In this paper, an effective direction-of-arrival (DOA) and range estimations method for mixed far-field and near-field non-circular sources is proposed based on a large centrosymmetric uniform linear array (ULA). By exploiting the non-circularity of the sources, an extended signal is generated by concatenating the received array data and its conjugate counterparts. Then the DOAs of far-field signals are estimated based on the extended covariance matrix with the traditional MUSIC algorithm. After eliminating the far-field components from the extended signal subspace, the extended covariance matrix of the near-field signals is obtained. Thus a near-field estimator is constructed based on symmetric property of the extended array manifold where...
For mixed far-field (FF) and near-field (NF) source localization, most existing algorithms are devel...
In fifth-generation (5G) wireless communications, large-scale arrays pose a challenge to the accurac...
In this paper, an approach of estimating signal parameters via rotational invariance technique (ESPR...
In this paper, the authors propose an effective classification and localization algorithm of mixed f...
A high-accuracy algorithm is presented for the localization of mixed incoherent near-field and far-f...
This paper presents a novel algorithm for the localization of mixed far-field sources (FFSs) and nea...
In direction finding and localization applications, multipath signals are important sources of error...
Multipath signals are main source of error for parameter estimation in direction finding application...
International audienceA new efficient root-propagator method based on a uniform linear antenna array...
In this paper, a novel rectilinearity-based localization method for mixed near-field (NF) and far-fi...
In this paper, a novel rectilinearity-based localization method for mixed near-field (NF) and far-fi...
In this paper, a novel localization method for near-field (NF) rectilinear or strictly noncircular s...
In this paper, a mixed source localization method utilizing a two-stage rank-reduction (RARE) estima...
A distributed sensor array network is studied, where sub-arrays are placed on those distributed obse...
International audienceIn this paper, we propose to localize and characterize coherently distributed ...
For mixed far-field (FF) and near-field (NF) source localization, most existing algorithms are devel...
In fifth-generation (5G) wireless communications, large-scale arrays pose a challenge to the accurac...
In this paper, an approach of estimating signal parameters via rotational invariance technique (ESPR...
In this paper, the authors propose an effective classification and localization algorithm of mixed f...
A high-accuracy algorithm is presented for the localization of mixed incoherent near-field and far-f...
This paper presents a novel algorithm for the localization of mixed far-field sources (FFSs) and nea...
In direction finding and localization applications, multipath signals are important sources of error...
Multipath signals are main source of error for parameter estimation in direction finding application...
International audienceA new efficient root-propagator method based on a uniform linear antenna array...
In this paper, a novel rectilinearity-based localization method for mixed near-field (NF) and far-fi...
In this paper, a novel rectilinearity-based localization method for mixed near-field (NF) and far-fi...
In this paper, a novel localization method for near-field (NF) rectilinear or strictly noncircular s...
In this paper, a mixed source localization method utilizing a two-stage rank-reduction (RARE) estima...
A distributed sensor array network is studied, where sub-arrays are placed on those distributed obse...
International audienceIn this paper, we propose to localize and characterize coherently distributed ...
For mixed far-field (FF) and near-field (NF) source localization, most existing algorithms are devel...
In fifth-generation (5G) wireless communications, large-scale arrays pose a challenge to the accurac...
In this paper, an approach of estimating signal parameters via rotational invariance technique (ESPR...