Statecharts: A visual formalism for complex systems
Science of Computer Programming
The Unified Modeling Language user guide
The Unified Modeling Language user guide
LSCs: Breathing Life into Message Sequence Charts
Formal Methods in System Design
An Introduction to the Practical Use of Coloured Petri Nets
Lectures on Petri Nets II: Applications, Advances in Petri Nets, the volumes are based on the Advanced Course on Petri Nets
An Introduction to the Theoretical Aspects of Coloured Petri Nets
A Decade of Concurrency, Reflections and Perspectives, REX School/Symposium
Come, Let's Play: Scenario-Based Programming Using LSC's and the Play-Engine
Come, Let's Play: Scenario-Based Programming Using LSC's and the Play-Engine
Object-Oriented Software Engineering: A Use Case Driven Approach
Object-Oriented Software Engineering: A Use Case Driven Approach
SCESM '07 Proceedings of the Sixth International Workshop on Scenarios and State Machines
Transformation from live sequence charts to colored Petri nets
Proceedings of the 2007 Summer Computer Simulation Conference
Hard real-time tasks' scheduling considering voltage scaling, precedence and exclusion relations
Information Processing Letters
Monitor petri nets for security monitoring
Proceedings of the International Workshop on Security and Dependability for Resource Constrained Embedded Systems
Multi-modal scenarios revisited: A net-based representation
Theoretical Computer Science
Data and abstraction for scenario-based modeling with petri nets
PETRI NETS'12 Proceedings of the 33rd international conference on Application and Theory of Petri Nets
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This paper presents a methodology for mapping the Live Sequence Chart (LSC) language to an equivalent Coloured Petri Net (CPN) model as an approach for analysis and verification of embedded systems' properties. LSC is a language for system specification, allowing one to specify what should happen for all execution of the system as well as the modeling of anti-scenarios. However, analysis and verification of systems' properties are not possible. In order to allow diagnosis of inconsistent specifications, besides simulation, verification and analysis should be considered. Therefore the proposition of a CPN model for LSC allows verification and analysis of systems described in LSC, hence, contributing for increasing designers' confidence on the system development process and reducing risks that may lead to project failure.