Recent Technical Developments in Energy-Efficient 5G Mobile Cells

doi:10.3390/books978-3-03936-213-4

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Recent Technical Developments in Energy-Efficient 5G Mobile Cells

Edited by

June 2020

292 pages

ISBN978-3-03936-212-7 (Paperback)
ISBN978-3-03936-213-4 (PDF)

https://doi.org/10.3390/books978-3-03936-213-4

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This book is a reprint of the Special Issue Recent Technical Developments in Energy-Efficient 5G Mobile Cells that was published in

Computer Science & Mathematics

Engineering

Physical Sciences

Summary

This book addresses the true innovation in engineering design that may be promoted by blending together models and methodologies from different disciplines, and, in this book, the target was exactly to follow this approach to deliver a new disruptive architecture to deliver these next-generation mobile small cell technologies. According to this design philosophy, the work within this book resides in the intersection of engineering paradigms that includes “cooperation”, “network coding”, and “smart energy-aware frontends”. These technologies will not only be considered as individual building blocks, but re-engineered according to an inter-design approach resulting in the enabler for energy efficient femtocell-like services on the move. The book aims to narrow the gap between the current networking technologies and the foreseen requirements that are targeted at the future development of the 5G mobile and wireless communications networks in terms of the higher networking capacity, the ability to support more users, the lower cost per bit, the enhanced energy efficiency, and adaptability to new services and devices (for example, smart cities, and the Internet of things (IoT)).

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Keywords

microstrip; tuneable filter; microwave filter; 5G; MEMSs; varactor; 4G; 5G; CR; MIMO; reconfigurable antenna; switch; UWB; WiMAX; WLAN; wireless communications; cooperative NOMA; multi-points DF relaying nodes; half-duplex; full-duplex; Rayleigh fading channels; Nakagami-m fading channels; energy harvesting; non-orthogonal multiple access; multiple antenna; transmit antenna selection; outage probability; pattern reconfigurable; patch antenna; s-parameters; frequency reconfigurable; dual-band Doherty power amplifier; LTE-advanced; high-efficiency; phase offset lines; impedance inverter network; phase compensation network; High power amplifiers; high efficiency; Doherty power amplifier; 4G; 5G; GaN-HEMT; small cell; maximum transmit power; UE; open-loop power control; interference; ergodic capacity; non-linear energy harvesting; NOMA; outage probability; monopole antenna; S-parameters; frequency reconfigurable; 5G, 4/4.5G; LTE; ISM; WiFi; WiMAX; WLAN; 5G antenna; slot antenna; mobile terminal antenna; MIMO antenna; slot antenna; medical applications; miniaturized antenna; arc-shaped; dual-band; chiral; Tellegen; multilayer CPW structure; dispersion characteristics; full-GEMT; Muller’s method; complex propagation constant; acceleration procedure; MIMO antenna; ISM 2.4 GHz; isolation; envelope correlation coefficient (ECC); channel capacity loss (CCL); 5G technology; CPW-fed antenna; diversity antenna; future smartphones; MIMO systems; n/a