Dynamic exploration of multi-agent systems with periodic timed tasks
Abstract
We formalise and study multi-agent timed models MAPTs (Multi-Agent with Periodic
timed Tasks), where each agent is associated with a regular timed schema upon which all possible
actions of the agent rely. MAPTs allow for an accelerated semantics and a layered structure of
the state space, so that it is possible to explore the latter dynamically and use heuristics to greatly
reduce the computation time needed to address reachability problems.
We use an available tool for the Petri net implementation of MAPTs, to explore the state space
of autonomous vehicle systems. Then, we compare this exploration with timed automata-based
approaches in terms of expressiveness of available queries and computation time.