期刊
SENSORS
卷 23, 期 13, 页码 -出版社
MDPI
DOI: 10.3390/s23136062
关键词
6G; massive MIMO; intelligent omni-surface (IOS); intelligent reflecting surface (IRS); cell free; artificial intelligence; vehicular communications; THz communications; non-terrestrial communications; remote sensing; inter-planetary communications
Massive MIMO, combined with leading-edge technologies, methodologies, and architectures, is set to be a cornerstone technology in the next-generation wireless systems. Recent advancements, such as intelligent reflecting surfaces, artificial intelligence, and Terahertz communications, are expected to enhance the capabilities and performance of future massive MIMO systems. Diverse applications, including wireless localization, vehicular communications, and inter-planetary communications, will continue to thrive.
At the dawn of the next-generation wireless systems and networks, massive multiple-input multiple-output (MIMO) in combination with leading-edge technologies, methodologies, and architectures are poised to be a cornerstone technology. Capitalizing on its successful integration and scalability within 5G and beyond, massive MIMO has proven its merits and adaptability. Notably, a series of evolutionary advancements and revolutionary trends have begun to materialize in recent years, envisioned to redefine the landscape of future 6G wireless systems and networks. In particular, the capabilities and performance of future massive MIMO systems will be amplified through the incorporation of cutting-edge technologies, structures, and strategies. These include intelligent omni-surfaces (IOSs)/intelligent reflecting surfaces (IRSs), artificial intelligence (AI), Terahertz (THz) communications, and cell-free architectures. In addition, an array of diverse applications built on the foundation of massive MIMO will continue to proliferate and thrive. These encompass wireless localization and sensing, vehicular communications, non-terrestrial communications, remote sensing, and inter-planetary communications, among others.
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