2,467 research outputs found
Using Indexed and Synchronous Events to Model and Validate Cyber-Physical Systems
Timed Transition Models (TTMs) are event-based descriptions for modelling,
specifying, and verifying discrete real-time systems. An event can be
spontaneous, fair, or timed with specified bounds. TTMs have a textual syntax,
an operational semantics, and an automated tool supporting linear-time temporal
logic. We extend TTMs and its tool with two novel modelling features for
writing high-level specifications: indexed events and synchronous events.
Indexed events allow for concise description of behaviour common to a set of
actors. The indexing construct allows us to select a specific actor and to
specify a temporal property for that actor. We use indexed events to validate
the requirements of a train control system. Synchronous events allow developers
to decompose simultaneous state updates into actions of separate events. To
specify the intended data flow among synchronized actions, we use primed
variables to reference the post-state (i.e., one resulted from taking the
synchronized actions). The TTM tool automatically infers the data flow from
synchronous events, and reports errors on inconsistencies due to circular data
flow. We use synchronous events to validate part of the requirements of a
nuclear shutdown system. In both case studies, we show how the new notation
facilitates the formal validation of system requirements, and use the TTM tool
to verify safety, liveness, and real-time properties.Comment: In Proceedings ESSS 2015, arXiv:1506.0325
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