Fujitsu’s utilization of coding technology between antenna subarrays enables a low power 5G technology for the practical implementation of millimeter-wave high-speed communications Fujitsu ...

C-COM Satellite Systems Inc., (TSXV: CMI) the leading global provider of mobile auto-deploying satellite antenna systems, announced today that it has successfully tested its 16×16 subarray phased ...

While 5G standards are still very much evolving, the goals for higher data rates, lower-latency network accesses, and more energy-efficient implementations are clear. And with higher data rates comes ...

All 5G systems networks are going to use MIMO (massive input, massive output) antenna arrays and beamforming. Many 5G systems will operate in millimeter wave (mmWave) spectrum. Designing MIMO arrays ...

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 ...

How did a Georgia Tech team overcome certain limitations to develop an antenna that harvest energy in the 28-GHz band? The key role played by the Rotman lens in making it all happen. Test results ...

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 ...