Saeid Sedighi scite author profile

Direction of Arrival (DoA) estimation using Sparse Linear Arrays (SLAs) has recently gained considerable attention in array processing thanks to their capability to provide enhanced degrees of freedom in resolving uncorrelated source signals. Additionally, deployment of onebit Analog-to-Digital Converters (ADCs) has emerged as an important topic in array processing, as it offers both a low-cost and a low-complexity implementation. In this paper, we study the problem of DoA estimation from one-bit measurements received by an SLA. Specifically, we first investigate the identifiability conditions for the DoA estimation problem from one-bit SLA data and establish an equivalency with the case when DoAs are estimated from infinite-bit unquantized measurements. Towards determining the performance limits of DoA estimation from one-bit quantized data, we derive a pessimistic approximation of the corresponding Cramér-Rao Bound (CRB). This pessimistic CRB is then used as a benchmark for assessing the performance of one-bit DoA estimators. We also propose a new algorithm for estimating DoAs from one-bit quantized data. We investigate the analytical performance of the proposed method through deriving a closed-form expression for the covariance matrix of the asymptotic distribution of the DoA estimation errors and show that it outperforms the existing algorithms in the literature. Numerical simulations are provided to validate the analytical derivations and corroborate the resulting performance improvement.

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Bayesian generalised likelihood ratio test‐based multiple antenna spectrum sensing for cognitive radios

Sedighi

Taherpour

Monfared

2013

IET Communications

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Eigenvalue-Based Multiple Antenna Spectrum Sensing: Higher Order Moments

Sedighi

Taherpour

Gazor

et al. 2017

IEEE Trans. Wireless Commun.

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An Asymptotically Efficient Weighted Least Squares Estimator for Co-Array-Based DoA Estimation

Sedighi

Shankar

Ottersten

2020

IEEE Trans. Signal Process.

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Co-array-based Direction of Arrival (DoA) estimation using Sparse Linear Arrays (SLAs) has recently gained considerable interest in array processing thanks to its capability of providing enhanced degrees of freedom. Although the literature presents a variety of estimators in this context, none of them are proven to be statistically efficient. This work introduces a novel estimator for the co-array-based DoA estimation employing the Weighted Least Squares (WLS) method. An analytical expression for the large sample performance of the proposed estimator is derived. Then, an optimal weighting is obtained so that the asymptotic performance of the proposed WLS estimator coincides with the Cramér-Rao Bound (CRB), thereby ensuring asymptotic statistical efficiency of resulting WLS estimator. This implies that the proposed WLS estimator has a significantly better performance compared to existing methods. Numerical simulations are provided to validate the analytical derivations and corroborate the improved performance.Index Terms-Sparse linear arrays, direction of arrival (DoA) estimation, weighted least squares estimator, Cramér-Rao bound (CRB), performance analysis, asymptotically statistically efficient estimator.

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Saeid Sedighi

Guided Hybrid A-star Path Planning Algorithm for Valet Parking Applications

One-Bit DoA Estimation via Sparse Linear Arrays

Bayesian generalised likelihood ratio test‐based multiple antenna spectrum sensing for cognitive radios

Eigenvalue-Based Multiple Antenna Spectrum Sensing: Higher Order Moments

An Asymptotically Efficient Weighted Least Squares Estimator for Co-Array-Based DoA Estimation

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