Prof. Dr. Samuel Kounev

Inhaber, Lehrstuhl für Informatik II „Software Engineering“ | Julius-Maximilians-Universität Würzburg

Publikationen

  • Herrnleben, Stefan; Grohmann, Johannes; Lesch, Veronika; Prantl, Thomas; Metzger, Florian; Hosfeld, Tobias; Kounev, Samuel (2022)

    Investigating the Predictability of QoS Metrics in Cellular Networks

    Konferenzpapier
    Projekt: Prom-Fellow
  • Gruber, Lorenz Gruber; Herbst, Nikolas; Kounev, Samuel; Esch, Thomas; Nguyen, Thanh (2024)

    Modelling and Optimizing a Graph-based Settlement Delineation and Analysis Workflow

    Konferenzpapier
    ISSN: ISSN 0720-8928
    Projekt: ROOT
  • Herbst, Nikolas; Jaggy, Niklas; Dingel, David; Linke, David; Kuenzer, Claudia; Kounev, Samuel (2024)

    On the Realisation of a Workflow for Continuous Earth Observation of Forest Dynamics: A Performance Engineering Challenge

    Konferenzpapier
    ISSN: ISSN 0720-8928
    Projekt: ROOT
  • Rohwer, Ivo; Schwinger, Maximilian; Herbst, Nikolas; Friedl, Peter; Stephan, Michael; Kounev, Samuel (2024)

    Resource Demand Profiling of Monolithic Workflows

    Konferenzpapier
    Projekt: ROOT
  • Rohwer, Ivo; Schwinger, Maximilian; Herbst, Nikolas; Friedl, Peter; Stephan, Michael; Kounev, Samuel (2024)

    Resource Demand Profiling of Monolithic Workflows

    Konferenzpapier
    Projekt: ROOT
  • Herbst, Nikolas; Jaggy, Niklas; Dingel, David; Linke, David; Kuenzer, Claudia; Kounev, Samuel (2024)

    On the Realisation of a Workflow for Continuous Earth Observation of Forest Dynamics: A Performance Engineering Challenge

    Konferenzpapier
    ISSN: ISSN 0720-8928
    Projekt: ROOT
  • Gruber, Lorenz Gruber; Herbst, Nikolas; Kounev, Samuel; Esch, Thomas; Nguyen, Thanh (2024)

    Modelling and Optimizing a Graph-based Settlement Delineation and Analysis Workflow

    Konferenzpapier
    ISSN: ISSN 0720-8928
    Projekt: ROOT
  • Herrnleben, Stefan; Grohmann, Johannes; Lesch, Veronika; Prantl, Thomas; Metzger, Florian; Hosfeld, Tobias; Kounev, Samuel (2022)

    Investigating the Predictability of QoS Metrics in Cellular Networks

    Konferenzpapier
    Projekt: Prom-Fellow