eBiltegia

    • What is eBiltegia? 
    •   About eBiltegia
    •   Publish your research in open access
    • Open Access at MU 
    •   What is Open Science?
    •   Mondragon Unibertsitatea's Institutional Policy on Open Access to scientific documents and teaching materials
    •   The Library compiles and disseminates your publications

Con la colaboración de:

Euskara | Español | English
  • Contact Us
  • Open Science
  • About eBiltegia
  • Login
View Item 
  •   eBiltegia MONDRAGON UNIBERTSITATEA
  • Scientific Output
  • Conference papers
  • Conference papers - Engineering
  • View Item
  •   eBiltegia MONDRAGON UNIBERTSITATEA
  • Scientific Output
  • Conference papers
  • Conference papers - Engineering
  • View Item
JavaScript is disabled for your browser. Some features of this site may not work without it.
View/Open
Characterization of Time-Variant Wireless Channels in Railway Communication Scenarios (4.684Mb)
Full record
Impact

Web of Science   

Google Scholar
Share
EmailLinkedinFacebookTwitter
Save the reference
Mendely

Zotero

untranslated

Mets

Mods

Rdf

Marc

Exportar a BibTeX
Title
Characterization of Time-Variant Wireless Channels in Railway Communication Scenarios
Author
Zelenbaba, StefanORCID
Mozo, ErislandyORCID
Wirth, Fabian
Hladik, Reinhard
Alonso Gómez, ArrateORCID
Bernadó, LauraORCID
Schiefer, Martin
Zemen, Thomas
Research Group
Teoría de la Señal y Comunicaciones
Other institutions
https://ror.org/04knbh022
Version
Published version
Document type
Conference Object
Embargo end date
2139-01-01
Language
English
Rights
© 2019 IEEE
Access
Open access
URI
https://hdl.handle.net/20.500.11984/14516
Publisher’s version
https://doi.org/10.1109/5GWF.2019.8911706
Published at
2nd IEEE 5G World Forum  2019 2nd (5GWF), Dresden, Alemania
Publisher
IEEE
Keywords
Directive antennas
Delays
Doppler effect
Frequency measurement ... [+]
Directive antennas
Delays
Doppler effect
Frequency measurement
Wireless communication
Safety
Bandwidth
railway
5G
wireless
URLLC
train-to-infrastructure [-]
Subject (UNESCO Thesaurus)
Communication technology
Telecommunication
Abstract
We present results from a train-to-infrastructure (T2I) and train-to-train (T2T) measurement campaign where we perform single-input-single-output channel sounding with a 150 MHz bandwidth, allowing us ... [+]
We present results from a train-to-infrastructure (T2I) and train-to-train (T2T) measurement campaign where we perform single-input-single-output channel sounding with a 150 MHz bandwidth, allowing us to resolve multi-path components with high precision. We analyze the measurements done for both T2I and T2T communication links, with trains going at speeds of maximum 20 km/h~~ 5.56 m/s. Using low velocities allows us to run two trains behind each other on the same rail track with very short distances (0 < d < 200 m). The analyzed data combined with GPS and video recordings serves for describing the geometry of the environment and developing a physical geometry-based stochastic channel model that enables virtual channel emulation for scenarios with trains moving at high velocities (0 < v < 300 km/h~~ 83.33 m/s), but short distances. Characterizing the channel through empirically obtained data in such scenarios is still impossible in practice due to safety issues. Nevertheless, it presents a key step towards ultra-reliable low-latency link research for 5G use cases in the high-speed railway domain. We show that neighboring traffic and surrounding infrastructure has a big impact on the delay spread and that at extremely close distances, path loss variation depends on used antenna polarization. [-]
Program
H2020
Number
737422
Award URI
https://doi.org/10.3030/737422
Project
Electronic Component Systems for European Leadership (ECSEL)
Collections
  • Conference papers - Engineering [561]

Browse

All of eBiltegiaCommunities & CollectionsBy Issue DateAuthorsTitlesSubjectsResearch groupsPublished atThis CollectionBy Issue DateAuthorsTitlesSubjectsResearch groupsPublished at

My Account

LoginRegister

Statistics

View Usage Statistics

Harvested by:

OpenAIREBASERecolecta

Validated by:

OpenAIRERebiun
MONDRAGON UNIBERTSITATEA | Library
Contact Us | Send Feedback
DSpace
 

 

Harvested by:

OpenAIREBASERecolecta

Validated by:

OpenAIRERebiun
MONDRAGON UNIBERTSITATEA | Library
Contact Us | Send Feedback
DSpace