Software Product Line Engineering: Foundations, Principles and Techniques
Software Product Line Engineering: Foundations, Principles and Techniques
Model-Driven Software Development: Technology, Engineering, Management
Model-Driven Software Development: Technology, Engineering, Management
Product Line Implementation using Aspect-Oriented and Model-Driven Software Development
SPLC '07 Proceedings of the 11th International Software Product Line Conference
FeatureMapper: mapping features to models
Companion of the 30th international conference on Software engineering
Applying software product line techniques in model-based embedded systems engineering
MOMPES '09 Proceedings of the 2009 ICSE Workshop on Model-Based Methodologies for Pervasive and Embedded Software
Semantic Translation of Simulink/Stateflow Models to Hybrid Automata Using Graph Transformations
Electronic Notes in Theoretical Computer Science (ENTCS)
Proceedings of the ACM SIGPLAN/SIGBED 2010 conference on Languages, compilers, and tools for embedded systems
View-supported rollout and evolution of model-based ECU applications
Proceedings of the 7th International Workshop on Model-Based Methodologies for Pervasive and Embedded Software
Proceedings of the 5th Workshop on Variability Modeling of Software-Intensive Systems
Mapping features to models: a template approach based on superimposed variants
GPCE'05 Proceedings of the 4th international conference on Generative Programming and Component Engineering
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This paper presents a framework for model-based product lines of embedded systems. We show how to integrate model-based product line techniques into a consistent framework that can deal with large product lines as they are common in industry. The framework demonstrates the strengths of model-based techniques like abstraction, support for customised representations, and a high degree of automation. In particular, we provide the following contributions: (1) to shift existing product lines towards a model-based approach, we support the (semi-) automated extraction of models from existing requirement, test, and implementation artefacts; (2) to cope with the complexity of artefacts and their interrelations in industrial product lines, we support the generation of context-specific views. These views support developers, e.g., in analysing complex dependencies between different artefacts; (3) finally, we support automated product derivation based on an integrated hardware abstraction layer. Most of the presented concepts have been inspired by challenges arising in the industrial application of product line techniques in the model-based engineering of embedded systems. We report on experiences gathered during the application of the techniques to a prototypical product line (on a rapid prototyping platform in the university lab) and to industrial sample cases (at the industry partner).