Ha Bui-Van scite author profile

Ha Bui-Van

4Publications

24Citation Statements Received

110Citation Statements Given

How they've been cited

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108

Affiliations

Université Catholique de Louvain, Asahi Glass (Belgium)

Publications

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Fast and Accurate Simulation Technique for Large Irregular Arrays

Bui-Van

Abraham

Arts

et al. 2018

IEEE Trans. Antennas Propagat.

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A fast full-wave simulation technique is presented for the analysis of large irregular planar arrays of identical 3-D metallic antennas. The solution method relies on the Macro Basis Functions (MBF) approach and an interpolatory technique to compute the interactions between MBFs. The Harmonicpolynomial (HARP) model is established for the near-field interactions in a modified system of coordinates. For extremely large arrays made of complex antennas, two approaches assuming a limited radius of influence for mutual coupling are considered: one is based on a sparse-matrix LU decomposition and the other one on a tessellation of the array in the form of overlapping sub-arrays. The computation of all embedded element patterns is sped up with the help of the non-uniform FFT algorithm. Extensive validations are shown for arrays of log-periodic antennas envisaged for the low-frequency SKA (Square Kilometer Array) radio-telescope. The analysis of SKA stations with such a large number of elements has not been treated yet in the literature. Validations include comparison with results obtained with commercial software and with experiments. The proposed method is particularly well suited to array synthesis, in which several orders of magnitude can be saved in terms of computation time.

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Main beam modeling for large irregular arrays

Bui-Van¹,

Craeye²,

Acedo³

2017

Exp Astron

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Large radio telescopes in the 21 st century such as the Low-Frequency Array (LOFAR) or the Murchison Widefield Array (MWA) make use of phased aperture arrays of antennas to achieve superb survey speeds. The Square Kilometer Array low frequency instrument (SKA1-LOW) will consist of a collection of non-regular phased array systems. The prediction of the main beam of these arrays using a few coefficients is crucial for the calibration of the telescope. An effective approach to model the main beam and first few sidelobes for large non-regular arrays is presented. The approach exploits Zernike polynomials to represent the array pattern. Starting from the current defined on an equivalence plane located just above the array, the pattern is expressed as a sum of Fourier transforms of Zernike functions of different orders. The coefficients for Zernike polynomials are derived by two different means: least-squares and analytical approaches. The analysis shows that both approaches provide a similar performance for representing the main beam and first few sidelobes. Moreover, numerical results for different array configurations are provided, which demonstrate the performance of the proposed method, also for arrays with shapes far from circular.

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On the Maximum Absorbed Power in Receiving Antenna Arrays

Bui-Van

Arts

Craeye

et al. 2019

IEEE Trans. Antennas Propagat.

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Fourier–Bessel Basis Functions for the Analysis of Elliptical Domain Metasurface Antennas

Bodehou

Craeye

Bui-Van

et al. 2018

Antennas Wirel. Propag. Lett.

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Ha Bui-Van

Fast and Accurate Simulation Technique for Large Irregular Arrays

Main beam modeling for large irregular arrays

On the Maximum Absorbed Power in Receiving Antenna Arrays

Fourier–Bessel Basis Functions for the Analysis of Elliptical Domain Metasurface Antennas

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