Simulating evolution in model-based product line engineering

• Autores: Wolfgang Heider, Roman Froschauer, Paul Grünbacher, Rick Rabiser, Deepak Dhungana
• Localización: Information and software technology, ISSN 0950-5849, Vol. 52, Nº 7, 2010, págs. 758-769
• Idioma: inglés
• Enlaces
  • Texto completo
• Resumen

  • Context Numerous approaches are available for modeling product lines and their variability. However, the long-term impacts of model-based development on maintenance effort and model complexity can hardly be investigated due to a lack of empirical data. Conducting empirical research in product line engineering is difficult as companies are typically reluctant to provide access to data from their product lines. Also, many benefits of product lines can be measured only in longitudinal studies, which are difficult to perform in most environments.

    Objective In this paper, we thus aim to explore the benefit of simulation to investigate the evolution of model-based product lines.

    Method We present a simulation approach for exploring the effects of product line evolution on model complexity and maintenance effort. Our simulation considers characteristics of product lines (e.g., size, dependencies in models) and we experiment with different evolution profiles (e.g., technical refactoring vs. placement of new products).

    Results We apply the approach in a simulation experiment that uses data from real-world product lines from the domain of industrial automation systems to demonstrate its feasibility.

    Conclusion Our results demonstrate that simulation contributes to understanding the effects of maintenance and evolution in model-based product lines.

    Keywords: Product line engineering; Maintenance and evolution; Model-based development; Simulation; Industrial automation systems