生成式对抗网络在图像色彩校正中的应用

IF 0.8 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING International Journal of Image and Graphics Pub Date : 2024-03-06 DOI:10.1142/s021946782550069x
Meiling Chen, Yao Shi, Lvfen Zhu
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引用次数: 0

摘要

随着科技的发展,电子产品越来越受欢迎。人们可以通过电子设备传输图像来获取信息。然而,在传输过程中可能会出现色彩失真,这可能会妨碍图像的实用性。为此,我们使用了深度残差网络和深度卷积网络来定义生成器和判别器。然后,将自注意力增强卷积应用于生成器网络,以构建基于耦合生成对抗网络的图像分辨率校正模型。在此基础上,构建了一个集成了多尺度特征和上下文注意机制的生成网络模型,以实现图像复原。最后,对所构建的模型进行了性能和图像修复应用测试。测试结果表明,当耦合生成式对抗网络在 Set5 数据集上进行测试时,图像峰值信噪比和图像结构相似度值分别为 31.2575 和 0.8173。在 Set14 数据集上,这两个值分别为 30.8521 和 0.8079。在 BSDS100 数据集上测试了多尺度特征融合算法,其图像峰值信噪比为 30.2541,图像结构相似度值为 0.8352。基于以上数据,可以得出结论:本研究构建的图像校正模型具有很强的图像复原能力。重建后的图像与真实的高分辨率图像相似度最高,失真率较低。它可以实现图像传输过程中色彩失真等问题的修复任务。此外,本研究还能为类似的信息校正和修复工作提供技术支持。
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Application of Generative Adversarial Network in Image Color Correction
The popularity of electronic products has increased with the development of technology. Electronic devices allow people to obtain information through the transmission of images. However, color distortion can occur during the transmission process, which may hinder the usefulness of the images. To this end, a deep residual network and a deep convolutional network were used to define the generator and discriminator. Then, self-attention-enhanced convolution was applied to the generator network to construct an image resolution correction model based on coupled generative adversarial networks. On this basis, a generative network model integrating multi-scale features and contextual attention mechanism was constructed to achieve image restoration. Finally, performance and image restoration application tests were conducted on the constructed model. The test showed that when the coupled generative adversarial network was tested on the Set5 dataset, the image peak signal-to-noise ratio and image structure similarity values were 31.2575 and 0.8173. On the Set14 dataset, they were 30.8521 and 0.8079, respectively. The multi-scale feature-fusion algorithm was tested on the BSDS100 dataset with an image peak signal-to-noise ratio of 30.2541 and an image structure similarity value of 0.8352. Based on the data presented, it can be concluded that the image correction model constructed in this study has a strong image restoration ability. The reconstructed image has the highest similarity with the real high-resolution image and a low distortion rate. It can achieve the task of repairing problems such as color distortion during image transmission. In addition, this study can provide technical support for similar information correction and restoration work.
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来源期刊
International Journal of Image and Graphics
International Journal of Image and Graphics COMPUTER SCIENCE, SOFTWARE ENGINEERING-
CiteScore
2.40
自引率
18.80%
发文量
67
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