Abstract—It was recently shown that networked MIMO radars with sparse sensing and matrix completion (MC) can significantly reduce the volume of data required for accurate target detection and estimation. Based on the target returns, forwarded by the receive antennas to a fusion center, a matrix can be formulated and used in standard array processing methods to estimate the target parameters. For a small number of targets, the aforemen-tioned matrix is low-rank and thus can be recovered from a small subset of its elements using MC. This allows for sparse sensing at the receive antennas, and subsequently populating the data matrix in a uniformly sparse fashion. This paper studies the applicability of MC theory on the data matrices that arise ...
In sparse sensing based distributed MIMO radars, the problem of target estimation is formulated as a...
Abstract—We study compressive sensing in the spatial domain to achieve target localization, specific...
• We consider sparse sensing-based distributed MIMO radars, which exploit the sparsity of the target...
It was recently shown that MIMO radars with sparse sensing and matrix completion (MC) can significan...
Abstract—It was recently shown that MIMO radars with sparse sensing and matrix completion (MC) can s...
Abstract-In this paper, we investigate a novel networked colocated MIMO radar approach that relies o...
Multi-input and multi-output (MIMO) radars achieve high resolution of arrival direction by transmitt...
Abstract—It was recently shown that low rank Matrix Comple-tion (MC) theory can support the design o...
Abstract—It was recently shown that low rank matrix com-pletion theory can be employed for designing...
We consider a colocated MIMO radar scenario, in which the receive antennas forward their measurement...
The paper proposes a matrix completion based colocated MIMO radar (MIMO-MC) approach that employs tr...
Recently proposed multiple input multiple output radars based on matrix completion (MIMO-MC) employ ...
Recently, multiple-input multiple-output (MIMO) radars have received considerable attention due to t...
Abstract—In matrix completion based MIMO radars, the data matrix coherence, and consequently the per...
Abstract—Sparse sensing-based distributed MIMO radars ex-ploit the sparsity of the targets in the di...
In sparse sensing based distributed MIMO radars, the problem of target estimation is formulated as a...
Abstract—We study compressive sensing in the spatial domain to achieve target localization, specific...
• We consider sparse sensing-based distributed MIMO radars, which exploit the sparsity of the target...
It was recently shown that MIMO radars with sparse sensing and matrix completion (MC) can significan...
Abstract—It was recently shown that MIMO radars with sparse sensing and matrix completion (MC) can s...
Abstract-In this paper, we investigate a novel networked colocated MIMO radar approach that relies o...
Multi-input and multi-output (MIMO) radars achieve high resolution of arrival direction by transmitt...
Abstract—It was recently shown that low rank Matrix Comple-tion (MC) theory can support the design o...
Abstract—It was recently shown that low rank matrix com-pletion theory can be employed for designing...
We consider a colocated MIMO radar scenario, in which the receive antennas forward their measurement...
The paper proposes a matrix completion based colocated MIMO radar (MIMO-MC) approach that employs tr...
Recently proposed multiple input multiple output radars based on matrix completion (MIMO-MC) employ ...
Recently, multiple-input multiple-output (MIMO) radars have received considerable attention due to t...
Abstract—In matrix completion based MIMO radars, the data matrix coherence, and consequently the per...
Abstract—Sparse sensing-based distributed MIMO radars ex-ploit the sparsity of the targets in the di...
In sparse sensing based distributed MIMO radars, the problem of target estimation is formulated as a...
Abstract—We study compressive sensing in the spatial domain to achieve target localization, specific...
• We consider sparse sensing-based distributed MIMO radars, which exploit the sparsity of the target...
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