Communicating sequential processes
Communicating sequential processes
Parallel program design: a foundation
Parallel program design: a foundation
Introduction to HOL: a theorem proving environment for higher order logic
Introduction to HOL: a theorem proving environment for higher order logic
Formal verification of a leader election protocol in process algebra
ACP '95 Proceedings from the international workshop on Algebra of communicating processes
Digital Systems Design Using VHDL
Digital Systems Design Using VHDL
Analysis and Design of Digital Systems with VHDL
Analysis and Design of Digital Systems with VHDL
Distributed Algorithms
Petri Net Theory and the Modeling of Systems
Petri Net Theory and the Modeling of Systems
Introduction to Simulation Using SIMAN
Introduction to Simulation Using SIMAN
A Discipline of Programming
Proof Theory for muCRL: A Language for Processes with Data
Proceedings of the International Workshop on Semantics of Specification Languages (SoSL)
A Bounded Retransmission Protocol for Large Data Packets
AMAST '96 Proceedings of the 5th International Conference on Algebraic Methodology and Software Technology
VDM '91 Proceedings of the 4th International Symposium of VDM Europe on Formal Software Development-Volume I: Conference Contributions - Volume I
PVS: A Prototype Verification System
CADE-11 Proceedings of the 11th International Conference on Automated Deduction: Automated Deduction
Linearization in parallel pCRL
Linearization in parallel pCRL
Analysis of three hybrid systems in time $\mu$ CRL
Analysis of three hybrid systems in time $\'mu$ CRL
Algebraic verification of a distributed summation algorithm
Algebraic verification of a distributed summation algorithm
Model-based Engineering of Embedded Systems Using the Hybrid Process Algebra Chi
Electronic Notes in Theoretical Computer Science (ENTCS)
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Studying industrial systems by simulation enables the designer to study their dynamic behaviour and to determine characteristics of the system. Unfortunately, simulation also has some disadvantages. These can be overcome by using formal methods. Formal methods allow a thorough analysis of the possible behaviours of a system, parameterised system analysis and a modular approach to the analysis of systems. We present a case study in which a model of an industrial system is studied in a formal way. For this purpose, the model is first specified and simulated using the CSP-based executable specification language χ. The model is translated into a model in the process algebra μCRL. This enables us to give a correctness proof of the parameterised model and to study the model in isolation.