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Auflistung nach Autor:in "Aleksy, Markus"

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  • Konferenzbeitrag
    Developing web applications for small and medium-sized enterprises – an experience report
    (Informatik 2004 – Informatik verbindet – Band 1, Beiträge der 34. Jahrestagung der Gesellschaft für Informatik e.V. (GI), 2004) Aleksy, Markus; Gitzel, Ralf; Schwind, Michael
    In this paper we describe one of the authors' experiences working for an IT service provider in an SME environment. The paper starts with an analysis of the factors typical for the SME business environment and discusses the typical shortcomings resulting from this constellation. Finally, a theory is proposed why the potential of object-oriented methods is not yet realized in the SME environment as perceived in this experience report. While not an empirical study, the paper tries to provide some material for discussions and motivation for specialized approaches for SME software development.
  • Konferenzbeitrag
    A pragmatic approach to traceability in model-driven development
    (PRIMIUM - Process Innovation for Enterprise Software, 2009) Aleksy, Markus; Hildenbrand, Tobias; Obergfell, Claudia; Schader, Martin; Schwind, Michael
    A common problem in model-driven software development (MDSD) processes is the tracing of requirements across different phases of the software development life cycle and multiple levels of abstraction down to the code level. Because debugging at the model level is not feasible yet, unwanted or unexpected behavior of the executable system needs to be analyzed at the code level at run-time and in a feedback loop must be traced back to and handled at the model level. Thus, traceability is a very important success factor and quality criterion in software engineering and maintenance and especially when developing high-quality model-driven infrastructures. In this paper, we present the conceptual design and prototypical implementation of a lightweight traceability approach which supports tracing requirements across different models and levels of abstraction. While providing support for representing different types of traceability links between design models and implementation details, our approach can easily be integrated into existing MDSD projects without increasing their complexity.