Title :
Energy-efficient future wireless networks: A marriage between massive MIMO and small cells
Author :
Bjornson, Emil ; Sanguinetti, Luca ; Kountouris, Marios
Author_Institution :
Dept. of Electr. Eng. (ISY), Linkoping Univ., Linkoping, Sweden
fDate :
June 28 2015-July 1 2015
Abstract :
How would a cellular network designed for high energy efficiency look like? To answer this fundamental question, we model cellular networks using stochastic geometry and optimize the energy efficiency with respect to the density of base stations, the number of antennas and users per cell, the transmit power levels, and the pilot reuse. The highest efficiency is neither achieved by a pure small-cell approach, nor by a pure massive MIMO solution. Interestingly, it is the combination of these approaches that provides the highest energy efficiency; small cells contributes by reducing the propagation losses while massive MIMO enables multiplexing of users with controlled interference.
Keywords :
MIMO communication; cellular radio; energy conservation; geometry; multiplexing; radiofrequency interference; radiowave propagation; stochastic processes; telecommunication power management; controlled interference; energy efficient future wireless network; massive MIMO cellular network; propagation loss reduction; small cellular network design; stochastic geometry; user multiplexing; Antenna arrays; Interference; MIMO; Optimization; Signal to noise ratio; Wireless communication;
Conference_Titel :
Signal Processing Advances in Wireless Communications (SPAWC), 2015 IEEE 16th International Workshop on
Conference_Location :
Stockholm
DOI :
10.1109/SPAWC.2015.7227030
