This file was created by the TYPO3 extension bib --- Timezone: UTC Creation date: 2024-11-12 Creation time: 02-48-29 --- Number of references 2 proceedings 2009-aktas-maple-ModeldrivenSupportforSourceCodeVariabilityinAutomotiveSoftwareEngineering-Workshop Model-driven Support for Source Code Variability in Automotive Software Engineering 2009 8 44-51 Variability on source code level in automotive soft- ware engineering is handled by C/C++ preprocessing directives. It provides fine-grained definition of variation points, but brings highly complex structures into the source code. The software gets more difficult to understand, to maintain and to integrate changes. Current approaches for modeling and managing vari- ability on source code do not consider the specific requirements of the automotive domain. To close this gap, we propose a model- driven approach to support software engineers in handling source code variability and configuration of software variants. For this purpose, a variability model is developed that is linked with the source code. Using this approach, a software engineer can shift work steps to the variability model in order to model and manage variation points and implement their variants in the source code. automotive software engineering; programming; model-driven engineering; variability modeling; Online CEUR 1st International Workshop on Model-driven Approaches in Software Product Line Engineering (MAPLE), San Francisco, CA, USA 1613-0073 1 CemMengi ChristianFuß RubenZimmermann IsmetAktas inproceedings securityforpervasivemedicalsensornetworks Security for Pervasive Medical Sensor Networks 2009 7 13 1 http://www.comsys.rwth-aachen.de/fileadmin/papers/2009/2009-garcia-mobiq.pdf Print IEEE Press
Washington, DC, USA
6th Annual International Conference on Mobile and Ubiquitous Systems (MobiQuitous 2009), Toronto ICST/IEEE Toronto, CAN 6th Annual International Conference on Mobile and Ubiquitous Systems (MobiQuitous 2009) en 978-963-9799-59-2 10.4108/ICST.MOBIQUITOUS2009.6832 1 OscarGarcia-Morchon ThomasFalck TobiasHeer KlausWehrle