Complexity results for 1-safe nets
Theoretical Computer Science
A formal basis for architectural connection
ACM Transactions on Software Engineering and Methodology (TOSEM)
Revisiting Safety and Liveness in the Context of Failures
CONCUR '00 Proceedings of the 11th International Conference on Concurrency Theory
Component-Based Design: Towards Guided Composition
ACSD '03 Proceedings of the Third International Conference on Application of Concurrency to System Design
Composition for component-based modeling
Science of Computer Programming - Formal methods for components and objects pragmatic aspects and applications
A Framework for Component-based Construction Extended Abstract
SEFM '05 Proceedings of the Third IEEE International Conference on Software Engineering and Formal Methods
Modeling Heterogeneous Real-time Components in BIP
SEFM '06 Proceedings of the Fourth IEEE International Conference on Software Engineering and Formal Methods
Proving the Correctness of Multiprocess Programs
IEEE Transactions on Software Engineering
An Approach to Modelling and Verification of Component Based Systems
SOFSEM '07 Proceedings of the 33rd conference on Current Trends in Theory and Practice of Computer Science
A Polynomial-Time Checkable Sufficient Condition for Deadlock-Freedom of Component-Based Systems
SOFSEM '07 Proceedings of the 33rd conference on Current Trends in Theory and Practice of Computer Science
Efficiently verifiable conditions for deadlock-freedom of large concurrent programs
VMCAI'05 Proceedings of the 6th international conference on Verification, Model Checking, and Abstract Interpretation
Liveness in Interaction Systems
Electronic Notes in Theoretical Computer Science (ENTCS)
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We treat the effect of absence/failure of ports or components on properties of component-based systems. We do so in the framework of interaction systems, a formalism for component-based systems that strictly separates the issues of local behavior and interaction, for which ideas to establish properties of systems were developed.We propose how to adapt these ideas to analyze how the properties behave under absence or failure of certain components or merely some ports of components. We demonstrate our approach for the properties local and global deadlock-freedom as well as liveness and local progress.