期刊
APPLIED INTELLIGENCE
卷 51, 期 7, 页码 4367-4380出版社
SPRINGER
DOI: 10.1007/s10489-020-02116-1
关键词
Image super-resolution reconstruction; Feature map attention mechanism; Multiple information extraction; Deep learning methods; Multi-scale low-resolution images
资金
- National Natural Science Foundation of China [61972056, 61772454, 61402053, 61981340416]
- Natural Science Foundation of Hunan Province of China [2020JJ4623]
- Scientific Research Fund of Hunan Provincial Education Department [17A007, 19C0028, 19B005]
- Junior Faculty Development Program Project of Changsha University of Science and Technology [2019QJCZ011]
- Double First-class International Cooperation and Development Scientific Research Project of Changsha University of Science and Technology [2019IC34]
- Practical Innovation and Entrepreneurship Ability Improvement Plan for Professional Degree Postgraduate of Changsha University of Science and Technology [SJCX202072]
- Postgraduate Training Innovation Base Construction Project of Hunan Province [2019-248-51, 2020-172-48]
This paper proposed an image super-resolution reconstruction method using attention mechanism with feature map to improve the visual effect of images and enhance the evaluation indicators. The proposed model consists of feature extraction block, information extraction block, and reconstruction module, which effectively restores more details in high-resolution images.
To improve the issue of low-frequency and high-frequency components from feature maps being treated equally in existing image super-resolution reconstruction methods, the paper proposed an image super-resolution reconstruction method using attention mechanism with feature map to facilitate reconstruction from original low-resolution images to multi-scale super-resolution images. The proposed model consists of a feature extraction block, an information extraction block, and a reconstruction module. Firstly, the extraction block is used to extract useful features from low-resolution images, with multiple information extraction blocks being combined with the feature map attention mechanism and passed between feature channels. Secondly, the interdependence is used to adaptively adjust the channel characteristics to restore more details. Finally, the reconstruction module reforms different scales high-resolution images. The experimental results can demonstrate that the proposed method can effectively improve not only the visual effect of images but also the results on the Set5, Set14, Urban100, and Manga109. The results can demonstrate the proposed method has structurally similarity to the image reconstruction methods. Furthermore, the evaluating indicator of Peak Signal to Noise Ratio (PSNR) and Structural Similarity Index (SSIM) has been improved to a certain degree, while the effectiveness of using feature map attention mechanism in image super-resolution reconstruction applications is useful and effective.
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