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ICIP
2009
IEEE
2009
IEEE
Dequantizing Compressed Sensing With Non-gaussian Constraints
In this paper, following the Compressed Sensing (CS) paradigm, we study the problem of recovering sparse or compressible signals from uniformly quantized measurements. We present a new class of convex optimization programs, or decoders, coined Basis Pursuit DeQuantizer of moment p (BPDQp), that model the quantization distortion more faithfully than the commonly used Basis Pursuit DeNoise (BPDN) program. Our decoders proceed by minimizing the sparsity of the signal to be reconstructed while enforcing a data fidelity term of bounded p-norm, for 2 < p . We show that in oversampled situations, i.e. when the number of measurements is higher than the minimal value required by CS, the performance of the BPDQp decoders outperforms that of BPDN, with reconstruction error due to quantization divided by
Real-time TrafficBasis Pursuit DeQuantizer | ICIP 2009 | Image Processing | Quantization Distortion | Used Basis Pursuit |
| Added | 10 Nov 2009 |
| Updated | 26 Dec 2009 |
| Type | Conference |
| Year | 2009 |
| Where | ICIP |
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