A Closed-Form Solution for 3D Source Localization Using Angles and Doppler Shifted Frequencies

Jiandong, Zhu; Ting, Ding; Lijuan, Qiao

doi:10.1109/access.2023.3305961

IEEE Access

2023

DOI: 10.1109/access.2023.3305961

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A Closed-Form Solution for 3D Source Localization Using Angles and Doppler Shifted Frequencies

Zhu Jiandong,

Ding Ting,

Qiao Lijuan

Abstract: Moving source localization in 3-D space using frequencies of arrival (FOA) have recently made significant progress with the development of closed-form solutions. However, the closed-form solution algorithms for source localization using FOA only introduces a large number of auxiliary variables and results in a significant jump in the minimum number of receivers. In order to overcome the inherent defect of source localization using FOA measurements only, we address locating the moving source by jointly using AO… Show more

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2024

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An asymptotically unbiased 3D source localisation method based on frequencies and angles measurements

Zhao,

Huang,

Mao

et al. 2024

IET Radar Sonar & Navi

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Based on frequency of arrival (FOA) and angle of arrival (AOA) measurements, the localisation of a moving source using a number of stationary stations is discussed. A closed‐form solution and bias reduction method using FOA and AOA measurements will be presented to quickly and accurately estimate target parameters, including location and velocity. The closed‐form solution is implemented using two‐stage weighted least squares, which constructs a pseudolinear equation by introducing auxiliary variables to perform linear estimation. In the process of linearisation, the authors utilise AOA measurements to simplify the FOA pseudolinear equation and reduce the number of auxiliary parameters. This means that fewer stations are needed to estimate the target parameters. However, the use of the computationally attractive pseudolinear formulation will introduce a non‐ignorable localisation bias if the measurements are not sufficiently accurate. To solve the above problem, a quadratic constraint on least squares minimisation is considered in the bias reduction method. Under moderate Gaussian noise, theoretical analysis and simulation results show that the root mean square error of proposed method can significantly reduce positioning deviation and asymptotically approach the Cramer–Rao Lower Bound. Keywords Radar, Radar detection, Doppler shift, Parameter estimation.

show abstract

An asymptotically unbiased 3D source localisation method based on frequencies and angles measurements

Zhao,

Huang,

Mao

et al. 2024

IET Radar Sonar & Navi

View full text Add to dashboard Cite

show abstract

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A Closed-Form Solution for 3D Source Localization Using Angles and Doppler Shifted Frequencies

Cited by 1 publication

References 31 publications

An asymptotically unbiased 3D source localisation method based on frequencies and angles measurements

An asymptotically unbiased 3D source localisation method based on frequencies and angles measurements

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