Publication: Reconfigurable Intelligent Surfaces for Future Wireless Networks: A Channel Modeling Perspective
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Institute of Electrical and Electronics Engineers (IEEE)
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While the researchers have set their sights on future wireless networks of 2030, communications through reconfigurable intelligent surfaces (RISs) appears as one of the potential enabling technologies for 6G wireless networking. This article aims to shed light on the potential use-cases of RISs in future wireless systems by means of a novel channel modeling methodology as well as a new software tool for RIS-empowered millimeter-wave communication systems. It is shown by the open-source, user-friendly, and widely applicable SimRIS Channel Simulator, whose 2.0 version is proposed and goes online by this article, that RISs will work under certain use-cases and communication environments. Potential future research directions are also discussed to bridge the gap between the theory and practice of RIS-empowered systems towards their standardization for 6G wireless networks.
to appear in IEEE Wireless Commmunications Magazine, code packages are available at https://corelab.ku.edu.tr/tools/SimRIS
to appear in IEEE Wireless Commmunications Magazine, code packages are available at https://corelab.ku.edu.tr/tools/SimRIS
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Signal Processing (eess.SP), FOS: Computer and information sciences, Artificial intelligence, Intelligent Reflecting Surfaces, Computer Science - Information Theory, Astronomy, Perspective (graphical), Metasurfaces for Antenna and Radar Applications, Aerospace Engineering, FOS: Mechanical engineering, Engineering, Agile Satellite Scheduling, Satellite Communication Networks and Systems, FOS: Electrical engineering, electronic engineering, information engineering, Information systems, MIMO communication, Reconfigurable Intelligent Surfaces, Electrical Engineering and Systems Science - Signal Processing, Electrical and Electronic Engineering, Wireless networks, Channel models, Wireless network, Hardware and architecture, Smart Radio Environments, G mobile communication, Sight, Physics, Information Theory (cs.IT), Open source software, Surface waves, Intelligent Reflecting Surfaces in Wireless Communications, Computer science, Electrical and electronic engineering, Wireless networks, G mobile communication, Channel models, Surface waves, Optical surface waves, Open source software, MIMO communication, Wireless Communications, Standardization, Optical surface waves, Operating system, Channel (broadcasting), Physical Sciences, Wireless, Telecommunications, Computer science, Hardware and architecture, Information systems, Electrical and electronic engineering, Telecommunications