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RCUMP: Residual Completion Unrolling With Mixed Priors for Snapshot Compressive Imaging

Yin‐Ping Zhao, Jiancheng Zhang, Yongyong Chen, Zhen Wang, Xuelong Li

2024IEEE Transactions on Image Processing17 citationsDOI

Abstract

Deep unrolling-based snapshot compressive imaging (SCI) methods, which employ iterative formulas to construct interpretable iterative frameworks and embedded learnable modules, have achieved remarkable success in reconstructing 3-dimensional (3D) hyperspectral images (HSIs) from 2D measurement induced by coded aperture snapshot spectral imaging (CASSI). However, the existing deep unrolling-based methods are limited by the residuals associated with Taylor approximations and the poor representation ability of single hand-craft priors. To address these issues, we propose a novel HSI construction method named residual completion unrolling with mixed priors (RCUMP). RCUMP exploits a residual completion branch to solve the residual problem and incorporates mixed priors composed of a novel deep sparse prior and mask prior to enhance the representation ability. Our proposed CNN-based model can significantly reduce memory cost, which is an obvious improvement over previous CNN methods, and achieves better performance compared with the state-of-the-art transformer and RNN methods. In this work, our method is compared with the 9 most recent baselines on 10 scenes. The results show that our method consistently outperforms all the other methods while decreasing memory consumption by up to 80%.

Topics & Concepts

ResidualPrior probabilityComputer scienceHyperspectral imagingArtificial intelligenceLoop unrollingPattern recognition (psychology)Snapshot (computer storage)Coded apertureAlgorithmBayesian probabilityDetectorCompilerProgramming languageTelecommunicationsOperating systemSparse and Compressive Sensing TechniquesImage and Signal Denoising MethodsMicrowave Imaging and Scattering Analysis
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