Reconstruction Error Bounds for Compressed Sensing under Poisson or Poisson-Gaussian Noise Using Variance Stabilization Transforms
Most existing bounds for signal reconstruction from compressive measurements make the assumption of additive signal-independent noise. However in many compressive imaging systems, the noise statistics are more accurately represented by Poisson or Poisson-Gaussian noise models. In this paper, we deri...
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| Main Authors | , , , |
|---|---|
| Format | Journal Article |
| Language | English |
| Published |
03.07.2017
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| Online Access | Get full text |
| DOI | 10.48550/arxiv.1707.00475 |
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| Abstract | Most existing bounds for signal reconstruction from compressive measurements
make the assumption of additive signal-independent noise. However in many
compressive imaging systems, the noise statistics are more accurately
represented by Poisson or Poisson-Gaussian noise models. In this paper, we
derive upper bounds for signal reconstruction error from compressive
measurements which are corrupted by Poisson or Poisson-Gaussian noise. The
features of our bounds are as follows: (1) The bounds are derived for a
probabilistically motivated, computationally tractable convex estimator with
principled parameter selection. The estimator penalizes signal sparsity subject
to a constraint that imposes an upper bound on a term based on variance
stabilization transforms to approximate the Poisson or Poisson-Gaussian
negative log-likelihoods. (2) They are applicable to signals that are sparse as
well as compressible in any orthonormal basis, and are derived for compressive
systems obeying realistic constraints such as non-negativity and
flux-preservation. We present extensive numerical results for signal
reconstruction under varying number of measurements and varying signal
intensity levels. |
|---|---|
| AbstractList | Most existing bounds for signal reconstruction from compressive measurements
make the assumption of additive signal-independent noise. However in many
compressive imaging systems, the noise statistics are more accurately
represented by Poisson or Poisson-Gaussian noise models. In this paper, we
derive upper bounds for signal reconstruction error from compressive
measurements which are corrupted by Poisson or Poisson-Gaussian noise. The
features of our bounds are as follows: (1) The bounds are derived for a
probabilistically motivated, computationally tractable convex estimator with
principled parameter selection. The estimator penalizes signal sparsity subject
to a constraint that imposes an upper bound on a term based on variance
stabilization transforms to approximate the Poisson or Poisson-Gaussian
negative log-likelihoods. (2) They are applicable to signals that are sparse as
well as compressible in any orthonormal basis, and are derived for compressive
systems obeying realistic constraints such as non-negativity and
flux-preservation. We present extensive numerical results for signal
reconstruction under varying number of measurements and varying signal
intensity levels. |
| Author | Bohra, Pakshal Rajwade, Ajit Garg, Deepak Gurumoorthy, Karthik S |
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| BackLink | https://doi.org/10.48550/arXiv.1707.00475$$DView paper in arXiv |
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| Snippet | Most existing bounds for signal reconstruction from compressive measurements
make the assumption of additive signal-independent noise. However in many... |
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| Title | Reconstruction Error Bounds for Compressed Sensing under Poisson or Poisson-Gaussian Noise Using Variance Stabilization Transforms |
| URI | https://arxiv.org/abs/1707.00475 |
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