5G technologies and those that follow will rely on large antenna arrays, which are typically bulky and come only in very limited sizes. This would make the antennas difficult to transport and ...

Penn State engineers have developed innovative design methods for a new class of antennas composed of an array of fractal-shaped tiles that offer anywhere from a 4:1 to 8:1 improvement in bandwidth ...

Georgia Tech researchers’ “additively manufactured tile-based approach can construct on-demand, massively scalable arrays of 5G+ (5G/Beyond 5G)‐enabled smart skins with the potential to enable ...

Researchers in the US have developed a novel, additively manufactured tile-based approach to constructing scalable arrays of 5G+ enabled ‘smart skins’. Image credit: Georgia Tech According to research ...

5G+ (5G/Beyond 5G) is the fastest-growing segment and the only significant opportunity for investment growth in the wireless network infrastructure market, according to the latest forecast. But ...

Penn State engineers have developed innovative design methods for a new class of antennas composed of an array of fractal-shaped tiles that offer anywhere from a 4:1 to 8:1 improvement in bandwidth ...