Litcius/Paper detail

Pseudo Noise Subspace Based DOA Estimation for Unfolded Coprime Linear Arrays

Xiangdong Huang, Yang Xiao-qing, Lu Cao, Wei Lü

2021IEEE Wireless Communications Letters24 citationsDOI

Abstract

To achieve a better tradeoff between the direction-of-arrival (DOA) estimation resolution and complexity compared to the existing sparse array based estimators, this letter proposes a pseudo noise subspace based DOA estimator for an unfolded coprime linear array (UCLA). On one hand, by unfolding the two subarrays of a general coprime linear array (CLA), the UCLA acquires a larger aperture, giving rise to a higher angular resolution. On the other hand, a mapping relationship is explored to convert the original noise subspace into the pseudo noise subspace (in the Nyquist spatial sampling sense), from which the DOAs can be accurately estimated by root-MUSIC method instead of exhaustive peak searching, thereby reducing the complexity. Numerical results also confirm this superiority over other sparse array based estimators.

Topics & Concepts

Coprime integersSubspace topologyEstimatorNoise (video)AlgorithmDirection of arrivalComputer scienceNyquist–Shannon sampling theoremSensor arrayMathematicsArtificial intelligenceComputer visionTelecommunicationsStatisticsImage (mathematics)Machine learningAntenna (radio)Direction-of-Arrival Estimation TechniquesSpeech and Audio ProcessingStructural Health Monitoring Techniques
Pseudo Noise Subspace Based DOA Estimation for Unfolded Coprime Linear Arrays | Litcius