A logic for n-dimensional hierarchical refinement
Logic in Computer Science
2016-06-08 v1 Software Engineering
Abstract
Hierarchical transition systems provide a popular mathematical structure to represent state-based software applications in which different layers of abstraction are represented by inter-related state machines. The decomposition of high level states into inner sub-states, and of their transitions into inner sub-transitions is common refinement procedure adopted in a number of specification formalisms. This paper introduces a hybrid modal logic for k-layered transition systems, its first-order standard translation, a notion of bisimulation, and a modal invariance result. Layered and hierarchical notions of refinement are also discussed in this setting.
Cite
@article{arxiv.1606.02019,
title = {A logic for n-dimensional hierarchical refinement},
author = {Alexandre Madeira and Manuel A. Martins and Luís S. Barbosa},
journal= {arXiv preprint arXiv:1606.02019},
year = {2016}
}
Comments
In Proceedings Refine'15, arXiv:1606.01344