As the current standardization for the 5G networks nears completion, work towards understanding the potential technologies for the 6G wireless networks is already underway. One of these potential technologies for the 6G networks is reconfigurable intelligent surfaces. They offer unprecedented degrees of freedom towards engineering the wireless channel, i.e., the ability to modify the characteristics of the channel whenever and however required. Nevertheless, such properties demand that the response of the associated metasurface is well understood under all possible operational conditions. While an understanding of the radiation pattern characteristics can be obtained through either analytical models or full-wave simulations, they suffer fro...
Metasurfaces are thin two-dimensional metamaterial layers that allow or inhibit the propagation of e...
The reconfigurability of radio environments with programmable metasurfaces is considered a key featu...
Software-defined metasurfaces are electromagnetically ultra-thin, artificial components that can pro...
As the current standardization for the 5G networks nears completion, work towards understanding the ...
A deep learning neural network model in conjunction with a method to incorporate auxiliary surface w...
The term ``metasurface'' (MTS) denotes an artificial surface constituted by a distribution of electr...
A previously developed Huygens-based, “antenna-array-like” macroscopic model for scattering from me...
Supporting dataElectromagnetic environments are becoming increasingly complex and congested, creatin...
In this study, a new design method for designing surface wave antennas was proposed. The proposed an...
Metasurfaces are composed of a two-dimensional array of carefully engineered subwavelength structure...
We are interested in exploring the limit in using deep learning (DL) to study the electromagnetic (E...
This Roadmap takes the reader on a journey through the research in electromagnetic wave propagation ...
The next generation of wireless networks including Five and Six Generations (5G and 6G) can provide ...
Abstract Manipulating the electromagnetic (EM) scattering behavior from an arbitrary surface dynamic...
This work presents a surface wave antenna metallic cell pattern prediction method which can be gener...
Metasurfaces are thin two-dimensional metamaterial layers that allow or inhibit the propagation of e...
The reconfigurability of radio environments with programmable metasurfaces is considered a key featu...
Software-defined metasurfaces are electromagnetically ultra-thin, artificial components that can pro...
As the current standardization for the 5G networks nears completion, work towards understanding the ...
A deep learning neural network model in conjunction with a method to incorporate auxiliary surface w...
The term ``metasurface'' (MTS) denotes an artificial surface constituted by a distribution of electr...
A previously developed Huygens-based, “antenna-array-like” macroscopic model for scattering from me...
Supporting dataElectromagnetic environments are becoming increasingly complex and congested, creatin...
In this study, a new design method for designing surface wave antennas was proposed. The proposed an...
Metasurfaces are composed of a two-dimensional array of carefully engineered subwavelength structure...
We are interested in exploring the limit in using deep learning (DL) to study the electromagnetic (E...
This Roadmap takes the reader on a journey through the research in electromagnetic wave propagation ...
The next generation of wireless networks including Five and Six Generations (5G and 6G) can provide ...
Abstract Manipulating the electromagnetic (EM) scattering behavior from an arbitrary surface dynamic...
This work presents a surface wave antenna metallic cell pattern prediction method which can be gener...
Metasurfaces are thin two-dimensional metamaterial layers that allow or inhibit the propagation of e...
The reconfigurability of radio environments with programmable metasurfaces is considered a key featu...
Software-defined metasurfaces are electromagnetically ultra-thin, artificial components that can pro...