2017
DOI: 10.1016/j.sigpro.2016.12.022
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A Noise-Robust Method with Smoothed1/2Regularization for Sparse Moving-Source Mapping

Abstract: The method described here performs blind deconvolution of the beamforming output in the frequency domain. To provide accurate blind deconvolution, sparsity priors are introduced with a smoothed 1 / 2 regularization term. As the mean of the noise in the power spectrum domain depends on its variance in the time domain, the proposed method includes a variance estimation step, which allows more robust blind deconvolution. Validation of the method on both simulated and real data, and of its performance, are compare… Show more

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Cited by 10 publications
(10 citation statements)
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“…In (13) and (4), the beamforming output y n 1 at the n 1 -th grid mainly depends on the weighted combination of all discrete power vector x and its weight h n 1 ,n 2 , which comes from each row of the power propagation matrix H. In (14), the CBF result y of non-synchronous measurements depends on the weighted combinations (Hx) of all discrete grids. Then the source power x can be estimated from an inverse problem in (14) when given y under model uncertainty e.…”
Section: B Forward Model Of Power Propagationmentioning
confidence: 99%
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“…In (13) and (4), the beamforming output y n 1 at the n 1 -th grid mainly depends on the weighted combination of all discrete power vector x and its weight h n 1 ,n 2 , which comes from each row of the power propagation matrix H. In (14), the CBF result y of non-synchronous measurements depends on the weighted combinations (Hx) of all discrete grids. Then the source power x can be estimated from an inverse problem in (14) when given y under model uncertainty e.…”
Section: B Forward Model Of Power Propagationmentioning
confidence: 99%
“…To make an insight on the PSF influence at the nonsynchronous measurement beamforming, in this section, we propose a convolution model to approximate the forward model of power propagation in (14). We find out that power propagation matrix H seems to be a quasi-Symmetric Block Toeplitz (SBT) matrix in the far-field measurement, so that…”
Section: Proposed Convolution Approximationmentioning
confidence: 99%
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