Gain and isolation enhancement of a wideband MIMO antenna using metasurface for 5G sub-6 GHz communication systems

Hasan, Md. Mhedi; Islam, Mohammad Tariqul; Samsuzzaman, M.; Baharuddin, Mohd Hafiz; Soliman, Mohamed S.; Alzamil, Ahmed; Sulayman, Iman I. M. Abu; Islam, Md. Shabiul

doi:10.1038/s41598-022-13522-5

Cited by 42 publications

(24 citation statements)

References 41 publications

(42 reference statements)

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“…The proposed four-port MIMO shows isolation >18.5 dB which is larger compared to the works reported in [6, 11, 14, 15, 16, 24, 25]. This is achieved by introducing a pair of interconnected inverted L-stubs of asymmetric lengths.…”

Section: Resultsmentioning

confidence: 74%

“…It shows an average out-of-band rejection level of 15 dB in the frequency ranging from 6 to 20 GHz, thereby enhancing the stopband behavior of the antenna resulting in a high signal-to-noise ratio. The proposed four-port MIMO shows isolation >18.5 dB which is larger compared to the works reported in [6, 11, 14, 15, 16, 24, 25]. This is achieved by introducing a pair of interconnected inverted L-stubs of asymmetric lengths. The center-to-center spacing between the adjacent elements in the four-port MIMO antenna is reduced within the range of 0.22 λ e to 0.25 λ e which is smaller than [6, 10, 11, 15, 16, 24, 25]. The effect of interconnected ground planes has an inevitable impact on isolation.…”

Section: Resultsmentioning

confidence: 82%

“…The center-to-center spacing between the adjacent elements in the four-port MIMO antenna is reduced within the range of 0.22 λ e to 0.25 λ e which is smaller than [6, 10, 11, 15, 16, 24, 25].…”

Section: Resultsmentioning

confidence: 99%

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A four-port wideband filtering monopole MIMO array for sub-6 GHz 5G communications

Ayyappan¹,

Alsath

Subbaraj

2023

Int. J. Microw. Wireless Technol.

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This communication presents the significance of a four-port 2×2 multiple input multiple output antenna operating in mid-band frequency for 5G handheld device application. A microstrip-fed reference truncated decagonal monopole antenna operating at 3.9 GHz and a modified split-ring resonator (SRR)-based low-pass filter that excites at a cut-off frequency of 6.5 GHz are designed. On introducing a stub line in the SRR structure, the proposed filter shows a good out-of-band rejection beyond 6.5 GHz. By integrating the filter into the reference monopole, a wideband filtering monopole with improved stopband performance is obtained. A four-port MIMO array is constructed by orthogonally positioning the antenna with a center-to-center separation of 0.25λ0. To improve isolation, a pair of inverted L-stubs of varying lengths is introduced. The closed loop formed by the interconnection of stubs enhances isolation within the frequency range of 3–3.5 GHz. The fabricated prototype fosters an impedance bandwidth of 66.67%, isolation >18.5 dB, an average suppression of 15 dB, an average peak gain >3.7 dB, envelope correlation coefficient < 0.015, Actual Diversity Gain (ADG) > 9.9 dB, Effective Diversity Gain (EDG) > 8.8 dB, and efficiency >88%. The proposed design is suitable for 5G sub-6 GHz applications such as n48, n77, n78, n79 bands, WiMAX, and LTE bands 42, 43, 46, 47, 48.

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Section: Resultsmentioning

confidence: 74%

Section: Resultsmentioning

confidence: 82%

See 1 more Smart Citation

A four-port wideband filtering monopole MIMO array for sub-6 GHz 5G communications

Ayyappan¹,

Alsath

Subbaraj

2023

Int. J. Microw. Wireless Technol.

