An Event-B-based approach to hybrid systems engineering and its application to a hemodialysis machine case study
|A. Buga, A. Mashkoor, S. Nemes, K. Schewe, P. Songprasop. An Event-B-based approach to hybrid systems engineering and its application to a hemodialysis machine case study. Computer Languages, Systems & Structures, volume 54, pages 297-315, DOI 10.1016/j.cl.2018.07.004, 12, 2018.|
|Journal||Computer Languages, Systems & Structures|
Systems engineering concerns the complete process for the development of complex systems comprising hardware, software, facilities and personnel. Such systems are hybrid, as some components are characterized by continuous behavior, whereas the behavior of others is discrete. In this paper we present a concise conceptual model for hybrid systems engineering with semantics grounded in a hybrid extension of Event-B. We show that structural modeling can be based on well-known concepts of the entity-relationship model requiring only some extensions to data types and constraints, while behavioral modeling requires a careful separation of synchronous and asynchronous interaction and high-level means for the integration of continuous functions. On these grounds we address the separation of concerns for continuous and hybrid components. The article uses a sophisticated industrial example of a hemodialysis machine to illustrate the modeling method.