Spectral Compressive Imaging Reconstruction Using Convolution and Spectral Contextual Transformer
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Spectral compressive imaging (SCI) is able to encode the high-dimensional hyperspectral image to a 2D measurement, and then uses algorithms to reconstruct the spatio-spectral data-cube. At present, the main bottleneck of SCI is the reconstruction algorithm, and the state-of-the-art (SOTA) reconstruction methods generally face the problem of long reconstruction time and/or poor detail recovery. In this paper, we propose a novel hybrid network module, namely CSCoT (Convolution and Spectral Contextual Transformer) block, which can acquire the local perception of convolution and the global perception of transformer simultaneously, and is conducive to improving the quality of reconstruction to restore fine details. We integrate the proposed CSCoT block into deep unfolding framework based on the generalized alternating projection algorithm, and further propose the GAP-CSCoT network. Finally, we apply the GAP-CSCoT algorithm to SCI reconstruction. Through the experiments of extensive synthetic and real data, our proposed model achieves higher reconstruction quality (>2dB in PSNR on simulated benchmark datasets) and shorter running time than existing SOTA algorithms by a large margin. The code and models will be released to the public.
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