Title :
A case study on estimating future radio network energy consumption and CO2 emissions
Author :
Frenger, Pal ; Jading, Ylva ; Turk, Joe
Author_Institution :
Ericsson Res., Ericsson AB, Linkoping, Sweden
Abstract :
In this paper we examine the potential impact on total network energy consumption and CO2 emissions when LTE is introduced into an existing cellular network. We note that by replacing existing 2G or 3G hardware with modern equipment the energy consumption per node can be reduced by approximately 50% already today. Furthermore, based on power models from the EARTH project, we predict that this potential gain will continue to increase year by year. In the paper we show that it is possible to reduce the total network energy consumption by approximately 60% by 2020 compared to today, despite deploying LTE, if we modernize the existing legacy hardware at the same pace as LTE is rolled out. Vodafone has a CO2 reduction target of reducing emissions by 50% in the mature market by 2020 compared to the reference year 2006/07, and this target appears to be realistic to reach.
Keywords :
Long Term Evolution; air pollution control; energy consumption; 2G hardware; 3G hardware; EARTH project; LTE; Vodafone; carbon dioxide emissions; cellular network; emission reduction; power models; radio network energy consumption; Base stations; Earth; Energy consumption; GSM; Hardware; Load modeling; Long Term Evolution; EARTH power models; Radio network energy consumption; energy efficiency; green cellular networks;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications (PIMRC Workshops), 2013 IEEE 24th International Symposium on
Conference_Location :
London
DOI :
10.1109/PIMRCW.2013.6707825
