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Compressive Sensing

Compressive Sensing is a new signal processing framework for efficiently acquiring and reconstructing a signal that have a sparse representation in a fixed linear basis.

Source: Sparse Estimation with Generalized Beta Mixture and the Horseshoe Prior

Papers

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Showing 391400 of 597 papers

TitleStatusHype
Robust 1-bit Compressive Sensing with Partial Gaussian Circulant Matrices and Generative Priors0
Robust Bayesian compressive sensing with data loss recovery for structural health monitoring signals0
Robust Binary Fused Compressive Sensing using Adaptive Outlier Pursuit0
Robust Canonical Time Warping for the Alignment of Grossly Corrupted Sequences0
Robust Deep Compressive Sensing with Recurrent-Residual Structural Constraints0
Robust Dequantized Compressive Sensing0
Robust lEarned Shrinkage-Thresholding (REST): Robust unrolling for sparse recover0
Robust Mean Estimation in High Dimensions via _0 Minimization0
Sample Complexity Lower Bounds for Compressive Sensing with Generative Models0
Sampling and Reconstruction of Sparse Signals in Shift-Invariant Spaces: Generalized Shannon's Theorem Meets Compressive Sensing0
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All datasetsSet11 cs=50%BSD68 CS=50%BSDS100 - 2x upscalingUrban100 - 2x upscaling

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1DMP-DUN-Plus (4-step)Average PSNR42.82Unverified
2AMPA-NetAverage PSNR40.32Unverified
#ModelMetricClaimedVerifiedStatus
1AMPA-NetAverage PSNR36.33Unverified
#ModelMetricClaimedVerifiedStatus
1AMPA-NetAverage PSNR35.95Unverified
#ModelMetricClaimedVerifiedStatus
1AMPA-NetAverage PSNR35.86Unverified