Bandwidth enhancement of circular microstrip antenna using characteristic mode analysis

“…Identify the impedance mismatch of the antenna [30] Achieving Ultrawideband (UWB) performance for antennas [31] Design of wideband wearable antenna using CMA with the ground as a part of the radiator [32] Optimization of a nonuniform metasurface [33] Design of bandwidth-enhanced and multiband multiple-input-multipleoutput (MIMO) antennas [34] Bandwidth enhancement of platformmounted high frequency (HF) antennas. [35] Three empirical techniques using CMA to achieve a wideband design [36] MIMO Ultra-wideband multi element antenna for massive MIMO indoor base stations [37] Systematic design of a multiport MIMO antenna with bilateral symmetry [38] Space Applications Design antenna for nanosatellite applications [39] Guideline for enabling the hosting platform as part of the radiating system [40] Metasurface Substrate-integrated gap waveguide (SIGW)-fed metasurface antenna array with nonuniform excitation [41] Wideband metasurface antennas [42] Dual-wideband dual-polarized antenna using metasurface for 5G millimeter wave communications [43] Resonant metasurface antennas with resonant apertures [44] Platform…”

“…Several studies related to these aspects are presented as follows. The first application of CMA to identify impedance mismatch for a circular patch antenna is proposed in [30], as illustrated in see Fig. 29.…”

A Review of Antenna Analysis Using Characteristic Modes

“…Identify the impedance mismatch of the antenna [30] Achieving Ultrawideband (UWB) performance for antennas [31] Design of wideband wearable antenna using CMA with the ground as a part of the radiator [32] Optimization of a nonuniform metasurface [33] Design of bandwidth-enhanced and multiband multiple-input-multipleoutput (MIMO) antennas [34] Bandwidth enhancement of platformmounted high frequency (HF) antennas. [35] Three empirical techniques using CMA to achieve a wideband design [36] MIMO Ultra-wideband multi element antenna for massive MIMO indoor base stations [37] Systematic design of a multiport MIMO antenna with bilateral symmetry [38] Space Applications Design antenna for nanosatellite applications [39] Guideline for enabling the hosting platform as part of the radiating system [40] Metasurface Substrate-integrated gap waveguide (SIGW)-fed metasurface antenna array with nonuniform excitation [41] Wideband metasurface antennas [42] Dual-wideband dual-polarized antenna using metasurface for 5G millimeter wave communications [43] Resonant metasurface antennas with resonant apertures [44] Platform…”

“…Several studies related to these aspects are presented as follows. The first application of CMA to identify impedance mismatch for a circular patch antenna is proposed in [30], as illustrated in see Fig. 29.…”

A Review of Antenna Analysis Using Characteristic Modes

Design of Metamaterial Loaded Wideband Sub-6 GHz 2 × 1 MIMO Antenna with Enhanced Isolation Using Characteristic Mode Analysis

Multiband Slotted Circular Microstrip Patch Antenna with Enhanced Bandwidth for Satellite Applications