The Vienna LTE simulators - Enabling reproducibility in wireless communications research

The Vienna LTE simulators - Enabling reproducibility in wireless communications research

<p>Abstract</p> <p>In this article, we introduce MATLAB-based link and system level simulation environments for UMTS Long-Term Evolution (LTE). The source codes of both simulators are available under an academic non-commercial use license, allowing researchers full access to standa...

Full description

Bibliographic Details
Main Authors: Mehlf&#252;hrer Christian, Colom Ikuno Josep, &#352;imko Michal, Schwarz Stefan, Wrulich Martin, Rupp Markus
Format: Article
Language:English
Published: SpringerOpen 2011-01-01
Series:EURASIP Journal on Advances in Signal Processing
Subjects:
LTE
MIMO
link level
system level
simulation
reproducible research
Online Access:http://asp.eurasipjournals.com/content/2011/1/29
id doaj-85d6f6de5f5d4da0b8b0e4d5108ef1f2
record_format Article
spelling doaj-85d6f6de5f5d4da0b8b0e4d5108ef1f22020-11-25T00:16:18ZengSpringerOpenEURASIP Journal on Advances in Signal Processing1687-61721687-61802011-01-012011129The Vienna LTE simulators - Enabling reproducibility in wireless communications researchMehlf&#252;hrer ChristianColom Ikuno Josep&#352;imko MichalSchwarz StefanWrulich MartinRupp Markus<p>Abstract</p> <p>In this article, we introduce MATLAB-based link and system level simulation environments for UMTS Long-Term Evolution (LTE). The source codes of both simulators are available under an academic non-commercial use license, allowing researchers full access to standard-compliant simulation environments. Owing to the open source availability, the simulators enable reproducible research in wireless communications and comparison of novel algorithms. In this study, we explain how link and system level simulations are connected and show how the link level simulator serves as a reference to design the system level simulator. We compare the accuracy of the PHY modeling at system level by means of simulations performed both with bit-accurate link level simulations and PHY-model-based system level simulations. We highlight some of the currently most interesting research questions for LTE, and explain by some research examples how our simulators can be applied.</p> http://asp.eurasipjournals.com/content/2011/1/29LTEMIMOlink levelsystem levelsimulationreproducible research
collection DOAJ
language English
format Article
sources DOAJ
author Mehlf&#252;hrer Christian
Colom Ikuno Josep
&#352;imko Michal
Schwarz Stefan
Wrulich Martin
Rupp Markus
spellingShingle Mehlf&#252;hrer Christian
Colom Ikuno Josep
&#352;imko Michal
Schwarz Stefan
Wrulich Martin
Rupp Markus
The Vienna LTE simulators - Enabling reproducibility in wireless communications research
EURASIP Journal on Advances in Signal Processing
LTE
MIMO
link level
system level
simulation
reproducible research
author_facet Mehlf&#252;hrer Christian
Colom Ikuno Josep
&#352;imko Michal
Schwarz Stefan
Wrulich Martin
Rupp Markus
author_sort Mehlf&#252;hrer Christian
title The Vienna LTE simulators - Enabling reproducibility in wireless communications research
title_short The Vienna LTE simulators - Enabling reproducibility in wireless communications research
title_full The Vienna LTE simulators - Enabling reproducibility in wireless communications research
title_fullStr The Vienna LTE simulators - Enabling reproducibility in wireless communications research
title_full_unstemmed The Vienna LTE simulators - Enabling reproducibility in wireless communications research
title_sort vienna lte simulators - enabling reproducibility in wireless communications research
publisher SpringerOpen
series EURASIP Journal on Advances in Signal Processing
issn 1687-6172
1687-6180
publishDate 2011-01-01
description <p>Abstract</p> <p>In this article, we introduce MATLAB-based link and system level simulation environments for UMTS Long-Term Evolution (LTE). The source codes of both simulators are available under an academic non-commercial use license, allowing researchers full access to standard-compliant simulation environments. Owing to the open source availability, the simulators enable reproducible research in wireless communications and comparison of novel algorithms. In this study, we explain how link and system level simulations are connected and show how the link level simulator serves as a reference to design the system level simulator. We compare the accuracy of the PHY modeling at system level by means of simulations performed both with bit-accurate link level simulations and PHY-model-based system level simulations. We highlight some of the currently most interesting research questions for LTE, and explain by some research examples how our simulators can be applied.</p>
topic LTE
MIMO
link level
system level
simulation
reproducible research
url http://asp.eurasipjournals.com/content/2011/1/29
work_keys_str_mv AT mehlf252hrerchristian theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT colomikunojosep theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT 352imkomichal theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT schwarzstefan theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT wrulichmartin theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT ruppmarkus theviennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT mehlf252hrerchristian viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT colomikunojosep viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT 352imkomichal viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT schwarzstefan viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT wrulichmartin viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
AT ruppmarkus viennaltesimulatorsenablingreproducibilityinwirelesscommunicationsresearch
_version_ 1725383392682311680

Similar Items