Hamed S. Al-Raweshidy scite author profile

-A reconfigurable wideband and multiband C-Slot patch antenna with dual-patch elements is proposed and studied. It occupies a compact volume of 50 x 50 x 1.57 (3925mm 3 ), including the ground plane. The antenna can operate in two dual-band modes and a wideband mode from 5 to 7 GHz. Two parallel C-Slots on the patch elements are employed to perturb the surface current paths for excitation of the dual-band and the wideband modes. Two switches, implemented using PIN diodes, are placed on the connecting lines of a simple feed network to the patch elements. Dual-band modes are achieved by switching "ON" either one of the two patch elements, while the wideband mode with an impedance bandwidth of 33.52% is obtained by switching "ON" both patch elements. The frequencies in the dual-band modes can be independently controlled using positions and dimensions of the C-Slots without affecting the wideband mode. The advantage of the proposed antenna is that two dual-band operations and one wideband operation can be achieved using the same dimensions. This overcomes the need for increasing the surface area normally incurred when designing wideband patch antennas. Simulation results are validated experimentally through prototypes. The measured radiation patterns and peak gains show stable responses and are in good agreements. Coupling between the two patch elements plays a major role for achieving the wide bandwidth and the effects of mutual coupling between the patch elements are also studied.

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Unified Modeling of Composite $\kappa -\mu$ /Gamma, $\eta -\mu$/Gamma, and $\alpha -\mu$/Gamma Fading Channels Using a Mixture Gamma Distribution With Applications to Energy Detection

Al‐Hmood

Al-Raweshidy

2017

Antennas Wirel. Propag. Lett.

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In this letter, the performance of an energy detection (ED) is analysed over different composite generalized multipath/gamma fading channels, namely, κ−µ/gamma, η−µ/gamma, and α − µ/gamma. The mixture gamma (MG) distribution is employed to approximate with high accuracy the signal-to-noiseratio (SNR) for all these channels. General, mathematically tractable, and unified analytic expressions for the performance metrics of ED, i.e., the average detection probability and the average area under the receiver operating characteristics curve (AUC), are derived. The validation of our analysis is verified by comparing the analytical results with the simulation results.

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A novel maximum power point tracking technique based on fuzzy logic for photovoltaic systems

Al-Majidi

Abbod

Al-Raweshidy

2018

International Journal of Hydrogen Energy

173

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Traffic-Aware VANET Routing for City Environments—A Protocol Based on Ant Colony Optimization

Goudarzi

Asgari

Al-Raweshidy

2019

IEEE Systems Journal

120

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Mutual coupling reduction with a wideband planar decoupling structure for UWB–MIMO antennas

Radhi

Nilavalan

Wang

et al. 2018

Int. J. Microw. Wireless Technol.

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A new planar multiple-input–multiple-output (MIMO) antenna for ultra wideband (UWB) applications is presented. The proposed antenna operates over the frequency band from 3.1 to 10.6 GHz and it consists of two identical circular monopoles on an FR4 substrate. The wide isolation is achieved through a novel planar decoupling structure that is being inserted between the dual antennas. Moreover, a center slot is etched on the common ground to further increase isolation. The effectiveness of the decoupling structure is analyzed, and performance study has been performed to investigate the mutual coupling reduction. A good isolation of more than 31 dB has been achieved through the entire UWB band (more than 12 dB improvement over the reference antenna). The proposed UWB antenna with and without the wideband decoupling structure has been investigated and verified both numerically and experimentally. The measurement results of the proposed UWB–MIMO antenna are in good agreement with the simulation results. The proposed UWB antenna has been compared with previous works regarding antenna size, geometric complexity, bandwidth, and isolation level. The proposed antenna has some outstanding characteristics such as a geometric simplicity, compact size, broad bandwidth, and low correlation which give the antenna an excellent diversity performance and a good candidate for UWB applications.

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