledge transfer and contrastive learning

Single image dehazing is becoming increasingly important as its results impact the efficiency of subsequent computer vision tasks. While many methods have been proposed to address this challenge, existing dehazing approaches often exhibit limited adaptability to different types of images and lack future learnability. In light of this, we propose a dehazing network based on meta-learning, knowledge transfer, and contrastive learning, abbreviated as MT-Net. In our approach, we combine knowledge transfer with meta-learning to tackle these challenges, thus enhancing the network’s generalization performance. We refine the structure of knowledge transfer by introducing a two-phases approach to facilitate learning under the guidance of teacher networks and learning committee networks. We also optimize the negative examples of contrastive learning to reduce the contrast space. Extensive experiments conducted on synthetic and real datasets demonstrate the remarkable performance of our method in both quantitative and qualitative comparisons. The code has been released on https://github.com/71717171fan/MT-Net.

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来源期刊

Journal of Visual Communication and Image Representation 工程技术-计算机：软件工程

CiteScore

5.40

自引率

11.50%

发文量

188

审稿时长

9.9 months

期刊介绍： The Journal of Visual Communication and Image Representation publishes papers on state-of-the-art visual communication and image representation, with emphasis on novel technologies and theoretical work in this multidisciplinary area of pure and applied research. The field of visual communication and image representation is considered in its broadest sense and covers both digital and analog aspects as well as processing and communication in biological visual systems.