Title :
Designing Energy-Efficient Wireless Access Networks: LTE and LTE-Advanced
Author :
Deruyck, M. ; Joseph, Wout ; Lannoo, Bart ; Colle, Didier ; Martens, Luc
Author_Institution :
Ghent Univ., Ghent, Belgium
Abstract :
As large energy consumers, base stations need energy-efficient wireless access networks. This article compares the design of Long-Term Evolution (LTE) networks to energy-efficient LTE-Advanced networks. LTE-Advanced introduces three new functionalities--carrier aggregation, heterogeneous networks, and extended multiple-input, multiple-output (MIMO) support. The authors develop a power consumption model for LTE and LTE-Advanced macrocell and femtocell base stations, along with an energy efficiency measure. They show that LTE-Advanced´s carrier aggregation and MIMO improve networks´ energy efficiency up to 400 and 450 percent, respectively.
Keywords :
Long Term Evolution; femtocellular radio; radio access networks; LTE-Advanced; Long Term Evolution; MIMO support; carrier aggregation; energy-efficient wireless access networks; extended multiple-input multiple-output support; femtocell base stations; heterogeneous networks; macrocell base stations; network design; power consumption model; Bandwidth; Base stations; Energy efficiency; Femtocells; Long Term Evolution; MIMO; Macrocell networks; Power demand; Wireless access networks; LTE; LTE-Advanced; MIMO; carrier aggregation; energy efficiency; femtocell; heterogeneous networks; macrocell;
Journal_Title :
Internet Computing, IEEE
