Pinball loss minimization for one-bit compressive sensing: Convex models and algorithms
2018; Elsevier BV; Volume: 314; Linguagem: Inglês
10.1016/j.neucom.2018.06.070
ISSN1872-8286
AutoresXiaolin Huang, Lei Shi, Ming Yan, Johan A. K. Suykens,
Tópico(s)Direction-of-Arrival Estimation Techniques
ResumoThe one-bit quantization is implemented by one single comparator that operates at low power and a high rate. Hence one-bit compressive sensing (1bit-CS) becomes attractive in signal processing. When measurements are corrupted by noise during signal acquisition and transmission, 1bit-CS is usually modeled as minimizing a loss function with a sparsity constraint. The one-sided ℓ1 loss and the linear loss are two popular loss functions for 1bit-CS. To improve the decoding performance on noisy data, we consider the pinball loss, which provides a bridge between the one-sided ℓ1 loss and the linear loss. Using the pinball loss, two convex models, an elastic-net pinball model and its modification with the ℓ1-norm constraint, are proposed. To efficiently solve them, the corresponding dual coordinate ascent algorithms are designed and their convergence is proved. The numerical experiments confirm the effectiveness of the proposed algorithms and the performance of the pinball loss minimization for 1bit-CS.
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