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Underdetermined DOA Estimation for Wideband Signals Using Robust Sparse Covariance Fitting | IEEE Journals & Magazine | IEEE Xplore

Underdetermined DOA Estimation for Wideband Signals Using Robust Sparse Covariance Fitting


Abstract:

From the co-array perspective, sparse spatial sampling can significantly increase the degrees-of-freedom (DOFs), enabling us to perform underdetermined direction-of-arriv...Show More

Abstract:

From the co-array perspective, sparse spatial sampling can significantly increase the degrees-of-freedom (DOFs), enabling us to perform underdetermined direction-of-arrival (DOA) estimation. By leveraging the increased DOFs from the sparse spatial sampling, we develop a new underdetermined DOA estimation method for wideband signals, named wideband sparse spectrum fitting (W-SpSF) estimator. In W-SpSF, we formulate a sparse reconstruction problem that includes a quadratic ({\ell_2}) weighted covariance fitting term added to a sparsity-promoting ({\ell _{2, 1}}) regularizer. Meanwhile, the optimal regularization parameter of W-SpSF is studied to ensure robust sparse recovery. Numerical results enabled nested arrays demonstrate that the W-SpSF estimator outperforms the spatial smoothing based MUSIC algorithm and works well in nonuniform noise environment.
Published in: IEEE Signal Processing Letters ( Volume: 22, Issue: 4, April 2015)
Page(s): 435 - 439
Date of Publication: 16 September 2014

ISSN Information:


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