Software technology in an automotive company: major challenges
Proceedings of the 25th International Conference on Software Engineering
Visual SDLC: improving requirements engineering for object-oriented systems
OOPSLA '03 Companion of the 18th annual ACM SIGPLAN conference on Object-oriented programming, systems, languages, and applications
A controlled empirical evaluation of a requirements abstraction model
Information and Software Technology
Software Engineering for Automotive Systems: A Roadmap
FOSE '07 2007 Future of Software Engineering
Requirements engineering: In search of the dependent variables
Information and Software Technology
Reusable Services and Semi-automatic Service Composition for Automotive Software
Model-Driven Development of Reliable Automotive Services
Architecting Dependable Systems V
A Requirements Reference Model for Model-Based Requirements Engineering in the Automotive Domain
REFSQ '09 Proceedings of the 15th International Working Conference on Requirements Engineering: Foundation for Software Quality
Challenges for requirements engineering and management in software product line development
REFSQ'07 Proceedings of the 13th international working conference on Requirements engineering: foundation for software quality
Requirements engineering in complex domains
Graph transformations and model-driven engineering
Requirements engineering for embedded systems: an investigation of industry needs
REFSQ'11 Proceedings of the 17th international working conference on Requirements engineering: foundation for software quality
Improved control of automotive software suppliers
PROFES'05 Proceedings of the 6th international conference on Product Focused Software Process Improvement
Journal of Management Information Systems
The lean gap: A review of lean approaches to large-scale software systems development
Journal of Systems and Software
Guiding requirements engineering for software-intensive embedded systems in the automotive industry
Computer Science - Research and Development
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Using real-world projects as a foundation, the authors describe requirements engineering challenges and the solutions they've found while developing software-based automotive systems at DaimlerChrysler. They discuss both domain-specific challenges related to requirements content in particular application areas and domain-independent issues related to requirements administration and management. Although the issues they raise are not necessarily the focus of current requirements engineering research, they argue that they're of crucial importance for improving requirements engineering in developing software for automotive and other complex systems.