and Henri Baudrand scite author profile

and Henri Baudrand

4Publications

74Citation Statements Received

128Citation Statements Given

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Calculation of the Mutual Coupling Parameters and Their Effects in 1-D Planar Almost Periodic Structures

Hamdi¹,

Aguili²,

Raveu³

et al. 2014

PIER B

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Abstract-This paper proposes a new modal analysis based on Floquet's theorem which is needful for the study of a 1-D periodic phased array antenna excited by arbitrary located sources. This analysis requires an accurate estimation for calculation of the mutual coupling parameters (for example: mutual impedances or admittances . . . ) between the array elements and their effects integrating a large planar radiating structure. Two different formulations are suggested, in spectral and spatial domains, to solve the problem and to calculate the coupling coefficients between the neighbouring elements in a periodic environment. Important gain in the running time and used memory is obtained using Floquet analysis. One numerical method is used for modeling the proposed structures: the moment method combined with Generalized Equivalent Circuit (MoM-GEC).

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Floquet Modal Analysis to Modelize and Study 2-D Planar Almost Periodic Structures in Finite and Infinite Extent With Coupled Motifs

Hamdi¹,

Aguili²,

Baudrand³

2015

PIER B

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Abstract-Studying of mutual coupling parameters between the antenna elements in an array environment has been considered as the subject of feature research. That is why, in this paper, we present a new Floquet modal analysis procedure for analyzing almost periodic structures. Accurate evaluation of the mutual coupling could be achieved by this analysis. It is shown how Floquet analysis can be exploited to study a finite array with arbitrary amplitude and linear phase distribution in both x-y directions including mutual coupling effects. Two different calculation methods of coupling coefficients between the array elements are presented, in spectral and spatial domains, to solve the suggested problem. For modeling the given structures, the moment method combined with Generalized Equivalent Circuit (MoM-GEC) is proposed. High gain in the running time and memory used is given using Floquet analysis. To validate this work, several examples are shown.

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New Version of Twa Using Two-Dimensional Non-Uniform Fast Fourier Mode Transform (2d-Nuffmt) for Full-Wave Investigation of Microwave Integrated Circuits

Ayari

Aguili²,

Baudrand³

2009

PIER B

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Abstract-In this paper, a novel version of the transverse wave approach (TWA) based on two-dimensional non-uniform fast Fourier mode transform (2D-NUFFMT) is presented and developed for fullwave analysis of RF integrated circuits (RFICs). An adaptive mesh refinement is applied in this advanced TWA process and CPU computation time is evaluated throughout 30 GHz patch antenna, application belonging to wireless systems. The TWA in its novel version is favorably compared with the conventional one in presence of AMT technique in the context of EM simulations. Another version of TWA is outlined to illustrate a computationally efficient way to handle an arbitrary mesh for RFICs analysis with high complexity problems.

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Sinrd Circuits Analysis With Wcip

Alhzzoury¹,

Raveu²,

Pigaglio³

et al. 2014

PIER C

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