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“…The initial circular patch antenna of 28 GHz is calculated using the well-known formula [20]. It was reported that the etching of the slots in the diagonal corners of the antenna patch can improve the impedance bandwidth [21]. Therefore, in the antenna design, the circle patch is etched by two equal circle shapes in the diagonal patch printed on Roger substrate backed with a continuous copper ground plane, as shown in Figure 1(a) (referred to as Ant.…”

Section: Antenna Designmentioning

confidence: 99%

Millimeter-Wave Broadband MIMO Antenna Using Metasurfaces for 5G Cellular Networks

Cao

Nguyen

Phan

et al. 2023

International Journal of RF and Microwave Computer-Aided Engine

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Developing a millimeter-wave (mm-wave) antenna that enables wide bandwidth with its operating band covering the entire global 5G spectrum is highly desirable but very challenging for achieving both compact size and high-performance antenna. Herein, the mm-wave microstrip patch antenna (MPA) and its multiple-input multiple-output (MIMO) configuration based on the metasurfaces for 5G system applications are proposed and investigated by the simulation method. To improve performance and keep the low-profile and low-cost MPA antenna, square ring resonator (SQRR) metasurface and radiating patch are printed on a single dielectric layer. With the presence of the metasurfaces that acting as a secondary radiator, the performance of the designed antenna is significantly improved with a wide operating band in the range of 23.9-30.7 GHz, high peak gain of 9.4 dBic, and radiation efficiency of above 87%. Based on this design, four-port MIMO antenna configuration is performed for evaluating a MIMO system that realizes the advantage features such as compact size, wide bandwidth covering the entire global mm-wave 5G spectrum band of 24.25-29.5 GHz, and excellent diversity performance characterized by good isolation between the adjacent elements and low envelope correlation coefficient. Thus, the MIMO antenna design is a very promising candidate for 5G MIMO mm-wave applications, specifically in cellular systems.

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“…Fifth-generation technology increases channel capacity with more bandwidth per carrier (from 5 to 400 MHz) [ 40 ], being spectrally more efficient due to the higher orders of the modulation schemes [ 41 , 42 ]. Previously employed in 4G, the multiple-input multiple output (MIMO) technique simultaneously uses multiple antennas with multiple channels for signal transmission and reception, increasing channel bandwidth and maintaining antenna efficiency without requiring additional power [ 43 , 44 ]. Antenna gains in the MMIMO (massive MIMO) version used in 5G compensate for channel propagation losses by providing robustness against interference and low latency [ 45 ].…”

Section: Introductionmentioning

confidence: 99%

Overview of Mobile Communications in Colombia and Introduction to 5G

Barrios-Ulloa

Cama-Pinto

Arrabal-Campos

et al. 2023

Sensors

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The deployment of 5G around the world continues to progress at a rapid pace, especially in North America and Asia. Its advantages and efficiency as a data transmission network have been widely demonstrated in different fields such as agriculture, education, health, and surveillance. However, this process does not have the same dynamics in Latin America, specifically in Colombia. The country is currently implementing actions aimed at facilitating the deployment of this technology in the short term, including pilot tests for the use of the radio spectrum, spectrum auctions, the planning of future auctions, and the review of spectrum caps. The results of this review allow us to conclude that despite the forecasts and the intentions of the Colombian government and mobile communication service operators, 5G in standalone mode will not be commercially available in Colombia before the end of 2023. The main failures in its deployment are related to the lack of available spectrum to support the ultrahigh-reliability and low-latency, enhanced mobile broadband, and massive machine-type communications scenarios, as well as the delay in the auction processes for its assignment.

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Gain and isolation enhancement of a wideband MIMO antenna using metasurface for 5G sub-6 GHz communication systems

Cited by 42 publications

References 41 publications

A four-port wideband filtering monopole MIMO array for sub-6 GHz 5G communications

A four-port wideband filtering monopole MIMO array for sub-6 GHz 5G communications

Millimeter-Wave Broadband MIMO Antenna Using Metasurfaces for 5G Cellular Networks

Overview of Mobile Communications in Colombia and Introduction to 5G

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