A Design of Compact Wideband Antenna Based on Hybridization of Minkowski Fractal Curves on Hexagonal Patch and Partial Ground Plane with Truncated Corners

Bharti, Gurpreet; Sivia, Jagtar Singh

doi:10.1007/s11277-021-09422-y

Cited by 5 publications

(2 citation statements)

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“…Where, i and j indicates elements of antenna 1 and 2, separately. MEG of MIMO has been premeditated using equations (19) to (20) and obtained result has illustrated in Fig. 17.…”

Section: 3diversity Performance Of Proposed Mimo Antennamentioning

confidence: 99%

“…Also, the different types of fractal structures are being used to design the patch of this antenna has been studied thoroughly along with the hybrid fractal geometries to design the novel shape of antenna for this article. Numerous fractal and amalgam fractal antenna are premeditated by various researchers like: Bharti et al [20] have designed the compacted wideband HFA constructed with fractal Minkowski curves on hexangular shaped patch using fractional ground structure with curtailed bends for wireless applications. This antenna resonates at quad frequency bands such as 4.4, 7.1, 10.8 and 16.3GHz by a maximum 10.86GHz impedance bandwidth.…”

Section: Introductionmentioning

confidence: 99%

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PSOGSA for the Design of Hybrid Fractal Curve Based MIMO Antenna for 5G Applications

Sidhu

Singh²

2023

Preprint

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In this manuscript the design of a high isolation Multiple Input Multiple Output (MIMO) Hybrid Fractal Antenna (HFA) has been presented for 5G and other wireless standards in wider operational frequency range from 1 to 30GHz. The proposed MIMO antenna has been developed by the hybrid combination of Minkowski and Meander fractal curves on a partial octagonal shaped radiating patch. Fractional ground plane is used for the assembly of antenna in the initial phase and, further the T-stub has been exploited on the ground plane to expand the isolation between the radiating elements. The structure of Meander and Minkowski hybrid fractal curves is generated by using iterative function system (IFS) technique. The dimensions of proposed antenna are optimized using particle swarm optimization gravitational search algorithm (PSOGSA).A wider impedance bandwidth 29GHz (187.09%) has been attained in the operative frequency range by using merged fractal structure on proposed patch with tapered transmission line feed. The optimized structure of proposed hybrid MIMO antenna has been fabricated on Rogers RT/duroid 5880 substrate material of height 1.6mm. The performance parameters of the projected antenna have been measured and analysed .The obtained experimental results are highly correlated with simulated ones. Performance diversity parameters of designed antenna like CCL, DG, ECC, TARC and MEG fall within working limits in the frequency range of interest. Also the developed antenna retains high isolation between − 30 to -50dB in the desired frequency range .The proposed model of antenna can be useful for 5G 3.5GHz band, 5G NR (New Radio) frequency bands (3.3–5.0GHz), LTE band 46 (5.15–5.925GHz), EU (European Union) 5G frequency band (5.9–6.4GHz), 5G 26GHz frequency band and other wireless standards in the frequency range from 1 to 30GHz.

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“…Where, i and j indicates elements of antenna 1 and 2, separately. MEG of MIMO has been premeditated using equations (19) to (20) and obtained result has illustrated in Fig. 17.…”

Section: 3diversity Performance Of Proposed Mimo Antennamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%