Concurrency control and recovery in database systems
Concurrency control and recovery in database systems
Computer
A survey of self-management in dynamic software architecture specifications
WOSS '04 Proceedings of the 1st ACM SIGSOFT workshop on Self-managed systems
Model-based development of dynamically adaptive software
Proceedings of the 28th international conference on Software engineering
Software—Practice & Experience
A reconfiguration framework for distributed components
Proceedings of the 2009 ESEC/FSE workshop on Software integration and evolution @ runtime
Computer
Version-consistent dynamic reconfiguration of component-based distributed systems
Proceedings of the 19th ACM SIGSOFT symposium and the 13th European conference on Foundations of software engineering
Comparison of component frameworks for real-time embedded systems
CBSE'10 Proceedings of the 13th international conference on Component-Based Software Engineering
Reliable dynamic reconfigurations in a reflective component model
CBSE'10 Proceedings of the 13th international conference on Component-Based Software Engineering
Mode switch handling for the ProCom component model
Proceedings of the 16th International ACM Sigsoft symposium on Component-based software engineering
Towards mining informal online data to guide component-reuse decisions
Proceedings of the 16th International ACM Sigsoft symposium on Component-based software engineering
Safe deployment for reconfigurable cyber-physical systems
Proceedings of the 18th international doctoral symposium on Components and architecture
A discipline-spanning development process for self-adaptive mechatronic systems
Proceedings of the 2013 International Conference on Software and System Process
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Today's real-time embedded systems operate in frequently changing environments on which they react by self-adaptations. Such an approach needs adequate modeling support of these reconfigurations to enable verification of safety properties, e.g., by timed model checking. Component-based development of such systems realizes these self-adaptations by structural reconfigurations of components and their connectors. However, component models proposed in literature do not support reconfigurable components in real-time embedded context but focus on other domains like business information systems. In this paper, we present an extension of our modeling language MechatronicUML to support structural reconfigurations taking the specific requirements of our domain into account. Based on the proposed extension we outline our research roadmap to achieve verification and realization of systems modeled in MechatronicUML.