Title :
Centimeter-Wave Concept for 5G Ultra-Dense Small Cells
Author :
Mogensen, Preben ; Pajukoski, Kari ; Tiirola, Esa ; Vihriala, Jaakko ; Lahetkangas, Eeva ; Berardinelli, Gilberto ; Tavares, Fernando M. L. ; Mahmood, Nurul H. ; Lauridsen, Mads ; Catania, Davide ; Cattoni, Andrea F.
Author_Institution :
Nokia Solutions & Networks, Aalborg, Denmark
Abstract :
Ultra-dense small cells are foreseen to play an essential role in the 5th generation (5G) of mobile radio access technology, which will be operating over different bands with respect to established systems. The natural step for exploring new spectrum is to look into the centimeter-wave bands as well as exploring millimeter-wave bands. This paper presents our vision on the technology components for a 5G centimeter-wave concept for ultra-dense small cells. Fundamental features such as optimized short frame structure, multi-antenna technologies, interference rejection, rank adaptation and dynamic scheduling of uplink/downlink transmission are discussed, along with the design of a novel flexible waveform and energy-saving enablers.
Keywords :
5G mobile communication; cellular radio; microwave propagation; millimetre wave propagation; 5G centimeter-wave concept; 5G ultra-dense small cells; centimeter-wave bands; dynamic scheduling; energy-saving enablers; flexible waveform enablers; interference rejection; millimeter-wave bands; mobile radio access technology; multiantenna technologies; optimized short frame structure; rank adaptation; uplink-downlink transmission; Algorithm design and analysis; Baseband; Delays; Interference; MIMO; Receivers; Resource management;
Conference_Titel :
Vehicular Technology Conference (VTC Spring), 2014 IEEE 79th
Conference_Location :
Seoul
DOI :
10.1109/VTCSpring.2014.7023157
