Litcius/Paper detail

Multiscale Residual Dense Network for the Super-Resolution of Remote Sensing Images

Dezhi Kong, Lingjia Gu, Xiaofeng Li, Fang Gao

2024IEEE Transactions on Geoscience and Remote Sensing20 citationsDOI

Abstract

Super-resolution (SR) reconstruction of remote sensing images aims to improve image resolution while ensuring accurate spatial texture information. In most multi-scale SR methods, the feature fusion at each layer contains only the multi-scale features of the current layer. However, this approach does not optimally use these multi-scale features over different layers, leading to their gradual disappearance during the process of transmission. To address this problem, we propose a Multi-Scale Residual Dense Network (MRDN) for SR. The feature fusion of each layer in MRDN contains multi-scale features from all preceding layers, rather than only fusing the features of the current layer. Specifically, MRDN concatenates the output of each layer and passes it to the subsequent multi-scale layers to facilitate feature fusion. MRDN maximizes the utilization of hierarchical features from the original low-resolution images, enabling adaptive learning of more effective features. In addition, efficient MRDN does not necessitate a substantial increase in network depth and complexity to achieve high performance. Experimental results indicate that MRDN outperforms the state-of-the-art methods on three remote sensing datasets. To demonstrate the generalizability of MRDN, we extend its application to three relevant tasks: natural image SR, real-world image SR, and small object recognition. MRDN achieves competitive results on these tasks, confirming its generalizability.

Topics & Concepts

Remote sensingResidualImage resolutionComputer scienceSuperresolutionArtificial intelligenceResolution (logic)Computer visionGeologyImage (mathematics)AlgorithmAdvanced Image Processing TechniquesAdvanced Image Fusion TechniquesImage and Signal Denoising Methods