Graph-Based Algorithms for Boolean Function Manipulation
IEEE Transactions on Computers
Controller synthesis for the “production cell” case study
FMSP '98 Proceedings of the second workshop on Formal methods in software practice
A Survey of Petri Net Methods for Controlled Discrete EventSystems
Discrete Event Dynamic Systems
Formal Verification of SIGNAL Programs: Application to a Power Transformer Station Controller
AMAST '96 Proceedings of the 5th International Conference on Algebraic Methodology and Software Technology
Formal Development of Reactive Systems - Case Study Production Cell
Data-Flow Synchronous Languages
A Decade of Concurrency, Reflections and Perspectives, REX School/Symposium
Verification of Arithmetic Functions with Binary Moment Diagrams
Verification of Arithmetic Functions with Binary Moment Diagrams
Optimal and adaptive testing with cost constraints
Proceedings of the 2006 international workshop on Automation of software test
A polynomial dynamic system approach to software design for attractivity requirement
Information Sciences: an International Journal
Automating the addition of fault tolerance with discrete controller synthesis
Formal Methods in System Design
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In this paper, we describe the incremental specification of a power transformer station controller using a controller synthesis methodology. We specify the main requirements as simple properties, named control objectives, that the controlled plant has to satisfy. Then, using algebraic techniques, the controller is automatically derived from this set of control objectives. In our case, the plant is specified at a high level, using the data-flow synchronous Signal language, and then by its logical abstraction, named polynomial dynamical system. The control objectives are specified as invariance, reachability, ... properties, as well as partial order relations to be checked by the plant. The control objectives equations are synthesized using algebraic transformations.