Wideband source enumeration and direction-of-arrival estimation using sparse array periodogram averaging in low snapshot scenarios

Yang, Liu; Buck, John R.

doi:10.1121/1.4988565

Cited by 1 publication

(1 citation statement)

References 27 publications

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“…The detected source number is q = arg min q MDL-gap(q). Since the MDL-gap criterion showed improved performance over MDL in enumerating more sources than sensors in the narrowband scenarios [36], we here extend its application to the LRA-ACM in (15) for broadband sources.…”

Section: Source Enumeration and Doa Estimationmentioning

confidence: 99%

Broadband Sparse Array Focusing Via Spatial Periodogram Averaging and Correlation Resampling

Liu,

Buck

2019

Preprint

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This paper proposes two coherent broadband focusing algorithms for spatial correlation estimation using sparse linear arrays. Both algorithms decompose the time-domain array data into disjoint frequency bands through discrete Fourier transform or filter banks to obtain broadband frequency-domain snapshots. The periodogram averaging (AP) algorithm starts in the frequency domain by estimating the broadband spatial periodograms for all bands and then averaging them to reinforce the sources' spatial spectral information. Taking inverse spatial Fourier transform of the combined spatial periodogram estimates the focused spatial correlations. Alternatively, the spatial correlation resampling (SCR) algorithm directly computes the spatial correlations for each band and then rescales the spatial sampling rate to align at a focused frequency. The resampled spatial correlations from all frequency bands are then averaged to estimate the focused spatial correlations. The spatial correlations estimated from the AP or SCR algorithms populate the diagonals of a Hermitian Toeplitz augmented covariance matrix (ACM). The focused ACM is the input of a new minimum description length (MDL) based criteria, termed MDL-gap, for source enumeration and the standard narrowband MUSIC algorithm for DOA estimation. Numerical simulations show that both the AP and SCR algorithms improve source enumeration and DOA estimation performances over the incoherent subspace focusing algorithm in snapshot limited scenarios.

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Section: Source Enumeration and Doa Estimationmentioning

confidence: 99%