On Implementing Real-time Specification Patterns Using Observers
April 27, 2016 Β· Declared Dead Β· π NASA Formal Methods
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Authors
John D. Backes, Michael W. Whalen, Andrew Gacek, John Komp
arXiv ID
1604.08155
Category
cs.SE: Software Engineering
Cross-listed
cs.LO
Citations
6
Venue
NASA Formal Methods
Last Checked
4 months ago
Abstract
English language requirements are often used to specify the behavior of complex cyber-physical systems. The process of transforming these requirements to a formal specification language is often challenging, especially if the specification language does not contain constructs analogous to those used in the original requirements. For example, requirements often contain real-time constraints, but many specification languages for model checkers have discrete time semantics. Work in specification patterns helps to bridge these gaps, allowing straightforward expression of common requirements patterns in formal languages. In this work we demonstrate how we support real-time specification patterns in the Assume Guarantee Reasoning Environment (AGREE) using observers. We demonstrate that there are subtle challenges, not mentioned in previous literature, to express real-time patterns accurately using observers. We then demonstrate that these patterns are sufficient to model real-time requirements for a real-world avionics system.
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