Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance  Communication Applications

Sudha, R.; Bhavani, S.

doi:10.17559/TV-20231227001236

Technical gazette, Vol. 31 No. 5, 2024.

Original scientific paper

https://doi.org/10.17559/TV-20231227001236

Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications

R. Sudha ; Department of Electronics and Communication Engineering, Sri Shakthi Institute of Engineering and Technology, India *
S. Bhavani ; Department of Electronics and Communication Engineering, Sri Shakthi Institute of Engineering and Technology, India

* Corresponding author.

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cite

APA 6th Edition

Sudha, R. & Bhavani, S. (2024). Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications. Tehnički vjesnik, 31 (5), 1719-1725. https://doi.org/10.17559/TV-20231227001236

MLA 8th Edition

Sudha, R. and S. Bhavani. "Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications." Tehnički vjesnik, vol. 31, no. 5, 2024, pp. 1719-1725. https://doi.org/10.17559/TV-20231227001236. Accessed 7 Oct. 2024.

Chicago 17th Edition

Sudha, R. and S. Bhavani. "Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications." Tehnički vjesnik 31, no. 5 (2024): 1719-1725. https://doi.org/10.17559/TV-20231227001236

Harvard

Sudha, R., and Bhavani, S. (2024). 'Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications', Tehnički vjesnik, 31(5), pp. 1719-1725. https://doi.org/10.17559/TV-20231227001236

Vancouver

Sudha R, Bhavani S. Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications. Tehnički vjesnik [Internet]. 2024 [cited 2024 October 07];31(5):1719-1725. https://doi.org/10.17559/TV-20231227001236

IEEE

R. Sudha and S. Bhavani, "Efficient MIMO Antenna Design Using Metamaterials for Compact and High-Performance Communication Applications", Tehnički vjesnik, vol.31, no. 5, pp. 1719-1725, 2024. [Online]. https://doi.org/10.17559/TV-20231227001236

Abstract

The proposed metamaterial-based MIMO antenna has four individual elements, each of which is fed by a microstrip feed. The total width and length of the structure are respectively 60 and 52 millimetres. The metamaterial is dispersed from the fields with the strongest coupling by being printed on a patch. This makes the isolation better. The distributions of the fields are altered as a result of the electromagnetic fields' interactions with the metamaterial structure, which reduces the number of coupled fields. The suggested antenna design is the simplest and takes up the least amount of area because metamaterials are produced as patches. The proposed architecture's strong impedance bandwidth operates at 18.3 GHz, 10.8 GHz, 12.3GHz, 13.7 GHz, 16.1 GHz, 18.1 GHz. The suggested structure has all four ports of excitation, a gain of greater than 6.dBi on all operating bands, and a broadside radiation pattern. Tolerable levels of error (ECC and CCL) are achieved in their respective operational bands. A prototype of the proposed antenna is then constructed and evaluated. Because the simulated value and the measured value are so close to one another, MIMO is the most efficient form of wireless transmission.

Keywords

broadside radiation pattern; impedance bandwidth; metamaterial-based design; MIMO antenna; wireless transmission efficiency

Hrčak ID:

320410

URI

https://hrcak.srce.hr/320410

Publication date:

31.8.2024.

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Technical gazette, Vol. 31 No. 5, 2024.

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