The theory of database concurrency control
The theory of database concurrency control
In transition from global to modular temporal reasoning about programs
Logics and models of concurrent systems
A formal basis for architectural connection
ACM Transactions on Software Engineering and Methodology (TOSEM)
Proceedings of the 8th European software engineering conference held jointly with 9th ACM SIGSOFT international symposium on Foundations of software engineering
Modern Operating Systems
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
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
Everything Is PSPACE-Complete in Interaction Systems
Proceedings of the 5th international colloquium on Theoretical Aspects of Computing
Towards Compositional Verification in MEDISTAM-RT Methodological Framework
IWANN '09 Proceedings of the 10th International Work-Conference on Artificial Neural Networks: Part II: Distributed Computing, Artificial Intelligence, Bioinformatics, Soft Computing, and Ambient Assisted Living
RP '09 Proceedings of the 3rd International Workshop on Reachability Problems
Exploring Multi-Paradigm Modeling Techniques
Simulation
Deriving complexity results for interaction systems from 1-safe Petri nets
SOFSEM'08 Proceedings of the 34th conference on Current trends in theory and practice of computer science
Deadlock-freedom in component systems with architectural constraints
Formal Methods in System Design
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We propose results ensuring properties of a component-based system from properties of its interaction model and of its components.We consider here deadlock-freedom and local progress of subsystems. This is done in the framework of interaction systems, a model for component based modelling described in [9]. An interaction system is the superposition of two models: a behavior model and an interaction model. The behavior model describes the behavior of individual components. The interaction model describes the way the components may interact by introducing connectors that relate actions from different components. We illustrate our concepts and results with examples.