Marwa Daghari scite author profile

Marwa Daghari

5Publications

21Citation Statements Received

27Citation Statements Given

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Affiliations

University of Gabès

Publications

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Radiation performance enhancement of an ultra wide band antenna using metamaterial band-pass filter

Daghari

Sakli²

2020

IJECE

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In this paper, a metamaterial structure based on Frequency Selective Surface (FSS) cell is proposed to achieve an isotropic band-pass filtering response. This filter consists of a planar layer formed by a 3×3 metamaterials cell array with transmittive filtering behavior at 3.5 GHz. This design with 45 mm × 45 mm dimension is then integrated in close proximity at distance of 10 mm with an Ultra Wide Band (UWB) antenna to enhance it’ s performances around a 3.5 GHz operating frequency. Simulation results ensure that filter geometry provides the advantage of polarization independency and also exhibits the angular stability up to 45◦ for both Transverse Electric (TE) and Transverse magnetic (TM) modes. More importantly, enhancement in antenna radiation pattern characteristics is illustrated when the planar FSS layer is integrated at a small distance from the radiator. Moreover, antenna gain was improved to 3.22 dBi, adaptation of antenna port (S11) was increased to -53.26 dB and antenna bandwidth reduction to 1.7 GHz is also detected. All these performances make the proposed design as a good choice used to shield signals in UWB wireless applications especially for connected object in 5G.

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High Isolation With Metamaterial Improvement In A Compact UWB MIMO Multi-Antennas

Abdelhamid

Daghari

Sakli

et al. 2019

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Muli‐UWB Antenna System Design for 5G Wireless Applications with Diversity

Daghari

Essid

Sakli

2021

Wireless Communications and Mobile Computing

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In this paper, we propose a compact Multiple Input Multiple Output (MIMO) antenna system with high isolation for wireless applications in 5G connected devices. This MIMO antenna system with the size of 92 × 88 m m 2 consists of two elliptical antennas symmetrically arranged next to each other. Two decoupling methods which are neutralization and Defected Ground Structure (DGS) are applied to ensure diversity of the proposed MIMO antenna. The single and MIMO antennas are simulated and analyzed then fabricated and measured. A good agreement between measurements and simulations is obtained. These configurations, dedicated to covering the 3.4 GHz band -3.8 GHz, have shown very satisfactory performances more than -30 dB in terms of reduction of mutual coupling between the antennas constituting our system. MIMO diversity parameters, such as Envelope Correlation (ECC), Diversity Gain (DG), and total efficiency, are also studied for each proposed MIMO system. Thus, results demonstrate that our two proposed antenna configurations are very suitable for 5G MIMO applications.

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A New UWB-MIMO Multi-Antennas With High Isolation For Satellite Communications

Abdelhamid

Daghari

Sakli

et al. 2019

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A New Multi-Antenna MIMO for X-Band Satellite Communications

Abdelhamid

Daghari

Sakli³

2020

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Marwa Daghari

Radiation performance enhancement of an ultra wide band antenna using metamaterial band-pass filter

High Isolation With Metamaterial Improvement In A Compact UWB MIMO Multi-Antennas

Muli‐UWB Antenna System Design for 5G Wireless Applications with Diversity

A New UWB-MIMO Multi-Antennas With High Isolation For Satellite Communications

A New Multi-Antenna MIMO for X-Band Satellite Communications

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