Mehre Munir scite author profile

Mehre Munir

5Publications

14Citation Statements Received

39Citation Statements Given

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Affiliations

Iqra National University

Publications

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A Novel Hook-Shaped Antenna Operating at 28 GHz for Future 5G mmwave Applications

et al. 2021

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To address atmospheric attenuation and path loss issues in the mmwave portion of the spectrum, high gain and narrow beam antenna systems are essential for the next generation communication networks. This paper presents a novel hook-shaped antenna array for 28 GHz 5G mmwave applications. The proposed antenna was fabricated on commercially available Rogers 5880 substrate with thickness of 0.508 mm and dimensions of 10 × 8 mm2. The proposed shape consists of a circle with an arc-shaped slot on top of it and T-shaped resonating lengths are introduced in order to attain broad band characteristics having gain of 3.59 dBi with radiation and total efficiency of 92% and 86% for single element. The proposed structure is transformed into a four-element array with total size of 26.9 × 18.5 mm2 in order to increase the gain up to 10.3 dBi at desired frequency of interest. The four-element array is designed such that it exhibits dual-beam response over the entire band of interest and the simulated results agree with fabricated prototype measurements. The proposed antenna array, because of its robustness, high gain, and dual-beam characteristics can be considered as a potential candidate for the next generation 5G communication systems.

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U Patch Antenna using Variable Substrates for Wireless Communication Systems

Kiani¹,

Mahmood²,

Khattak³

et al. 2016

ijacsa

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A Novel Design of Patch Antenna using U-Slot and Defected Ground Structure

Kiani¹,

Mahmood²,

Munir³

et al. 2017

ijacsa

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Abstract-A novel design of patch antenna is presented with double U slot structure on patch with ground irregularities. As a result tri-band response is achieved with gain reaching 0.785 to 3.75dB respectively and directivity of 5.5 to 5.6dBi. Coaxial cable is mounted with patch as medium of power. The antenna has shown minimum mismatch loss with 0 to 5% with high bandwidth response of 37 to 1200MHZ. The proposed antenna can be used for GSM, W-LAN, GPRS and other radio communication services systems.

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ISM Band 1:16 Wilkinson Power Divider

Altaf

Sajjad

Khan

et al. 2018

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A High Gain MIMO Antenna for Fixed Satellite and Radar Applications

Altaf¹,

Mahmood²,

Munir³

et al. 2018

ijacsa

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Patch antennas have emerged rapidly with advancement of communication technology. For antenna design purposes, Finite difference time domain (FDTD) method is a commonly used. This paper focuses on the interaction among elements of MIMO antenna also known as mutual coupling using FDTD method. An M shape is introduced and with placement of isolating structure, round about 12dB of isolation is increased without degradation of performance parameters. The proposed antenna design can be used for radar and satellite services applications.

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Mehre Munir

A Novel Hook-Shaped Antenna Operating at 28 GHz for Future 5G mmwave Applications

U Patch Antenna using Variable Substrates for Wireless Communication Systems

A Novel Design of Patch Antenna using U-Slot and Defected Ground Structure

ISM Band 1:16 Wilkinson Power Divider

A High Gain MIMO Antenna for Fixed Satellite and Radar Applications

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