Iterative refinement of specification for component based embedded systems
Proceedings of the 2011 International Symposium on Software Testing and Analysis
Requirements and solutions for timing analysis of automotive systems
SAM'10 Proceedings of the 6th international conference on System analysis and modeling: about models
AUTOSAR vs. MARTE for enabling timing analysis of automotive applications
SDL'11 Proceedings of the 15th international conference on Integrating System and Software Modeling
Automotive ADLS: a study on enforcing consistency through multiple architectural levels
Proceedings of the 8th international ACM SIGSOFT conference on Quality of Software Architectures
HW/SW tradeoffs for dynamic message scheduling in controller area network (CAN)
ARCS'13 Proceedings of the 26th international conference on Architecture of Computing Systems
Self-virtualized CAN controller for multi-core processors in real-time applications
ARCS'13 Proceedings of the 26th international conference on Architecture of Computing Systems
Automotive architecture description and its quality
Proceedings of the 2013 9th Joint Meeting on Foundations of Software Engineering
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Highlighting requirements, technologies, and business models, the Automotive Embedded Systems Handbook provides a comprehensive overview of existing and future automotive electronic systems. It presents state-of-the-art methodological and technical solutions in the areas of in-vehicle architectures, multipartner development processes, software engineering methods, embedded communications, and safety and dependability assessment. Divided into four parts, the book begins with an introduction to the design constraints of automotive-embedded systems. It also examines AUTOSAR as the emerging de facto standard and looks at how key technologies, such as sensors and wireless networks, will facilitate the conception of partially and fully autonomous vehicles. The next section focuses on networks and protocols, including CAN, LIN, FlexRay, and TTCAN. The third part explores the design processes of electronic embedded systems, along with new design methodologies, such as the virtual platform. The final section presents validation and verification techniques relating to safety issues. Providing domain-specific solutions to various technical challenges, this handbook serves as a reliable, complete, and well-documented source of information on automotive embedded systems.