Dr. David Eckhoff

I am a Principal Scientist and the Director of the MoVES Lab at TUMCREATE, Singapore. My research focuses on future transportation technologies, simulation, the smart city, and privacy.

David Eckhoff and Christoph Sommer, "A Multi-Channel IEEE 1609.4 and 802.11p EDCA Model for the Veins Framework," Proceedings of 5th ACM/ICST International Conference on Simulation Tools and Techniques for Communications, Networks and Systems (SIMUTools 2012), 5th ACM/ICST International Workshop on OMNeT++ (OMNeT++ 2012), Poster Session, Desenzano del Garda, Italy, March 2012.

Abstract

Increasing the realism and thereby the explanatory power of Inter-Vehicle Communication (IVC) simulation is an ongoing research topic in the Car-2-X community. We contribute to this trend by extending the well-established Veins Framework for the OMNeT++ simulator by a multi-channel simulation model for IEEE 1609.4/802.11p enabling simulative studies to fully capture the distinctive properties of the envisioned radio technology. With this effort we help overcome the problem of using general or adjusted MAC/PHY models which could be shown to produce deviating results and thus decrease the validity of IVC simulations.

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David Eckhoff
Christoph Sommer

BibTeX reference

@inproceedings{eckhoff2012multichannel,
    author = {Eckhoff, David and Sommer, Christoph},
    booktitle = {5th ACM/ICST International Conference on Simulation Tools and Techniques for Communications, Networks and Systems (SIMUTools 2012), 5th ACM/ICST International Workshop on OMNeT++ (OMNeT++ 2012), Poster Session},
    title = {{A Multi-Channel IEEE 1609.4 and 802.11p EDCA Model for the Veins Framework}},
    year = {2012},
    address = {Desenzano del Garda, Italy},
    month = {March},
    publisher = {ACM},
   }
   
   

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