Abstract. Our work was inspired by our modelling and verification of a cardiac pacemaker, which includes concurrent aspects and a set of interdependent and cyclic timing constraints. To model timing constraints in such systems, we present an approach based on the concept of timing interval. We provide a template-based timing constraint modelling scheme that could potentially be applicable to a wide range of modelling scenarios. We give a notation and Event-B semantics for the interval. The Event-B coding of the interval is decoupled from the application logic of the model, therefore a generative design of the approach is possible. We demonstrate our interval approach and its refinement through a small example. The example is verified, model-checked and animated (manually validated) with the ProB animator.
In the domain of formal modelling and verification of real-time safety-critical systems, our focus is on complexi.e. nested, interdependent and cyclic-timing constraints. In Event-B, we present methodological support for our concept of timing interval by defining a set of refinement transformations, designed for structured modelling of such timing constraints. All timing interval related aspects are generated by our tool. An example development, abstracted from our work modelling a cardiac pacemaker, serves to illustrate the use of the transformations. The development is undertaken, proved and model-checked in the Rodin tool-kit for Event-B.
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