As 5G and 6G networks expand, a key technology is millimeter-wave (mmWave), which uses very high-frequency radio waves to transmit huge amounts of data. To make the most of mmWave, networks use large ...

Combined with millimeter-wave (mmWave) communication, already mature in 5G, mmWave FD communication is envisioned as a key technology for achieving the increasing spectral efficiency requirements of ...

Due to the high speed needs of 5G and 6G communication, interconnect operation needs to extend into the millimeter and sub-millimeter wave frequency range, which poses big challenges for designs with ...

Reconfigurable Intelligent Surfaces (RIS) are being considered as one of the key components for future 5G and 6G millimeter-wave networks. RIS can offer a bespoke control to manipulate an incident ...

Revolutionizing business, driving ambient intelligence, addressing sustainability concerns—What’s next for 6G?

Millimeter wave has become massively cheaper, smaller, and easier to deploy for a variety of potential security and safety ...

The University of Oulu's 6G research program was the first in the world to publish a 6G White Paper in 2019. It was jointly ...

Sixth-generation, or 6G, cellular networks are the next step in wireless communication, and electromagnetic terahertz waves are seen as crucial to its development. However, terahertz waves, with their ...

Sixth-generation, or 6G, cellular networks are the next step in wireless communication, and electromagnetic terahertz waves are seen as crucial to ...

Sixth-generation, or 6G, cellular networks are the next step in wireless communication, and electromagnetic terahertz waves ...