Galen Reeves, Michael Gastpar
Published 2010-01-25Version 1
The field of compressed sensing has shown that a sparse but otherwise arbitrary vector can be recovered exactly from a small number of randomly constructed linear projections (or samples). The question addressed in this paper is whether an even smaller number of samples is sufficient when there exists prior knowledge about the distribution of the unknown vector, or when only partial recovery is needed. An information-theoretic lower bound with connections to free probability theory and an upper bound corresponding to a computationally simple thresholding estimator are derived. It is shown that in certain cases (e.g. discrete valued vectors or large distortions) the number of samples can be decreased. Interestingly though, it is also shown that in many cases no reduction is possible.
Compressed Sensing Based on Random Symmetric Bernoulli Matrix
Universally Elevating the Phase Transition Performance of Compressed Sensing: Non-Isometric Matrices are Not Necessarily Bad Matrices
MRF denoising with compressed sensing and adaptive filtering
![QR code for arXiv:1001.4295 [cs.IT]](http://oss.arxitics.com/images/favicon.svg)