Software architecture in practice
Software architecture in practice
Software product-line engineering: a family-based software development process
Software product-line engineering: a family-based software development process
Design and use of software architectures: adopting and evolving a product-line approach
Design and use of software architectures: adopting and evolving a product-line approach
CoPAM: a compact-oriented platform architecting method family for product family engineering
Proceedings of the first conference on Software product lines : experience and research directions: experience and research directions
Product line software engineering of embedded systems
SSR '01 Proceedings of the 2001 symposium on Software reusability: putting software reuse in context
Component-based product line engineering with UML
Component-based product line engineering with UML
A comprehensive product line scoping approach and its validation
Proceedings of the 24th International Conference on Software Engineering
Feature-Oriented Project Line Engineering
IEEE Software
Architectural Design to Meet Stakeholder Requirements
WICSA1 Proceedings of the TC2 First Working IFIP Conference on Software Architecture (WICSA1)
The Impact of Maintainability on Component-based Software Systems
EUROMICRO '03 Proceedings of the 29th Conference on EUROMICRO
Viewpoints of DSP software and service architectures
Journal of Systems and Software
Comparison of Software Product Line Architecture Design Methods: COPA, FAST, FORM, KobrA and QADA
Proceedings of the 26th International Conference on Software Engineering
Comparison of Software Product Line Architecture Design Methods: COPA, FAST, FORM, KobrA and QADA
Proceedings of the 26th International Conference on Software Engineering
WICSA '04 Proceedings of the Fourth Working IEEE/IFIP Conference on Software Architecture
Toward an Architectural Knowledge Base for Wireless Service Engineering
IEEE Transactions on Software Engineering
Reuse of Architectural Knowledge in SPL Development
ICSR '09 Proceedings of the 11th International Conference on Software Reuse: Formal Foundations of Reuse and Domain Engineering
Selecting highly optimal architectural feature sets with Filtered Cartesian Flattening
Journal of Systems and Software
Gathering current knowledge about quality evaluation in software product lines
Proceedings of the 13th International Software Product Line Conference
Automated diagnosis of feature model configurations
Journal of Systems and Software
Security requirements engineering framework for software product lines
Information and Software Technology
Ontology driven piecemeal development of smart spaces
AmI'10 Proceedings of the First international joint conference on Ambient intelligence
Extending the RiPLE-DE process with quality attribute variability realization
Proceedings of the joint ACM SIGSOFT conference -- QoSA and ACM SIGSOFT symposium -- ISARCS on Quality of software architectures -- QoSA and architecting critical systems -- ISARCS
A systematic review of quality attributes and measures for software product lines
Software Quality Control
Model-based verification of quantitative non-functional properties for software product lines
Information and Software Technology
Prototyping Dynamic Software Product Lines to evaluate run-time reconfigurations
Science of Computer Programming
Domain modeling as a basis for building a meshing tool software product line
Advances in Engineering Software
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Software quality is one of the major issues with software intensive systems. Moreover, quality is a critical success factor in software product families exploiting shared architecture and common components in a set of products. Our contribution is the QRF (Quality Requirements of a software Family) method, which explicitly focuses on how quality requirements have to be defined, represented and transformed to architectural models. The method has been applied to two experiments; one in a laboratory environment and the other in industry. The use of the QRF method is exemplified by the Distribution Service Platform (DiSeP), the laboratory experiment. The lessons learned are also based on our experiences of applying the method in industrial settings.