Mobile devices, in particular smartphones, are battery powered. As their small size limits their energy capacity,
an intelligent and energy-saving use of resources is crucial
for the mobile user experience. Especially energy saving while
sending and receiving data becomes important due to the always-on nature of smartphones. One solution for a sophisticated resource usage in wireless access networks is to tailor resource management to applications. The advantage of such mechanisms is to be able to address both the perceived quality of the users and the energy consumption of mobile devices at the same time. We propose several traffic scheduling algorithms for HTTP file download in wireless networks based on this application-aware paradigm. The core idea is to use download scheduling that avoids parallel transmissions and, in contrast, favors sequential transmission. We have implemented and measured the algorithms
in a wireless mesh network. The evaluation results quantify the gain of an application-aware resource management with respect to quality of experience and energy consumption.
%0 Conference Paper
%1 info3-inproceedings-2013-479
%A Blenk, Andreas
%A Wamser, Florian
%A Zinner, Thomas
%A Kellerer, Wolfgang
%A Tran-Gia, Phuoc
%B 24th Tyrrhenian International Workshop on Digital Communications (TIWDC)
%C Genoa, Italy
%D 2013
%K myown
%T Dynamic HTTP Download Scheduling with Respect to Energy Consumption
%X Mobile devices, in particular smartphones, are battery powered. As their small size limits their energy capacity,
an intelligent and energy-saving use of resources is crucial
for the mobile user experience. Especially energy saving while
sending and receiving data becomes important due to the always-on nature of smartphones. One solution for a sophisticated resource usage in wireless access networks is to tailor resource management to applications. The advantage of such mechanisms is to be able to address both the perceived quality of the users and the energy consumption of mobile devices at the same time. We propose several traffic scheduling algorithms for HTTP file download in wireless networks based on this application-aware paradigm. The core idea is to use download scheduling that avoids parallel transmissions and, in contrast, favors sequential transmission. We have implemented and measured the algorithms
in a wireless mesh network. The evaluation results quantify the gain of an application-aware resource management with respect to quality of experience and energy consumption.
@inproceedings{info3-inproceedings-2013-479,
abstract = {Mobile devices, in particular smartphones, are battery powered. As their small size limits their energy capacity,
an intelligent and energy-saving use of resources is crucial
for the mobile user experience. Especially energy saving while
sending and receiving data becomes important due to the always-on nature of smartphones. One solution for a sophisticated resource usage in wireless access networks is to tailor resource management to applications. The advantage of such mechanisms is to be able to address both the perceived quality of the users and the energy consumption of mobile devices at the same time. We propose several traffic scheduling algorithms for HTTP file download in wireless networks based on this application-aware paradigm. The core idea is to use download scheduling that avoids parallel transmissions and, in contrast, favors sequential transmission. We have implemented and measured the algorithms
in a wireless mesh network. The evaluation results quantify the gain of an application-aware resource management with respect to quality of experience and energy consumption.},
added-at = {2016-03-10T17:38:17.000+0100},
address = {Genoa, Italy},
author = {Blenk, Andreas and Wamser, Florian and Zinner, Thomas and Kellerer, Wolfgang and Tran-Gia, Phuoc},
biburl = {https://www.bibsonomy.org/bibtex/2b6c6a34c5caaa4338ff4e2d21488b312/uniwue_info3},
booktitle = {24th Tyrrhenian International Workshop on Digital Communications (TIWDC)},
interhash = {115089df81520919cbb2a1d3c674bcae},
intrahash = {b6c6a34c5caaa4338ff4e2d21488b312},
keywords = {myown},
month = {9},
timestamp = {2022-03-14T00:11:01.000+0100},
title = {Dynamic HTTP Download Scheduling with Respect to Energy Consumption},
year = 2013
}