A Dual Circularly Reconfigurable Polarization Patch Antenna for Fifth Generation Mobile Communication Systems

Abstract: In this paper, a reconfigurable patch antenna with Circular Polarization (CP) diversity with theoretical discussion and verification is proposed for fifth generation (5G) of mobile communication systems. The proposed antenna contains two PIN diodes, which are correctly placed on the ground plane to obtain polarization diversity. By switching between two ON/OFF modes in the PIN diodes, the proposed antenna can support either the RHCP mode or the LHCP mode. An antenna with the wellmatched impedance bandwidths (S… Show more

“…Furthermore, 5G devices should have a small size. The vacant bandwidth of the millimeter wave (mmWave) spectrum seems to be capable to provide adequate bandwidth for 5G applications [5][6][7]. In addition, due to the small wave number of this spectrum, mmWave devices have a small size [4].…”

“…The high number of design parameters of a 5G mmWave antenna makes it very challenging to design a 5G antenna. Machine learning approaches can help us to overcome this challenge [7,11,12]. However, machine learning approaches have high computational complexity.…”

“…However, machine learning approaches have high computational complexity. Using surrogate-based optimization (SBO) can reduce the computational complexity of these approaches [7]. SBO uses low-fidelity electromagnetic (EM) simulations instead of high-fidelity ones.…”

“…Various designs for 5G mmWave antennas are proposed in [1,4,7]. In [1], an mmWave microstrip antenna for 5G communications in 26 GHz resonance frequency is proposed.…”

“…Furthermore, the dimension of this antenna is large too. A dual-band dual-polarized antenna for 5G mmWave systems is proposed in [7]. This antenna has a maximum gain of 9.4 dB.…”

A Novel Fractal Arrow-Shaped Mmwave Flexible Antenna for Iot and 5g Communication Systems

“…Furthermore, 5G devices should have a small size. The vacant bandwidth of the millimeter wave (mmWave) spectrum seems to be capable to provide adequate bandwidth for 5G applications [5][6][7]. In addition, due to the small wave number of this spectrum, mmWave devices have a small size [4].…”

“…The high number of design parameters of a 5G mmWave antenna makes it very challenging to design a 5G antenna. Machine learning approaches can help us to overcome this challenge [7,11,12]. However, machine learning approaches have high computational complexity.…”

“…However, machine learning approaches have high computational complexity. Using surrogate-based optimization (SBO) can reduce the computational complexity of these approaches [7]. SBO uses low-fidelity electromagnetic (EM) simulations instead of high-fidelity ones.…”

“…Various designs for 5G mmWave antennas are proposed in [1,4,7]. In [1], an mmWave microstrip antenna for 5G communications in 26 GHz resonance frequency is proposed.…”

“…Furthermore, the dimension of this antenna is large too. A dual-band dual-polarized antenna for 5G mmWave systems is proposed in [7]. This antenna has a maximum gain of 9.4 dB.…”

A Novel Fractal Arrow-Shaped Mmwave Flexible Antenna for Iot and 5g Communication Systems

An optimized small compact rectangular antenna with meta-material based on fast multi-objective optimization for 5G mobile communication

A Compact Filter and Dipole Antenna With Its Phased Array Filtenna and ADMM-BO Learning for Use-Case Analog/Hybrid Beamforming in 5G mmWave Communications