Modelling the pacemaker in event-B: towards methodology for reuse

The cardiac pacemaker is one of the system modelling problems posed to the Formal Methods community by the {\it Grand Challenge for Dependable Systems Evolution} \cite{JOW:06}. The pacemaker is an intricate safety-critical system that supports and moderates the dysfunctional heart's intrinsic electrical control system. This paper focusses on (i) the problem (requirements) domain specification and its mapping to solution (implementation) domain models, (ii) the significant commonality of behaviour between its many operating modes, emphasising the potential for reuse, and (iii) development and verification of models.We introduce the problem and model three of the operating modes in the problem domain using a state machine notation. We then map each of these models into a solution domain state machine notation, designed as shorthand for a refinement-based solution domain development in the Event-B formal language and its RODIN toolki

Redevelopment of an industrial case study using Event-B and Rodin

CDIS is a commercial air traffic information system that was developed using formal methods 15 years ago by Praxis, and it is still in operation today. This system is an example of an industrial scale system that has been developed using formal methods. In particular, the functional requirements of the system were specified using VVSL -- a variant of VDM. A subset of the original specification has been chosen to be reconstructed on the Rodin platform based on the new Event-B formalism. The goal of our reconstruction was to overcome three key difficulties of the original formalisation, namely the difficulty of comprehending the original specification, the lack of any mechanical proof of the consistency of the specification and the difficulty of dealing with distribution and atomicity refinement. In this paper we elucidate how a new formal notation and tool can help to overcome these difficulties

Formal modelling for Ada implementations: tasking Event-B

This paper describes a formal modelling approach, where Ada code is automatically generated from the modelling artefacts. We introduce an implementation-level specification, Tasking Event-B, which is an extension to Event-B. Event-B is a formal method, that can be used to model safety-, and business-critical systems. The work may be of interest to a section of the Ada community who are interested in applying formal modelling techniques in their development process, and automatically generating Ada code from the model. We describe a streamlined process, where the abstract modelling artefacts map easily to Ada language constructs. Initial modelling takes place at a high level of abstraction. We then use refinement, decomposition, and finally implementation-level annotations, to generate Ada code. We provide a brief introduction to Event-B, before illustrating the new approach using small examples taken from a larger case study