Publications

Publications in 2019 of type Article, Conference Proceedings and Edited Conference Proceedings

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    2019

    • Till Steinbach. Ethernet-basierte Netzwerkarchitekturen für künftige Echtzeitsysteme im Automobil. In: ATZ - Automobiltechnische Zeitschrift. Pages 86—91, Jul. 2019,
      [Online], [DOI], [Bibtex]
      @Article{         s-enkea-19,
        author        = {Steinbach, Till},
        title         = {Ethernet-basierte Netzwerkarchitekturen f{\"u}r
                        k{\"u}nftige Echtzeitsysteme im Automobil},
        journal       = {ATZ - Automobiltechnische Zeitschrift},
        month         = jul,
        year          = 2019,
        pages         = {86--91},
        volume        = {121},
        number        = {7},
        url           = {https://doi.org/10.1007/s35148-019-0071-6},
        issn          = {2192-8800},
        doi           = {10.1007/s35148-019-0071-6},
        day           = {01},
        langid        = {ngerman}
      }
    • Till Steinbach. Ethernet-based Network Architectures for Future Real-time Systems in the Car. In: ATZ worldwide. Pages 72—77, Jul. 2019,
      [Online], [DOI], [Bibtex]
      @Article{         s-enafr-19,
        author        = {Steinbach, Till},
        title         = {Ethernet-based Network Architectures for Future Real-time
                        Systems in the Car},
        journal       = {ATZ worldwide},
        month         = jul,
        year          = 2019,
        pages         = {72--77},
        volume        = {121},
        number        = {7},
        url           = {https://doi.org/10.1007/s38311-019-0071-x},
        issn          = {2192-9076},
        doi           = {10.1007/s38311-019-0071-x},
        day           = {01},
        langid        = {english}
      }
    • Timo Häckel, Philipp Meyer, Franz Korf, and Thomas C. Schmidt. Software-Defined Networks Supporting Time-Sensitive In-Vehicular Communication. In: Proc. of the IEEE 89th Vehicular Technology Conference: VTC2019-Spring. Piscataway, NJ, USA, Apr. 2019, IEEE Press,
      [Abstract], [Online], [Fulltext Document (pdf)], [Bibtex]

      Future in-vehicular networks will be based on Ethernet. The IEEE Time-Sensitive Networking (TSN) is a promising candidate to satisfy real-time requirements in future car communication. Software-Defined Networking (SDN) extends the Ethernet control plane with a programming option that can add much value to the resilience, security, and adaptivity of the automotive environment. In this work, we derive a first concept for combining Software-Defined Networking with Time-Sensitive Networking along with an initial evaluation. Our measurements are performed via a simulation that investigates whether an SDN architecture is suitable for time-critical applications in the car. Our findings indicate that the advanced control overhead of SDN can be added without a delay penalty for the TSN traffic when protocols are mapped properly.

      @InProceedings{   hmks-snsti-19,
        author        = {Timo H{\"a}ckel and Philipp Meyer and Franz Korf and
                        Thomas C. Schmidt},
        title         = {{Software-Defined Networks Supporting Time-Sensitive
                        In-Vehicular Communication}},
        booktitle     = {Proc. of the IEEE 89th Vehicular Technology Conference:
                        VTC2019-Spring},
        location      = {Kuala Lumpur, Malaysia},
        month         = apr,
        year          = 2019,
        publisher     = {IEEE Press},
        address       = {Piscataway, NJ, USA},
        url           = {https://arxiv.org/abs/1903.08039},
        eprint        = {arXiv:1903.08039},
        abstract      = {Future in-vehicular networks will be based on Ethernet.
                        The IEEE Time-Sensitive Networking (TSN) is a promising
                        candidate to satisfy real-time requirements in future car
                        communication. Software-Defined Networking (SDN) extends
                        the Ethernet control plane with a programming option that
                        can add much value to the resilience, security, and
                        adaptivity of the automotive environment. In this work, we
                        derive a first concept for combining Software-Defined
                        Networking with Time-Sensitive Networking along with an
                        initial evaluation. Our measurements are performed via a
                        simulation that investigates whether an SDN architecture is
                        suitable for time-critical applications in the car. Our
                        findings indicate that the advanced control overhead of SDN
                        can be added without a delay penalty for the TSN traffic
                        when protocols are mapped properly.},
        langid        = {english}
      }