A review on different techniques of mutual coupling reduction between elements of any MIMO antenna. Part 1: DGSs and parasitic structures
This two-part article presents a review of different techniques of mutual coupling (MC)
reduction. MC is a major issue when an array of antennas is densely packed. When the …
reduction. MC is a major issue when an array of antennas is densely packed. When the …
Metamaterial-based antenna performance enhancement for MIMO system applications
H Sakli, C Abdelhamid, C Essid, N Sakli - IEEE Access, 2021 - ieeexplore.ieee.org
This paper presents a method for designing a new two-element ultra-wideband (UWB)
multiple-input-multiple-output (MIMO) antenna. We propose the design of an ultra-wideband …
multiple-input-multiple-output (MIMO) antenna. We propose the design of an ultra-wideband …
UWB antenna and MIMO antennas with bandwidth, band‐notched, and isolation properties for high‐speed data rate wireless communication: A review
The prospective of ultrawide band (UWB) technology is enormous due to its remarkable
advantages such as the capability of providing high‐speed data rates at short transmission …
advantages such as the capability of providing high‐speed data rates at short transmission …
Planar UWB MIMO antenna with pattern diversity and isolation improvement for mobile platform based on the theory of characteristic modes
X Zhao, SP Yeo, LC Ong - IEEE Transactions on Antennas and …, 2017 - ieeexplore.ieee.org
This communication presents a planar ultra-wideband multi-input multi-output antenna with
pattern diversity and isolation improvement based on the theory of characteristic modes. The …
pattern diversity and isolation improvement based on the theory of characteristic modes. The …
A parasitic patch loaded staircase shaped UWB MIMO antenna having notch band for WBAN applications
A staircase-shaped quasi-fractal antenna is presented to meet the requirements of compact
electronics operating in UWB or E-UWB spectrum. A conventional broadband monopole …
electronics operating in UWB or E-UWB spectrum. A conventional broadband monopole …
Multiple‐input‐multiple‐output/diversity antenna with dual band‐notched characteristics for ultra‐wideband applications
Abstract Design and implementation of a four‐port ultra‐wideband (UWB) multiple‐input‐
multiple‐output (MIMO)/diversity antenna with dual band‐notched characteristics are …
multiple‐output (MIMO)/diversity antenna with dual band‐notched characteristics are …
High diversity gain super‐wideband single band‐notch MIMO antenna for multiple wireless applications
G Saxena, P Jain, YK Awasthi - IET Microwaves, Antennas & …, 2020 - Wiley Online Library
A two‐element super‐wideband (SWB) MIMO antenna is proposed in this study. A step
impedance microstrip feed line structure is introduced to achieve an SWB impedance …
impedance microstrip feed line structure is introduced to achieve an SWB impedance …
Two-port hexagon shaped MIMO microstrip antenna for UWB applications integrated with double stop bands for WiMax and WLAN
A tapered fed hexagon-shaped patch microstrip antenna is analyzed with double-port MIMO
technology. The presented antenna is designed for UWB applications integrated with two …
technology. The presented antenna is designed for UWB applications integrated with two …
CPW fed shovel shaped super wideband MIMO antenna for 5G applications
A shovel shaped antenna operating from 4.1 to> 60 GHz to cover C/X/Ku/K/Ka/Q/U bands
along with 5G bands n257/n258/n259/n260/n261/n79/60 GHz is presented in this paper. It …
along with 5G bands n257/n258/n259/n260/n261/n79/60 GHz is presented in this paper. It …
Inverted-A based UWB MIMO antenna with triple-band notch and improved isolation for WBAN applications
I Suriya, R Anbazhagan - AEU-International Journal of Electronics and …, 2019 - Elsevier
A compact ultra wideband multiple–input multiple-output (UWB-MIMO) antenna with inverted-
A monopole and band notch characteristics of LTE-A 43 band (3.8 GHz), C-band (3.9–4.2 …
A monopole and band notch characteristics of LTE-A 43 band (3.8 GHz), C-band (3.9–4.2 …