Paper
18 November 2024 A multiscale feature extraction feedback network for single image super-resolution
Dezhi Yang, Qingsong Xie, Jinjie Xiao
Author Affiliations +
Proceedings Volume 13403, International Conference on Algorithms, High Performance Computing, and Artificial Intelligence (AHPCAI 2024) ; 1340329 (2024) https://doi.org/10.1117/12.3051876
Event: International Conference on Algorithms, High Performance Computing, and Artificial Intelligence, 2024, Zhengzhou, China
Abstract
In conventional single image super-resolution (SISR) models utilizing deep learning, information is generally transmitted in a feedforward fashion. Nonetheless, these models have not fully exploited the feedback mechanism. Drawing inspiration from the feedback process in human vision, we introduce a Multiscale Feature Extraction Feedback Network (MFEFN), which utilizes high-level information to enhance low-level details. In particular, we employ the principles of Recurrent Neural Networks (RNNs) to reintroduce part of the output back into the model as input, thereby optimizing the input feature representations. We design a multiscale feature extraction channel attention feedback module to handle the feedback connections and generate rich detail texture features. Additionally, to address the issue of limited receptive fields and singular convolutional kernels in models, we propose a multiscale feature extraction module to capture detail texture features at different scales. To further enhance the model's cross-channel learning capability, we incorporate a channel attention mechanism. Comprehensive experimental results showcase the proposed MFEFN's superiority over current state-of-the- art methods.
(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.
Dezhi Yang, Qingsong Xie, and Jinjie Xiao "A multiscale feature extraction feedback network for single image super-resolution", Proc. SPIE 13403, International Conference on Algorithms, High Performance Computing, and Artificial Intelligence (AHPCAI 2024) , 1340329 (18 November 2024); https://doi.org/10.1117/12.3051876
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KEYWORDS
Feature extraction

Super resolution

Deconvolution

Convolution

Visual process modeling

Lawrencium

Performance modeling

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