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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Representing Component Variability In Configuration Management

Bayraktar, Gamze 01 September 2012 (has links) (PDF)
Reusability of assets within a family of products is the major goal of Software Product Line Engineering (SPLE), therefore managing variability is an important task in SPLs. Configuration management in the context of software product line engineering is more complicated than that in single systems engineering due to &rdquo / variability in space&rdquo / in addition to &rdquo / variability in time&rdquo / of core assets. In this study, a method for documenting variability in executable configuration items, namely components, is proposed by associating them with the Orthogonal Variability Model (OVM) which introduces variability as a separate model. The main aim is to trace variability in dierent configurations by explicitly documenting variability information for components. The links between OVM elements and components facilitate tool support for product derivation as the components matching the selected variations can be gathered by following the links. The proposed scheme is demonstrated on a case study about a radar GUI variability model.
2

Test basé sur les modèles appliqué aux lignes de produits / An approach of combining model-based testing with product Ffamily management

Samih, Hamza 05 December 2014 (has links)
L'ingénierie des lignes de produits est une approche utilisée pour développer une famille de produits. Ces produits partagent un ensemble de points communs et un ensemble de points de variation. Aujourd'hui, la validation est une activité disjointe du processus de développement des lignes de produits. L'effort et les moyens fournis dans les campagnes de tests de chaque produit peuvent être optimisés dans un contexte plus global au niveau de la ligne de produits. Le model-based testing est une technique de génération automatique des cas de test à partir d'un modèle d'états et de transitions construit à partir des exigences fonctionnelles. Dans cette thèse, nous présentons une approche pour tester une ligne de produits logiciels avec le model-based testing. La première contribution consiste à établir un lien entre le modèle de variabilité et le modèle de test, à l'aide des exigences fonctionnelles. La deuxième contribution est un algorithme qui extrait automatiquement un modèle de test spécifique à un produit membre de la famille de produits sous test. L'approche est illustrée par une famille de produits de tableaux de bord d'automobiles et expérimentée par un industriel du domaine aéronautique dans le cadre du projet Européen MBAT. / Software product line engineering is an approach that supports developing products in family. These products are described by common and variable features. Currently, the validation activity is disjointed from the product lines development process. The effort and resources provided in the test campaigns for each product can be optimized in the context of product lines. Model-based testing is a technique for automatically generating a suite of test cases from requirements. In this thesis report, we present an approach to test a software product line with model-based testing. This technique is based on an algorithm that establishes the relationship between the variability model released with OVM and the test model, using traceability of functional requirements present in both formalisms. Our contribution is an algorithm that automatically extracts a product test model. It is illustrated with a real industrial case of automotive dashboards and experimented by an industrial of aeronautic domain in the MBAT European project context.

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