Wideband antenna array for real-time data and video transmission

Floc'H, Jean Marie; Jaafari, Bilal El; Ahmed, Ahmed El Sayed

doi:10.1109/eumc.2015.7346045

Cited by 3 publications

(2 citation statements)

References 2 publications

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“…In this work, a novel multilayered cylindrical dielectric lens (MLCDLA) design is worked out to develop high performance and 3D printable for 10 GHz microwave applications. Recently, 3D printing technology has been extensively used for prototyping of dielectric substrates, different type of microwave antennas for both civilian and military applications, since it has many advantages compared with the traditional fabrication methods such as being easier to prototype complicated designs in terms of low cost and low weight …”

Section: Introductionmentioning

confidence: 99%

Design and realization of multilayered cylindrical dielectric lens antenna using 3D printing technology

Mahoutı

Belen

Güneş

et al. 2019

Micro & Optical Tech Letters

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Herein, design and realization of a novel, low cost, small size, high gain, 3D printed multilayered cylindrical dielectric lens antenna (MLCDLA) is presented at 10 GHz. In the first stage, MLCDLA is designed suitable the 3D printed technology in CST 3D EM simulation environment. Then gain, return loss, and radiation pattern of the design are investigated in the X‐band frequencies in the same 3D simulated environment. In the second stage, the designed lens is fabricated by the 3D printed technology in dimensions of 30 × 30 × 52.5 mm3 using acrylonitrile butadiene styrene, with εr = 2.5. In the final stage, performance characteristics of the proposed LCDLA are measured using 10 GHz rectangular waveguide as feeding unit and are compared with the simulated results and counterpart designs in literature. The prototyped MLCDLA is achieved 14 dBi measured gain at 10 GHz. It can be concluded that the proposed 3D printing method not only enables a high performance MLCDLA design but also provides its fast, low cost, and effective prototyping process which can be used for other microwave devices.

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Section: Introductionmentioning

confidence: 99%

Design and realization of multilayered cylindrical dielectric lens antenna using 3D printing technology

Mahoutı

Belen

Güneş

et al. 2019

Micro & Optical Tech Letters

View full text Add to dashboard Cite

show abstract

“…Ellipse shape of the monopole antenna was chosen for many reasons [6]- [7]. In order to reduce the total size of the proposed antenna, a simple and clever strategy based on folding the ellipse antenna several times is applied [8]. The ellipse is divided in two semi-ellipses along the major radius and each semi-ellipse is folded in the opposite direction of the other.…”

Section: Introductionmentioning

confidence: 99%

Wideband low-profile monopole antenna for mobile and wireless monitoring applications

Jaafari¹,

Floc'H²

2016

2016 10th European Conference on Antennas and Propagation (EuCAP)

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International audienceA compact wideband monopole antenna for mobile and wireless monitoring applications is presented. The proposed antenna will be implemented in a wireless system devoted to remote monitoring water and wastewater applications. The antenna is mainly designed to operate within the frequency range of 700-2700 MHz covering different mobile and wireless frequency bands with a return loss less than -6dB. Omnidirectional radiation pattern and improved radiation performances are very suitable. An optimization process based on global algorithm has been used to achieve the design goals. The design of the proposed antenna is carried out using optimization and simulation tools of full-wave electromagnetic simulation software. A prototype of the proposed antenna was manufactured and tested in order to verify the performances of the antenna including in the real environment conditions. © 2016 European Association of Antennas and Propagation

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Low‐profile wideband monopole antenna for mobile and wireless monitoring applications

Jaafari

Floc'H

2016

Micro & Optical Tech Letters

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International audienceA compact wideband monopole antenna for mobile and wireless monitoring applications is presented. The proposed antenna will be implemented in a wireless system devoted to remote monitoring water and wastewater applications. The antenna is mainly designed to operate within the frequency range of 700–2700 MHz covering different mobile and wireless frequency bands. An optimization process based on global algorithm has been used to achieve the design goals. The design of the proposed antenna is carried out using optimization and simulation tools of full-wave electromagnetic simulation software. A prototype of the proposed antenna was manufactured and tested in order to verify the performances of the antenna including in the real environment conditions. © 2016 Wiley Periodicals, Inc. Microwave Opt Technol Lett 58:1813–1817, 201

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Wideband antenna array for real-time data and video transmission

Cited by 3 publications

References 2 publications

Design and realization of multilayered cylindrical dielectric lens antenna using 3D printing technology

Design and realization of multilayered cylindrical dielectric lens antenna using 3D printing technology

Wideband low-profile monopole antenna for mobile and wireless monitoring applications

Low‐profile wideband monopole antenna for mobile and wireless monitoring applications

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