Title :
LTE UE Power Consumption Model: For System Level Energy and Performance Optimization
Author :
Jensen, Anders R. ; Lauridsen, Mads ; Mogensen, Preben ; Sørensen, Troels B. ; Jensen, Per
Abstract :
In this work a novel LTE user equipment (UE) power consumption model is presented. It was developed for LTE system level optimization, because it is important to understand how network settings like scheduling of resources and transmit power control affect the UE´s battery life. The proposed model is based on a review of the major power consuming parts in an LTE UE radio modem. The model includes functions of UL and DL power and data rate. Measurements on a commercial LTE USB dongle were used to assign realistic power consumption values to each model parameter. Verification measurements on the dongle show that the model results in an average error of 2.6 %. The measurements show that UL transmit power and DL data rate determines the overall power consumption, while UL data rate and DL receive power have smaller impact.
Keywords :
Long Term Evolution; modems; optimisation; power consumption; scheduling; DL power; LTE UE power consumption model; LTE UE radio modem; LTE USB dongle; LTE system level optimization; LTE user equipment power consumption model; UL power; battery life; data rate; model parameter; performance optimization; power consuming parts; power control; realistic power consumption; scheduling; system level energy; verification measurements; Current measurement; Mathematical model; Polynomials; Power demand; Power measurement; Radio frequency; Universal Serial Bus;
Conference_Titel :
Vehicular Technology Conference (VTC Fall), 2012 IEEE
Conference_Location :
Quebec City, QC
Print_ISBN :
978-1-4673-1880-8
Electronic_ISBN :
1090-3038
DOI :
10.1109/VTCFall.2012.6399281
