[HTML][HTML] Superconductive and flexible antenna based on a tri-nanocomposite of graphene nanoplatelets, silver, and copper for wearable electronic devices
Printed electronics, fueled by graphene's conductivity and flexibility, are revolutionizing
wearable technology, surpassing copper's limitations in cost, signal quality, size, and …
wearable technology, surpassing copper's limitations in cost, signal quality, size, and …
[HTML][HTML] A comprehensive review of recent methods for compactness and performance enhancement in 5G and 6G wearable antennas
Wearable antennas are important in many areas of our lives, including the Internet of Things
(IoT), health care, sports, the automobile industry, security, and entertainment. Wearable …
(IoT), health care, sports, the automobile industry, security, and entertainment. Wearable …
[HTML][HTML] A low-profile dual-band millimeter wave patch antenna for high-speed wearable and biomedical applications
This paper presents a low-profile, dual-band patch antenna designed for the mmWave
frequency range. The antenna, fed by a microstrip line, is fabricated on a thin, flexible …
frequency range. The antenna, fed by a microstrip line, is fabricated on a thin, flexible …
High gain quasi-omnidirectional dipole array fed by radial power divider for millimeter-wave IoT sensing
This article presents the design and implementation of a dipole array antenna based on a
radial waveguide power divider for millimeter-wave IoT sensing applications. The dipole …
radial waveguide power divider for millimeter-wave IoT sensing applications. The dipole …
Design and performance analysis of L‐slotted MIMO antenna with improved isolation using defected ground structure for S‐band satellite application
The increasing prevalence of MIMO technology in wireless communication networks is
attributed to its ability to augment system capacity and dependability. Consequently, there is …
attributed to its ability to augment system capacity and dependability. Consequently, there is …
Design and Measurement of a Compact Millimeter Wave Highly Flexible MIMO Antenna Loaded with Metamaterial Reflective Surface for Wearable Applications
This article presents a flexible four-element MIMO antenna designed on a thin polyimide
substrate to operate at 30.50 GHz for wearable applications. The antenna element structure …
substrate to operate at 30.50 GHz for wearable applications. The antenna element structure …
Flexible four-port MIMO antenna for 5G NR-FR2 tri-band mmWave application with SAR analysis
This paper introduces a compact, triband four-port Multiple Input Multiple Output (MIMO)
antenna optimized for mmWave 5G and navigation services. The antenna is built on a …
antenna optimized for mmWave 5G and navigation services. The antenna is built on a …
A flexible CPW-fed tri-band four-port MIMO antenna for 5G/WIFI 6E wearable applications
X Peng, C Du - AEU-International Journal of Electronics and …, 2024 - Elsevier
This paper introduces a novel flexible tri-band four-port Multiple Input Multiple Output
(MIMO) antenna with coplanar waveguide (CPW)-fed for modern 5G/WIFI 6E wearable …
(MIMO) antenna with coplanar waveguide (CPW)-fed for modern 5G/WIFI 6E wearable …
Super Wideband Phased Array with Bow-Tie Dipole Resonators for 5G/6G Cellular Communications
To fulfill the sophisticated requirements of forthcoming cellular networks, phased arrays must
possess broadband and super-wideband (SWB) capabilities, along with extensive scanning …
possess broadband and super-wideband (SWB) capabilities, along with extensive scanning …
A Compact Dual-Band Millimeter Wave Antenna for Smartwatch and IoT Applications with Link Budget Estimation
PS Bhadrvathi Ghouse, PR Mane… - Sensors, 2023 - mdpi.com
Advancement in smartwatch sensors and connectivity features demands low latency
communication with a wide bandwidth. ISM bands below 6 GHz are reaching a threshold …
communication with a wide bandwidth. ISM bands below 6 GHz are reaching a threshold …